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Greetings from Neobiotech Co.,Ltd. Neobiotech is the prior Implant manufacturer which was established on February 2000 and endeavored to provide the best product and service under the mott of Implant service No.1. Neobiotech launched CMI guarantee excellent operation in immediate placement, GBR, immediate loading and not to mention of best product to upper posterior early 2007, while passing through the newborn process as a innovation managerial of this company from 2007. Year 2008, neobiotech released Sinus Crestal Approach tool of new method and brought out innovation to Sinus Implant surgical operation. Also neobiotech launched SLA Kit, Sinus Lateral Approach which received praise and love from the head of dentistry. In mid year 2009, first time ever, neobiotech launched Neo FR Kit(Fixture Remover Kit) which can remove fixture easily from the surgery. Year 2010, neobiotech have launched Neo SR Kit(Screw Remover Kit) and from this, neobiotech have made advanced surgical solution series 1(SCA Kit), 2 (SLA Kit), 3(Neo FR Kit), 4 (Neo SR Kit). In the future ahead, neobiotech will keep on innovating and launch new products. In Neobiotech, we have a motto of development product as concept of 3S, which specially satisfy customer by Simple, Safe and Speedy. With this concept head of dentistry understand our 3S spirit and express satisfaction. Neobiotech will get near to customers with attitude of listening courteously to customers' voice to collect your valuable opinion. Neobiotech always concern customer's thought and bring best satisfaction from both dentistry. Furthermore, neobiotech promises to keep on researching and creating new product and launching very first new product to the World and become leading world implant market.

Neobiotech Chairman

Neobiotech President

Heo Young-ku

Kim In-ho


List of Contents Advantages of Neo CMI Implants

6

Neo CMI Implant Merits in Sinus the Maxillary Posterior Area

6

Neo CMI Implant Body Structure and Characteristics

7

SCRP Prosthetics System

8

Advantages of SCRP Multi Abutments

10

EB/IT/IS/S-Mini Implant System Chart

12

EB Fixture

18

Cover Screw

19

Healing Abutment

19

Temporary Abutment

20

Impression Coping

20

Lab Analog

21

Prosthetic Flow Chart

22

SCRP Multi Abutment

24

Cement Hex Abutment

25

Cement Angled Abutment

26

UCLA Gold Abutment

27

UCLA Plastic Abutment

28

Ball Abutment

30

Housing & Retainer

30

O-Ring & Impression O-Ring

31

Ball Lab Analog

32

Ball Abutment Driver

32

IT Fixture

34

Cover Screw

34

Healing Abutment

34

Prosthetic Flow Chart

35

Solid Abutment

38

Excellent Solid Abutment

40

IT Abutment

42

Impression Coping

44

Lab Analog

44

Neo CMI Implant

System Chart EB Implant System

IT Implant System


IS Implant System IS-II active Fixture IS-II Fixture IS Fixture Cover Screw Healing Abutment Temporary Abutment Prosthetic Flow Chart Hex Abutment SCRP Multi Abutment Non-Hex Abutment Solid Abutment Angled Abutment Shapable Abutment Fixture Level Impression Coping Abutment Level Plastic Impression Cap Lab Analog Plastic Coping Protective Cap UCLA Gold Abutment UCLA Plastic Abutment Ball Abutment Housing & Retainer O-Ring & Impression O-Ring Ball Lab Analog Ball Abutment Driver

46 47 48 49 49 49 50

S-Mini KIT Composition S-Mini KIT Components Other Surgical & Prosthetic Components

SCA KIT

53 54 55 56 57 58 59 60 60 61 61 62 62 63 63

94 95 97

Introduction SCA KIT Composition SCA KIT Components User Guide Case Reports

102 103 104 110 112

Introduction SLA KIT Composition SLA KIT Components User Guide Case Reports

118 120 121 124 126

Introduction Neo Fixture Remover KIT Composition Neo Fixture Remover KIT Components User Guide Case Reports

132 133

Introduction Neo Screw Remover KIT Composition Neo Screw Remover KIT Components User Guide Screw Removal Sequence

140 141

Introduction CTi-mem Components User Guide CTi-mem Selection

152 155 159 163

Introduction Type of Ti-mesh

166 166

SLA KIT

Neo FR KIT

64 64 64

134 135 138

S-Mini System S-Mini Fixture Prosthetic Flow Chart Impression Cap Lab Analog Protective Cap

66 68 69

Housing & Retainer O-Ring & Impression O-Ring

70 70

Neo SR KIT

69 69

Surgical KIT

142 145 148

CTi-mem Characteristics of Drill Drilling Sequence

72 73

Surgical Guide(EB / IT / IS / IS II) All-In-One Surgical KIT Composition All-In-One Surgical KIT Components IS Mini KIT Composition IS Mini KIT Components

74 82 83 87 88

S-Wide KIT Composition S-Wide KIT Components

91 92

Ti-mesh


Neo CMI Implant System Go to Index

Advantages of Neo CMI Implants strengthens the advantages of straight body and taper body and compensates for typical drawbacks. Thus, drilling and implanting processes are quick and exact. Furthermore, initial fixation is excellent.

Drilling and implanting processes are very safe, quick and easy. Self-tapping is possible(over 90%). Implant is easy and safe even in difficult situations such as mixed bone(hard-soft-hard). If the bone is D4 or D4-D3, implant is possible only through initial drilling. Initial fixation will be acquired enough even in sinus graft or sinus osteotome operation. One stage approach is possible in 90% of the cases. Drill are compatible, since the body structure of external and internal implants are same. Neo CMI Implant 6

Neo CMI Implants Merits in Sinus the Maxillary Posterior Area 1 Initial fixation in D3-D4 bone is excellent due to minimal drilling and self-compaction. 2 If the bone's thickness is about 6~11mm, you will be able to gain sufficient initial fixation by bicortical fixation. 3 Even though the bone thickness is only about 1~3mm, you can still get excellent initial stability.

1

2

3


Neo CMI Implant System Go to Index

Neo CMI Implants Body Structure and

Characteristics

Magic Thread The body is specially designed to endure vertical vertical force and lateral pressure effectively.

Platform Switching Between Implant and abutment, minimize the microgap and maximize biologic width in order to minimize the bone loss.

Surface

Microthread

The surface is treated by RBM which has been proofed of long term verification of stability.

It is designed for minimize the marginal bone loss and gain maximum fixation of crestal wall by microthread.

Apex

Taper-Straight-Taper Body Neo CMI Implant

Powerful and well-defined threads exist at the peak of the apex. Drilling power is remarkable and initial fixation at the apex is excellent to both immediate placement and immediate loading.

Drilling and implant insertion is easier and also have the design to endure bite forces and tension.

7

1

4

Human histology of a Neo CMI Implant(EB fixture) 6 months after immediate loading

500

RBM surface of Neo CMI Implant

5,000


®

SCRP Prosthetics System(External) Go to Index

SCRP® Prosthetics System(External) SCRP prosthetics can be applied to Neo CMI Implant EB system. If the degree between implants (in prosthetic structures that connect single as well as ultiple implants) is within 45, prosthetic structure can be installed by using SCRP multi-abutment.

Neo CMI Implant

Hex Abutment When SCRP prosthetic structure is produced by using an entire hexa abutment, attaching and detaching the structure can be difficult due to the blockage of the insertion path.

8

SCRP Multi Abutment Watch Movie If SCRP prosthetic structure is produced by using Neobiotech's multi-abutments, each abutment can be repositioned to implants. Attaching and detaching is easy even in implants with a degree that is within 45.

When fixing multi abutment to fixture, user have to use “abutment positioned for exact position” of hex and direction of prosthesis. Abutment Positioner


®

SCRP Prosthetics System(Internal Submerged) Go to Index

SCRP® Prosthetics System(Internal Submerged) SCRP prosthetics can be applied to Neo CMI Implant IS system. If the degree between implants (in prosthetic structures that connect single as well as multiple implants) is within 15, prosthetic structure can be installed by using SCRP multi-abutment.

Hex Abutment Neo CMI Implant

When SCRP prosthetic structure is produced by using an entire hexa abutment, attaching and detaching the structure can be difficult due to the blockage of the insertion path.

9

SCRP Multi Abutment Watch Movie If SCRP prosthetic structure is produced by using Neobiotech's multi-abutments, each abutment can be repositioned to implants. Attaching and detaching is easy even in implants with a degree that is within 15.

When fixing multi abutment to fixture, user have to use “abutment positioned for exact position” of hex and direction of prosthesis. Abutment Positioner


Advantages of SCRP Multi Abutments Go to Index

Advantages of SCRP速 Multi Abutments

Specified abutments for SCRP that applied to multiple implants. A multi-abutment can be repositioned in the oral cavity without a jig. Passive fit between implants and prosthetic structure can be acquired easily. Prosthetic Structure is easy to remove and minimize the damages. As a final cement is used, the risk of washing-out is minimal. Cementation of the washed-out abutment can be performed again. Cement under sub-gingival region can be easily removed and polished. Easy to manufacture Economical Neo CMI Implant

SCRP Multi Abutment

10

External

How to use

Internal Submerged

Clinical case

SCRP速 System? It is an implant prosthetic system that composes the advantages of screw and cement types and removes drawbacks. Because the SCRP system is simple, clinical & laboratory procedure is time-saving and cost-effective. Passive fit can be made easily and can be applied to narrow interocclusal spaces. Moreover, it can be removed easily anytime you want.



EB Implant System Chart Go to Index

EB Implant System Chart

Fixture

Healing & Cover screw

Impression coping

Abutment

Pick-up

Straight

Cement

Single

Lab analog

SCRP multi

Abutment positioner

Hex

Angled

SCRP multi

Neo CMI Implant

Lab analog

Single Healing abutment

Gold

Non-hex

EB Fixture UCLA

12

Single

SCRP multi

Non-hex

Transfer

Plastic

Impression coping positioner

Hex Single

SCRP multi

Non-hex

Temporary

Cover screw

Temporary

EB S-Wide Fixture

Non-hex Single

SCRP multi

Non-hex

Ball O-ring O-ring

Ball

Retainer

Housing

Ball abutment driver

Retainer

Housing

Ball lab analog


IT Implant System Chart Go to Index

IT Implant System Chart

Fixture

Healing & Cover screw

Abutment

Impression coping

Lab analog

Solid / Excellent solid

Solid lab analog

Positioning cylinder

Shoulder analog

Solid

Impression cap

Neo CMI Implant

Healing abutment

Pick-up Straight / Angled

Cement Octa

13

IT Fixture

Gold

Non-octa

Lab analog

Transfer

Cover screw

UCLA

Octa

Non-octa

Plastic

Octa

Impression coping positioner

Non-octa Octa

Non-octa


IS Implant System Chart Go to Index

IS Implant System Chart

Fixture

Healing & Cover screw

Impression coping

Abutment

Lab analog

Solid

Solid Impression cap

Straight

Pick-up

IS-II active Hex

SCRP multi

Abutment positioner

Non-hex

Fixture level

Healing abutment

Hex

Cement

Neo CMI Implant

Angled

Hex

Non-hex

Shapable

SCRP multi

IS-II 14

Hex

SCRP multi

Non-hex

Gold

IS-II S-Wide

Plastic

Non-hex

Transfer

Impression coping positioner

UCLA Hex

Cover screw

SCRP multi Non-hex

Hex

Non-hex Hex

Temporary

Temporary

IS

Abutment level Hex

Non-hex

Non-hex

Ball

O-ring O-ring

Ball

IS S-Wide

Retainer Housing

Ball abutment driver

Retainer

Housing

Ball lab analog


S-Mini Implant System Chart Go to Index

S-Mini Implant System Chart

| Cement Fixture

Impression

Impression cap

Lab analog

Lab analog (Normal Type)

Lab analog (Modifying Type)

Protective cap

Protective cap

Neo CMI Implant

S-Mini Fixture (Cement)

15

| Ball Fixture

Denture

Impression

O-ring

O-ring

Retainer

Retainer

Lab analog

Ball lab analog

S-Mini Fixture (Ball) Housing

Housing



Contents EB Fixture

18

Cover Screw

19

Healing Abutment

19

Temporary Abutment

20

Impression Coping

20

Lab Analog

21

Prosthetic Flow Chart

22

SCRP

Multi Abutment

24

Cement Abutment

25

Cement Angled Abutment

26

UCLA Gold Abutment

27

UCLA Plastic Abutment

28

Ball Abutment

30

Housing & Retainer

30

O-Ring & Impression O-Ring

31

Ball Lab Analog

32

Ball Abutment Driver

32


EB External System Go to Index

EB Fixture Type

Diameter( )

Narrow

Hex

3.5

Length

2.4

4.0

2.7

Regular Diameter

4.5

Wide(3i)

2.7

5.0

2.7

EB Implant System

Hex

Wide

5.0

(Branemark)

3.4

Length(mm)

Product Name

10.0

EB 310

11.5

EB 311

13.0

EB 313

7.0

EB 407

8.5

EB 408

10.0

EB 410

11.5

EB 411

13.0

EB 413

7.0

EB 4507

8.5

EB 4508

10.0

EB 4510

11.5

EB 4511

13.0

EB 4513

7.0

EBI 507

8.5

EBI 508

10.0

EBI 510

11.5

EBI 511

13.0

EBI 513

7.0

EBB 507

8.5

EBB 508

10.0

EBB 510

11.5

EBB 511

13.0

EBB 513

18

EB S-Wide Fixture Platform

Type

Platform( )

5.0

Length

Diameter( )

5.5

Hex

3.4

S-wide Diameter

5.0

6.0

3.4

Length(mm) Product Name 7.0

EBB 5507

8.5

EBB 5508

10.0

EBB 5510

11.5

EBB 5511

13.0

EBB 5513

7.0

EBB 607

8.5

EBB 608

10.0

EBB 610

11.5

EBB 611

13.0

EBB 613

Abutment is compatible with external branemark type. Narrow _ Branemark Compatible Regular _ Hexa height 0.7mm All Compatible (ex : Branemark, 3i, Lifecore ect.) Wide(3i) _ 3i Compatible Wide(Branemark) _ Branemark Compatible S-Wide(Branemark) _ Branemark Compatible


EB External System Go to Index

Cover Screw | Head Type

Diameter

Type

Diameter( )

Product Name

Narrow

3.7

ECHN 300

Regular

4.3

ECHR 400

Wide(3i) Wide/S-Wide(B)

5.2

ECHI 500

5.2

ECHB 500

| Headless Type Type

Product Name

Regular

ECR 400

EB Implant System

Healing Abutment Type

Diameter

Cuff

Narrow

Diameter( )

4.8

5.5

Regular

6.0

Wide(3i)

6.0

Wide/S-Wide (Branemark)

6.0

Cuff(mm)

Product Name

2.0

EHN 402

3.0

EHN 403

4.0

EHN 404

5.0

EHN 405

6.0

EHN 406

2.0

EHR 502

3.0

EHR 503

4.0

EHR 504

5.0

EHR 505

6.0

EHR 506

2.0

EHR 602

3.0

EHR 603

4.0

EHR 604

5.0

EHR 605

6.0

EHR 606

2.0

EHI 602

3.0

EHI 603

4.0

EHI 604

5.0

EHI 605

2.0

EHB 602

3.0

EHB 603

4.0

EHB 604

5.0

EHB 605

19


EB External System Go to Index

Temporary Abutment Hex Type

Diameter( )

Product Name

Screw

Narrow

4.5

EAHTN 300

CSHS 16

Regular

5.2

EAHTR 400

CSHS 20

Wide(3i) Wide/S-Wide(B)

5.7

EAHTI 500

CSHS 20

5.7

EAHTB 500

CSHS 25

Type

Diameter( )

Product Name

Screw

Narrow

4.5

EASTN 300

CSHS 16

SCRP Multi Diameter

Regular

5.2

EASTR 400

CSHS 20

Wide(3i)

5.7

EASTI 500

CSHS 20

Wide/S-Wide(B)

5.7

EASTB 500

CSHS 25

Type

Diameter( )

Product Name

Screw

Non-Hex

EB Implant System

Narrow

4.5

EANTN 300

CSHS 16

Regular

5.2

EANTR 400

CSHS 20

Wide(3i) Wide/S-Wide(B)

5.7

EANTI 500

CSHS 20

5.7

EANTB 500

CSHS 25

Type

Diameter( )

Product Name

Screw

Impression Coping 20

| Pick-up Hex Narrow

4.0

EBIPH 411

EBPIS 16

Regular

4.5

EBIPH 511

EBPIS 20

Wide(3i) Wide/S-Wide(B)

5.5

EBIPHI 611

EBPIS 20

5.5

EBIPH 611

EBPIS 25

Type

Diameter( )

Product Name

Screw

Narrow

4.0

EBIPS 411

EBPIS 16

SCRP Multi

Regular

4.5

EBIPS 511

EBPIS 20

Wide(3i)

5.5

EBIPSI 611

EBPIS 20

Wide/S-Wide(B)

5.5

EBIPS 611

EBPIS 25

Non-Hex

Diameter

Type

Diameter( )

Product Name

Screw

Narrow

4.0

EBIPN 411

EBPIS 16

Regular

4.5

EBIPN 511

EBPIS 20

Wide(3i) Wide/S-Wide(B)

5.5

EBIPNI 611

EBPIS 20

5.5

EBIPN 611

EBPIS 25


EB External System Go to Index

Impression Coping | Transfer Hex Type

Diameter( )

Product Name

Screw

Narrow

4.8

EBITH 411

EBTIS 16

Regular

5.5

EBITH 511

EBTIS 20

Wide(3i) Wide/S-Wide(B)

6.0

EBITHI 611

EBTIS 20

6.0

EBITH 611

EBTIS 25

Non-Hex Diameter

Type

Diameter( )

Product Name

Screw

Narrow

4.8

EBITN 411

EBTIS 16

Regular

5.5

EBITN 511

EBTIS 20

Wide(3i) Wide/S-Wide(B)

6.0

EBITNI 611

EBTIS 20

6.0

EBITN 611

EBTIS 25 EB Implant System

| Impression Coping Positioner Product Name FDHSET 01

21

Image of impression coping and abutment has combined

Lab Analog Diameter

Type

Diameter( )

Product Name

Narrow

3.5

EBAN 30

Regular

4.1

EBAR 40

Wide(3i) Wide/S-Wide(B)

5.0

EBAI 50

5.0

EBAB 50


EB External System Go to Index

Prosthetic Flow Chart

External Abutment Straight

Abutment Positioner

UCLA Gold Abument

Hex SCRP multi

SCRP multi

Non-hex

Hex

Angled

UCLA Plastic Abument

EB Implant System

Hex

SCRP multi

Non-hex

Double hex

Lab analog

22

Pick-up

Transfer

Cover Screw

Healing abutment

0.9 Hex driver

Impression coping positioner

1.2 Hex driver

EB Fixture


EB External System Go to Index

Prosthetic Flow Chart

EB Ball Abutment

Lab

Housing

Clinical

Retainer

EB Implant System

Lab analog

Housing

Retainer

23

Ball abutment

Ball abutment driver

Cover Screw

Healing abutment

0.9 Hex driver

1.2 Hex driver

EB Fixture


EB External System Go to Index

SCRP Multi Abutment

Type

Length

Narrow

Diameter( )

4.5

Cuff

4.5 Diameter

Cuff(mm) 1.0

EASN 418 EASN 428

3.0 1.0

EASR 416

2.0 3.0

EASR 516 EASR 526 EASR 536

4.0

EASR 546 EASR 518

EB Implant System

8.0

EASR 528 EASR 538

4.0

EASR 548

1.0

EASR 616 6.0

EASR 626 EASR 636

4.0

EASR 646

1.0

EASR 618

2.0 3.0

8.0

EASR 628 EASR 638

4.0

EASR 648

1.0

EASI 616

2.0 3.0

6.0

EASI 626 EASI 636

4.0

EASI 646

1.0

EASI 618

2.0 3.0

8.0

EASI 628 EASI 638

4.0

EASI 648

1.0

EASB 616

2.0 3.0 5.7

6.0

1.0

24

(Branemark)

EASR 436

1.0

3.0

Wide/S-Wide

EASR 426 EASR 446

3.0

5.7

6.0

4.0

2.0

Wide(3i)

EASN 438 EASN 448

2.0

5.7

8.0

4.0

3.0

Regular

Product Name

2.0

2.0

5.2

Length(mm)

6.0

EASB 626 EASB 636

4.0

EASB 646

1.0

EASB 618

2.0 3.0 4.0

8.0

EASB 628 EASB 638 EASB 648

Screw

CSHS 16

CSHS 20

CSHS 20

CSHS 20

CSHS 20

CSHS 20

CSHS 20

CSHS 20

CSHS 25

CSHS 25


EB External System Go to Index

Cement Hex Abutment

Type

Diameter( )

Cuff(mm)

Length(mm) Product Name

1.0 Narrow

4.5

Length

2.0 3.0

5.2

EAHR 516

EAHR 518 EAHR 538 EAHR 548 EAHR 616 6.0

EAHR 626 EAHR 636

4.0

EAHR 646

1.0

EAHR 618 8.0

EAHR 628 EAHR 638

4.0

EAHR 648

1.0

EAHI 616

2.0 3.0

6.0

EAHI 626 EAHI 636

4.0

EAHI 646

1.0

EAHB 616

2.0 3.0 4.0

6.0

EAHB 626 EAHB 636 EAHB 646

CSHS 16

CSHS 20

CSHS 20

CSHS 20

CSHS 20

CSHS 20

CSHS 25

EB Implant System

(Branemark)

EAHR 528

1.0

3.0

5.7

8.0

4.0

2.0

Wide/S-Wide

EAHR 536 EAHR 546

3.0

5.7

EAHR 526

1.0

2.0

Wide(3i)

6.0

4.0

3.0

5.7

EAHN 438 EAHN 448

2.0

Regular

EAHN 428

1.0 3.0 Diameter

8.0

4.0 2.0

Cuff

Screw

EAHN 418

25


EB External System Go to Index

Cement Angled Abutment

15 Type Length

Diameter( ) Cuff(mm)

Narrow

4.5 5.2

Cuff

Regular 5.7

Diameter

Wide(3i)

5.7

Wide/S-Wide (Branemark)

5.7

2.0 3.0 2.0 3.0 2.0 3.0 2.0 3.0 2.0 3.0

Length(mm) 7.0 7.0 7.0 7.0 7.0

Product Name EAHAN 1427 EAHAN 1437 EAHAR 1527 EAHAR 1537 EAHAR 1627 EAHAR 1637 EAHAI 1627 EAHAI 1637 EAHAB 1627 EAHAB 1637

Screw CSHS 16 CSHS 20 CSHS 20 CSHS 20 CSHS 25

EB Implant System 26

25 Type Length

Diameter( ) Cuff(mm)

Narrow

4.5

Regular

5.2

Wide(3i)

5.7

Cuff

Diameter

Wide/S-Wide (Branemark)

5.7

2.0 3.0 2.0 3.0 2.0 3.0 2.0 3.0

Length(mm) 7.0 7.0 7.0 7.0

Product Name EAHAN 2427 EAHAN 2437 EAHAR 2527 EAHAR 2537 EAHAI 2627 EAHAI 2637 EAHAB 2627 EAHAB 2637

Screw CSHS 16 CSHS 20 CSHS 20 CSHS 25


EB External System Go to Index

UCLA Gold Abutment

Hex

Diameter

Type

Diameter( )

Platform(mm)

Product Name

Screw

Narrow

4.0

3.5

EUGHN 300

CSHS 16

Regular

4.5

4.1

EUGHR 400

CSHS 20

Wide(3i)

5.5

5.0

EUGHI 500

CSHS 20

Wide/S-Wide (Branemark)

5.5

5.0

EUGHB 500

CSHS 25

EB Implant System 27

SCRP Multi

Diameter

Type

Diameter( )

Platform(mm)

Product Name

Screw

Narrow

4.0

3.5

EUGSN 300

CSHS 16

Regular

4.5

4.1

EUGSR 400

CSHS 20

Wide(3i)

5.5

5.0

EUGSI 500

CSHS 20

Wide/S-Wide (Branemark)

5.5

5.0

EUGSB 500

CSHS 25


EB External System Go to Index

UCLA Gold Abutment

Non-Hex

Diameter

Type

Diameter( )

Platform(mm)

Product Name

Screw

Narrow

4.0

3.5

EUGNN 300

CSHS 16

Regular

4.5

4.1

EUGNR 400

CSHS 20

Wide(3i)

5.5

5.0

EUGNI 500

CSHS 20

Wide/S-Wide (Branemark)

5.5

5.0

EUGNB 500

CSHS 25

EB Implant System 28

UCLA Plastic Abutment

Hex

Diameter

Type

Diameter( )

Platform(mm)

Product Name

Screw

Narrow

4.0

3.5

EUPHN 300

CSHS 16

Regular

4.5

4.1

EUPHR 400

CSHS 20

Wide(3i)

5.5

5.0

EUPHI 500

CSHS 20

Wide/S-Wide (Branemark)

5.5

5.0

EUPHB 500

CSHS 25


EB External System Go to Index

UCLA Plastic Abutment

SCRP Multi

Diameter

Type

Diameter( )

Platform(mm)

Product Name

Screw

Narrow

4.0

3.5

EUPSN 300

CSHS 16

Regular

4.5

4.1

EUPSR 400

CSHS 20

Wide(3i)

5.5

5.0

EUPSI 500

CSHS 20

Wide/S-Wide (Branemark)

5.5

5.0

EUPSB 500

CSHS 25

EB Implant System 29

Non-Hex

Diameter

Type

Diameter( )

Platform(mm)

Product Name

Screw

Narrow

4.0

3.5

EUPNN 300

CSHS 16

Regular

4.5

4.1

EUPNR 400

CSHS 20

Wide(3i)

5.5

5.0

EUPNI 500

CSHS 20

Wide/S-Wide (Branemark)

5.5

5.0

EUPNB 500

CSHS 25


EB External System Go to Index

Ball Abutment

- Abutment that connects the overdenture and implant - Use Ball Abutment Driver - Compensate maximum path of 20 degree - Tighten torque: 30Ncm Cuff

Type

Diameter( )

Hex

Cuff(mm)

Product Name

2.0

EABAN 200

Narrow

3.5

2.4

3.0

EABAN 300

Diameter

Regular

4.1

EB Implant System

Wide(3i)

5.0

Wide/S-Wide(B)

5.0

2.7

2.7

3.4

4.0

EABAN 400

2.0

EABAR 200

3.0

EABAR 300

4.0

EABAR 400

2.0

EABAI 200

3.0

EABAI 300

4.0

EABAI 400

2.0

EABAB 200

3.0

EABAB 300

4.0

EABAB 400

30

Housing & Retainer | Housing - Features detachable of Ball Abutment Overdenture by inserting impression O-Ring as final. Length

Diameter

Diameter( )

Length(mm)

Product Name

5.0

4.0

BAH 40


EB External System Go to Index

Housing & Retainer

| Retainer - In case of occlusion interval is lower use retainer instead of housing.

Length

Diameter

Diameter( )

Length(mm)

Product Name

5.0

2.0

BAR 20

EB Implant System

O-Ring & Impression O-Ring

31

- lab, clinical there are two kinds of clinical use and O-ring & Impression O-ring can be inserted with Housing or Retainer. Clinical

Diameter

- lab O-Ring is specially designed and the following acts are listed below. Prevents the resin flowing into the under of Housing or Retainer, while making a final resin denture at laboratory. Prevents the resin flowing into the under of Housing or Retainer, while inserting Housing or Retainer within denture directly at the office.

Lab

Type Clinical Lab

Diameter( ) 4.5

Color

Product Name

Orange

BAORING

Black

BAOIMP


EB External System Go to Index

Ball Lab Analog - A ball abutment of oral implementation on model of ball abutment (abutment level) - Compatible with EB / IS / S-Mini(ball)

Length

Diameter( )

Length(mm)

Product Name

3.5

17.1

BALA 350

Diameter

EB Implant System

Ball Abutment Driver

32

- A tool used to connect or disconnect the ball abutment to the fixture.

Length

Diameter

Hex

Diameter( )

Length(mm)

Hex

Product Name

5.0

25

2.4

BADH 24


Contents IT Fixture

34

Cover Screw

34

Healing Abutment

34

Prosthetic Flow Chart

35

Solid Abutment

38

Excellent Solid Abutment

40

IT

Abutment

42

Impression Coping

44

Lab Analog

44


IT Internal System

IT Fixture

Platform

Type

Diameter( )

Platform( )

G.Collar(mm)

Narrow

3.5

4.8

1.8

G.Collar

Length

Regular

4.0

Wide

4.8

5.0

1.8

4.8

1.8

Diameter

Length(mm) Product Name 10.0

IT 1310

11.5

IT 1311

13.0

IT 1313

8.5

IT 1408

10.0

IT 1410

11.5

IT 1411

13.0

IT 1413

8.5

IT 1508

10.0

IT 1510

11.5

IT 1511

13.0

IT 1513

IT Implant System

Cover Screw

Type

34

Diameter

Diameter( )

Product Name

Small

3.5

ITCS 10

Large

6.0

ITCS 20

Diameter

Healing Abutment Cuff

Diameter

Type

Diameter( )

Cuff(mm)

Product Name

2.0

IUTH 502

Standard

5.5

3.0

IUTH 503

4.0

IUTH 504


IT Internal System Go to Index

Prosthetic Flow Chart

Solid Abutment

Plastic coping (single)

Plastic coping (bridge)

Plastic coping (single)

Impression cap

Shoulder analog

Positioning cylinder

IT Implant System

Analog

Plastic coping (bridge)

Impression cap

Normal

35

Modified

Abutment driver

Solid abutment

Cover screw

Healing abutment

IT Fixture

Protective cap

1.2 Hex driver


IT Internal System Go to Index

Prosthetic Flow Chart

Excellent Solid Abutment

Plastic coping (single)

Plastic coping (bridge)

Plastic coping (single)

IT Implant System

Analog

Impression cap

Shoulder analog

Positioning cylinder

36

Plastic coping (bridge)

Impression cap

Normal

Modified

Abutment driver

Excellent solid abutment

Cover screw

Healing abutment

IT Fixture

Protective cap

1.2 Hex driver


IT Internal System Go to Index

Prosthetic Flow Chart

IT Abutment

Octa

Non-Octa

Octa

UCLA gold

Angled abutment

Cement abutment

Non-Octa

Octa

Non-Octa

UCLA plastic

IT Implant System

Lab analog

37

Pick-up

Cover screw

Transfer

Healing abutment

IT Fixture

Impression coping positioner

1.2 Hex driver


IT Internal System Go to Index

Solid Abutment | Solid Abutment Length

Diameter( ) 3.5

Length(mm)

Product Name

4.0

ITSR 40

5.5

ITSR 55

7.0

ITSR 70

Length(mm)

Product Name

4.0

ITPR 40

5.5

ITPR 55

7.0

ITPR 70

Diameter

| Protective Cap Length

Diameter( )

IT Implant System

5.5 Diameter

38

| Solid Positioning Cylinder Inner Length(mm)

Length

Color

Product Name

4.0

Yellow

ITYR 40

5.5

Gray

ITYR 55

7.0

Blue

ITYR 70

| Solid Lab Analog Length(mm)

Color

Product Name

4.0

Yellow

ITAR 40

5.5

Metal

ITAR 55

7.0

Blue

ITAR 70


IT Internal System Go to Index

Solid Abutment

| Solid Impression Cap Product Name ITIR 00

IT Implant System

| Solid Shoulder Analog Product Name ITAS 00

39

| Solid Plastic Coping Single

Bridge

Type

Product Name

Single

ITPRCR

Bridge

ITPRBR


IT Internal System Go to Index

Excellent Solid Abutment

| Excellent Solid Abutment Length

Diameter( ) 4.3

Length(mm)

Product Name

4.0

ITSE 404

5.5

ITSE 405

7.0

ITSE 407

Diameter

| Protective Cap IT Implant System

Length

Length(mm)

Product Name

4.0

ITPTC 40

5.5

ITPTC 55

7.0

ITPTC 70

40

| Solid Positioning Cylinder Inner Length(mm)

Length

Color

Product Name

4.0

Yellow

ITEPC 40

5.5

Gray

ITEPC 55

7.0

Blue

ITEPC 70

Color

Product Name

4.0

Yellow

ITELA 440

5.5

Metal

ITELA 455

7.0

Blue

ITELA 470

| Solid Lab Analog Length(mm)


IT Internal System Go to Index

Excellent Solid Abutment

| Solid Impression Cap Product Name ITEIC 00

IT Implant System

| Solid Plastic Coping Single

Bridge

Type

Product Name

Single

ITHPC

Bridge

ITNPC

41


IT Internal System Go to Index

IT Abutment

| Cement Abutment Diameter( )

Type

Cuff(mm)

Product Name

Octa Cuff

5.5 Diameter

Non-Octa

0

ICO 500

1.0

ICO 510

2.0

ICO 520

3.0

ICO 530

4.0

ICO 540

0

ICN 500

1.0

ICN 510

2.0

ICN 520

3.0

ICN 530

4.0

ICN 540

Abutment screw is used as ITCS20S. IT Implant System

| UCLA Gold Abutment Type

42

Diameter

Diameter( )

Product Name

Octa

5.5

ITUGO 500

Non-Octa

5.5

ITUGN 500

Abutment screw is used as ITCS20S.

| UCLA Plastic Abutment Type

Diameter( )

Octa

5.5

ITUPO 500

Non-Octa

5.5

ITUPN 500

Abutment screw is used as ITCS20S. Diameter

Product Name


IT Internal System Go to Index

IT Abutment

| Pre-Angled Abutment Type

Angle

Product Name

15

IAO 310A

25

IAO 320A

15

IAO 310B

25

IAO 320B

Angle to the edge Angle to the flat wall Abutment screw is used as ITAS20S.

| Collared Pre-Angled Abutment - The path of implant can be fixed in 16 directions, as there are A-type that forms angle centering on the edge of octa and B-type that forms angle centering on surface.

IT Implant System

- Use when the gum is thick or the fixture was deeply implanted.

- TiN coating that considers aesthetics. - Connects abutment screw(code : ITCS20S) using 1.2 hex driver 43

Octa Diameter( )

Angle

Type

Cuff(mm)

Product Name

1.0

IAO 511A

A 15 B 5.5 A 25 B

2.0

IAO 512A

1.0

IAO 511B

2.0

IAO 512B

1.0

IAO 521A

2.0

IAO 522A

1.0

IAO 521B

2.0

IAO 522B

Abutment screw is used as ITCS20S.

Non-Octa Diameter( )

Angle 15

5.5 25 Abutment screw is used as ITCS20S.

Cuff(mm)

Product Name

1.0

IAN 511

2.0

IAN 512

1.0

IAN 521

2.0

IAN 522


IT Internal System Go to Index

Impression Coping

| Pick-up Type

Product Name

Octa

ITIPO 511

Non-Octa

ITIPN 511

Impression Coping Screw is used as ITPIS20.

| Transfer

IT Implant System

Type

Product Name

Octa

ITITO 511

Non-Octa

ITITN 511

Impression Coping Screw is used as ITTIS20.

| Impression Coping Positioner Product Name 44

FDHSET 01

Image of impression coping and abutment has combined

Lab Analog

Product Name ITLA 50


Contents IS-II active Fixture

46

IS-II Fixture

47

IS Fixture

48

Cover Screw

49

Healing Abutment

49

Temparary Abutment

49

Prosthetic Flow Chart

50

Hex Abutment

53

Multi Abutment

54

Non-Hex Abutment

55

Solid Abutment

56

Angled Abutment

57

Shapable Abutment

58

Fixture Level Impression Coping

59

Abutment Level Plastic Impression Coping

60

Lab Analog

60

Plastic Coping

61

Protective Cap

61

UCLA Gold Abutment

62

UCLA Plastic Abutment

62

Ball Abutment

63

Housing & Retainer

63

O-Ring & Impression O-Ring

64

Ball Lab Analog

64

Ball Abutment Driver

64

SCRP


IS Internal Submerged System Go to Index

IS-II active Fixture

Type

Diameter( )

Platform( )

Hex

Length(mm) Product Name 8.5

Platform

Narrow

3.5

3.5

2.5

Length

Regular

Diameter

Regular

IS Implant System

Wide

4.0

4.5

5.0

3.7

3.9

4.4

2.5

2.5

2.5

BIS 3508A

10.0

BIS 3510A

11.5

BIS 3511A

13.0

BIS 3513A

7.3

BIS 4007A

8.5

BIS 4008A

10.0

BIS 4010A

11.5

BIS 4011A

13.0

BIS 4013A

7.3

BIS 4507A

8.5

BIS 4508A

10.0

BIS 4510A

11.5

BIS 4511A

13.0

BIS 4513A

7.3

BIS 5007A

8.5

BIS 5008A

10.0

BIS 5010A

11.5

BIS 5011A

13.0

BIS 5013A

46

Characteristic of CMI IS-II active Strong and fast osseointegration by SLA surface with 10years surface treatment technique

> CMI active surface CMI active surface No impurities on implant surface.

2. Bioseal is unique design to minimize bone loss by maximizing sealing effect of soft tissue

CCoronal macrothread design is good for Immediate placement /loading at cortical bone

4. Magic thread (Reversed thread type) is designed to resist strongly against occlusive force and lateral force in the long term. So, Operator can experience stable insertion and strong initial stability with Magic thread.

> Bio seal Application of machined surface & Micro groove on 0.5mm of upper part.

> Coronal Macrothread Optimal Primary stability.

> Magic Thread Strong primary stability by reversed and tapered thread design.


IS Internal Submerged System Go to Index

IS II Fixture

Type

Diameter( )

Platform( )

Hex

Platform

Narrow

3.5

3.7

2.5

Length

Regular

Diameter

Regular

4.5

5.0

4.1

3.9

4.4

2.5

2.5

2.5

8.5

BIS 3508

10.0

BIS 3510

11.5

BIS 3511

13.0

BIS 3513

7.3

BIS 4007

8.5

BIS 4008

10.0

BIS 4010

11.5

BIS 4011

13.0

BIS 4013

7.3

BIS 4507

8.5

BIS 4508

10.0

BIS 4510

11.5

BIS 4511

13.0

BIS 4513

7.3

BIS 5007

8.5

BIS 5008

10.0

BIS 5010

11.5

BIS 5011

13.0

BIS 5013

IS Implant System

Wide

4.0

Length(mm) Product Name

47

IS II S-Wide Fixture

Type

Diameter( )

Platform( )

Hex

Platform

5.5

4.5

2.5

Length

Diameter

wide

6.0

7.0

4.9

5.8

2.5

2.5

Length(mm) Product Name 7.3

BIS 5507

8.5

BIS 5508

10.0

BIS 5510

11.5

BIS 5511

13.0

BIS 5513

7.3

BIS 6007

8.5

BIS 6008

10.0

BIS 6010

11.5

BIS 6011

13.0

BIS 6013

7.3

BIS 7007

8.5

BIS 7008

10.0

BIS 7010

11.5

BIS 7011

13.0

BIS 7013


IS Internal Submerged System Go to Index

IS Fixture

Type

Platform

Narrow

Length

Regular

Regular

Diameter( )

3.5

4.0

4.5

Platform( )

3.5

3.6

3.6

Hex

2.5

2.5

2.5

Diameter

IS Implant System

Wide

5.0

3.75

2.5

Length(mm) Product Name 8.5

IS 308

10.0

IS 310

11.5

IS 311

13.0

IS 313

7.3

IS 407

8.5

IS 408

10.0

IS 410

11.5

IS 411

13.0

IS 413

7.3

IS 4507

8.5

IS 4508

10.0

IS 4510

11.5

IS 4511

13.0

IS 4513

7.3

IS 507

8.5

IS 508

10.0

IS 510

11.5

IS 511

13.0

IS 513

48

IS S-Wide Fixture

Type

Diameter( )

Platform( )

Hex

Platform

5.5

4.1

2.5

Length

Diameter

S-wide

6.0

7.0

4.4

5.4

2.5

2.5

Length(mm) Product Name 7.3

IS 5507

8.5

IS 5508

10.0

IS 5510

11.5

IS 5511

13.0

IS 5513

7.3

IS 607

8.5

IS 608

10.0

IS 610

11.5

IS 611

13.0

IS 613

7.3

IS 707

8.5

IS 708

10.0

IS 710

11.5

IS 711

13.0

IS 713


IS Internal Submerged System Go to Index

Cover Screw Type Narrow

Product Name ISN 300

Regular

ISC 400

Wide/S-Wide

ISC 400

Regular : IS 407, IS 4507 / Wide : IS 507 / S-Wide : IS 5507, IS 607, IS 707 are matched with ISN30

Healing Abutment Diameter( )

Product Name

2.0

ISH 402

3.0

ISH 403

4.0

ISH 404

5.0

ISH 405

6.0

ISH 406

2.0

ISH 502

3.0

ISH 503

4.0

ISH 504

5.0

ISH 505

6.0

ISH 506

2.0

ISH 602

Cuff

4.8

Diameter

5.5

3.0

ISH 603

4.0

ISH 604

5.0

ISH 605

6.0

ISH 606

2.0

ISH 702

3.0

ISH 703

4.0

ISH 704

5.0

ISH 705

6.0

ISH 706

Length(mm)

Product Name

6.0

ISAHT 560

8.0

ISAHT 580

Length(mm)

Product Name

6.0

ISANT 560

8.0

ISANT 580

6.0

6.8

Temporary Abutment Hex Type Hex

Length

Abutment Screw is used as ISCS20

Non-Hex Type 5.2

Non-Hex Abutment Screw is used as ISCS20

IS Implant System

Cuff(mm)

49


IS Internal Submerged System Go to Index

Prosthetic Flow Chart

IS Solid Abutment

Plastic coping

Lab analog

IS Implant System Impression cap 50

1.2 Hex driver

Solid abutment

Protective cap

1.2 Hex driver Healing abutment

Cover screw

IS Fixture


IS Internal Submerged System Go to Index

Prosthetic Flow Chart

IS Cement Abutment Gold

Straight

SCRP Non-hex multi Abutment positioner

Hex Plastic coping

Non-hex

Plastic

Angled

Hex

SCRP multi

Hex

Non-hex

Hex

Non-hex

Hex

IS Implant System

Shapable

Lab analog

Lab analog

SCRP Non-hex multi

Impression cap 51

Hex

SCRP Non-hex multi Abutment positioner

Pick up

Transfer

Impression coping positioner

1.2 Hex driver Healing abutment

Cover screw

IS Fixture


IS Internal Submerged System Go to Index

Prosthetic Flow Chart

IS Ball Abutment

Lab

Housing

Clinical

Retainer

IS Implant System

Lab analog

Housing

Retainer

52

Ball abutment

Ball abutment driver

1.2 Hex driver Healing abutment

Cover screw

IS Fixture


IS Internal Submerged System Go to Index

Hex Abutment Diameter( )

Length

Length(mm)

4.5

Cuff

4.5

5.5

Diameter

7.0

4.5

5.5

7.0

4.5

5.7

5.5

7.0

4.5

6.5

5.5

7.0

Abutment Screw is used as ISCS20

Product Name

1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0

ISAH 414 ISAH 424 ISAH 434 ISAH 444 ISAH 415 ISAH 425 ISAH 435 ISAH 445 ISAH 417 ISAH 427 ISAH 437 ISAH 447 ISAH 514 ISAH 524 ISAH 534 ISAH 544 ISAH 515 ISAH 525 ISAH 535 ISAH 545 ISAH 517 ISAH 527 ISAH 537 ISAH 547 ISAH 614 ISAH 624 ISAH 634 ISAH 644 ISAH 615 ISAH 625 ISAH 635 ISAH 645 ISAH 617 ISAH 627 ISAH 637 ISAH 647 ISAH 714 ISAH 724 ISAH 734 ISAH 744 ISAH 715 ISAH 725 ISAH 735 ISAH 745 ISAH 717 ISAH 727 ISAH 737 ISAH 747

IS Implant System

5.2

Cuff(mm)

53


IS Internal Submerged System Go to Index

SCRP Multi Abutment Diameter( )

Length(mm)

Length

4.5 Cuff

4.5

5.5

Diameter

7.0

4.5

IS Implant System

5.2

5.5

7.0

54

4.5

5.7

5.5

7.0

4.5

6.5

5.5

7.0

Abutment Screw is used as ISCS20

Cuff(mm)

Product Name

1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0

ISAS 414 ISAS 424 ISAS 434 ISAS 444 ISAS 415 ISAS 425 ISAS 435 ISAS 445 ISAS 417 ISAS 427 ISAS 437 ISAS 447 ISAS 514 ISAS 524 ISAS 534 ISAS 544 ISAS 515 ISAS 525 ISAS 535 ISAS 545 ISAS 517 ISAS 527 ISAS 537 ISAS 547 ISAS 614 ISAS 624 ISAS 634 ISAS 644 ISAS 615 ISAS 625 ISAS 635 ISAS 645 ISAS 617 ISAS 627 ISAS 637 ISAS 647 ISAS 714 ISAS 724 ISAS 734 ISAS 744 ISAS 715 ISAS 725 ISAS 735 ISAS 745 ISAS 717 ISAS 727 ISAS 737 ISAS 747


IS Internal Submerged System Go to Index

Non-Hex Abutment Diameter( )

Length(mm)

Length

4.5 Cuff

4.5

5.5

Diameter

7.0

4.5

5.5

7.0

4.5

5.7

5.5

7.0

4.5

6.5

5.5

7.0

Abutment Screw is used as ISCS20

Product Name

1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0

ISAN 414 ISAN 424 ISAN 434 ISAN 444 ISAN 415 ISAN 425 ISAN 435 ISAN 445 ISAN 417 ISAN 427 ISAN 437 ISAN 447 ISAN 514 ISAN 524 ISAN 534 ISAN 544 ISAN 515 ISAN 525 ISAN 535 ISAN 545 ISAN 517 ISAN 527 ISAN 537 ISAN 547 ISAN 614 ISAN 624 ISAN 634 ISAN 644 ISAN 615 ISAN 625 ISAN 635 ISAN 645 ISAN 617 ISAN 627 ISAN 637 ISAN 647 ISAN 714 ISAN 724 ISAN 734 ISAN 744 ISAN 715 ISAN 725 ISAN 735 ISAN 745 ISAN 717 ISAN 727 ISAN 737 ISAN 747

IS Implant System

5.2

Cuff(mm)

55


IS Internal Submerged System Go to Index

Solid Abutment Diameter( ) Length

Length(mm)

4.5

Cuff

4.5

5.5

Diameter

7.0

4.5

IS Implant System

5.2

5.5

7.0

56

4.5

5.7

5.5

7.0

4.5

6.5

5.5

7.0

Abutment Screw is used as ISCS20

Cuff(mm)

Product Name

1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0 1.0 2.0 3.0 4.0

ISAE 414 ISAE 424 ISAE 434 ISAE 444 ISAE 415 ISAE 425 ISAE 435 ISAE 445 ISAE 417 ISAE 427 ISAE 437 ISAE 447 ISAE 514 ISAE 524 ISAE 534 ISAE 544 ISAE 515 ISAE 525 ISAE 535 ISAE 545 ISAE 517 ISAE 527 ISAE 537 ISAE 547 ISAE 614 ISAE 624 ISAE 634 ISAE 644 ISAE 615 ISAE 625 ISAE 635 ISAE 645 ISAE 617 ISAE 627 ISAE 637 ISAE 647 ISAE 714 ISAE 724 ISAE 734 ISAE 744 ISAE 715 ISAE 725 ISAE 735 ISAE 745 ISAE 717 ISAE 727 ISAE 737 ISAE 747


IS Internal Submerged System Go to Index

Angled Abutment - The path of implant can be fixed in 12 directions, as there are A-type that forms angle centering on the edge of hexa and B-type that forms angle centering on surface. - TiN coating that considers aesthetics. - Connects abutment screw(code : ITCS20) using 1.2 hex driver

Hex Angle

Diameter( )

Type

Cuff(mm)

Product Name

2.0

ISAHA 1427

3.0

ISAHA 1437

A 4.5 B

A-Type (Angle to the edge)

A 15

5.2 B

5.7 B A

B-Type (Angle to the flat wall)

4.5 B 25 A 5.2 B

ISAHB 1427

3.0

ISAHB 1437

2.0

ISAHA 1527

3.0

ISAHA 1537

2.0

ISAHB 1527

3.0

ISAHB 1537

2.0

ISAHA 1627

3.0

ISAHA 1637

2.0

ISAHB 1627

3.0

ISAHB 1637

2.0

ISAHA 2427

3.0

ISAHA 2437

2.0

ISAHB 2427

3.0

ISAHB 2437

2.0

ISAHA 2527

3.0

ISAHA 2537

2.0

ISAHB 2527

3.0

ISAHB 2537

Abutment Screw is used as ISCS20

Non-hex Angle

Diameter( ) 4.5

15

5.2 5.7 4.5

25 5.2 Abutment Screw is used as ISCS20

Cuff(mm)

Product Name

2.0

ISANA 1427

3.0

ISANA 1437

2.0

ISANA 1527

3.0

ISANA 1537

2.0

ISANA 1627

3.0

ISANA 1637

2.0

ISANA 2427

3.0

ISANA 2437

2.0

ISANA 2527

3.0

ISANA 2537

IS Implant System

A

2.0

57


IS Internal Submerged System Go to Index

Shapable Abutment Hex Diameter( )

Length

4.5 5.2

Cuff

5.7 6.5 Diameter

Cuff(mm) 2.0 4.0 2.0 4.0 2.0 4.0 2.0 4.0

Length(mm) 8.0 8.0 8.0 8.0

Product Name ISSH 428 ISSH 448 ISSH 528 ISSH 548 ISSH 628 ISSH 648 ISSH 728 ISSH 748

SCRP Multi Diameter( ) IS Implant System

4.5 5.2 5.7 6.5

Cuff(mm) 2.0 4.0 2.0 4.0 2.0 4.0 2.0 4.0

Length(mm) 8.0 8.0 8.0 8.0

Product Name ISSS 428 ISSS 448 ISSS 528 ISSS 548 ISSS 628 ISSS 648 ISSS 728 ISSS 748

58

Non-Hex Diameter( ) 4.5 5.2 5.7 6.5

Cuff(mm) 2.0 4.0 2.0 4.0 2.0 4.0 2.0 4.0

Abutment Screw is used as ISCS20

Length(mm) 8.0 8.0 8.0 8.0

Product Name ISSN 428 ISSN 448 ISSN 528 ISSN 548 ISSN 628 ISSN 648 ISSN 728 ISSN 748


IS Internal Submerged System Go to Index

Fixture Level Impression Coping | Pick Up Hex Diameter( )

Product Name

4.8

ISIPH 411

5.5

ISIPH 511

6.0

ISIPH 611

Diameter( )

Product Name

4.8

ISIPS 411

5.5

ISIPS 511

6.0

ISIPS 611

Diameter( )

Product Name

4.8

ISIPN 411

5.5

ISIPN 511

6.0

ISIPN 611

SCRP Multi

Non-Hex

IS Implant System

Abutment Screw is used as ISPIS20

| Transfer Hex

59

Diameter( )

Product Name

4.8

ISITH 411

5.5

ISITH 511

6.0

ISITH 611

Diameter( )

Product Name

4.8

ISITN 411

5.5

ISITN 511

6.0

ISITN 611

Non-Hex

Abutment Screw is used as ISTIS20

| Impression Coping Positioner Product Name FDHSET 01

Image of impression coping and abutment has combined


IS Internal Submerged System Go to Index

Abutment Level Plastic Impression Cap Diameter( ) Length

Length(mm)

Color

Product Name

4.5

11.5

Yellow

ISPIC 411

5.2

11.5

Green

ISPIC 511

5.7

11.5

Blue

ISPIC 611

6.5

11.5

Purple

ISPIC 711

Diameter

Lab Analog IS Implant System

| Fixture Level

Diameter

60

Diameter( )

Product Name

3.8

ISLA 400

4.3

ISLA 500

Narrow Fixture - use ISLA400 Regular, Wide, S-wide 7mm fixture - use ISLA400 If the size is different from the rest - use ISLA500

| Abutment Level Diameter

Length

Diameter( )

Cuff(mm)

Length( mm)

Product Name

4.5

ISLA 445

4.5

3.0

5.5

ISLA 455

Cuff

5.2

5.7

6.5

3.0

3.0

3.0

7

ISLA 470

4.5

ISLA 545

5.5

ISLA 555

7

ISLA 570

4.5

ISLA 645

5.5

ISLA 655

7

ISLA 670

4.5

ISLA 745

5.5

ISLA 755

7

ISLA 770


IS Internal Submerged System Go to Index

Plastic Coping Diameter( )

Length(mm)

Color

4.5 5.2 Single

Length

Bridge

5.7

Product Name ISPCH 410

11.7

Red

ISPCH 510 ISPCH 610

6.5

ISPCH 710

4.5

ISPCN 410

5.2 5.7

11.7

White

6.5

ISPCN 510 ISPCN 610 ISPCN 710

IS Implant System

Protective Cap

61

Diameter( )

Length(mm)

Color

4.5 4.5

5.5

ISPTC 445 White

7.0 5.5

ISPTC 545 White

7.0

6.5

5.5

ISPTC 555 ISPTC 570

4.5 5.7

ISPTC 455 ISPTC 470

4.5 5.2

Product Name

ISPTC 645 White

ISPTC 655

7.0

ISPTC 670

4.5

ISPTC 745

5.5 7.0

White

ISPTC 755 ISPTC 770


IS Internal Submerged System Go to Index

UCLA Gold Abutment Hex

Cuff

Diameter( )

Cuff(mm)

Product Name

4.5

1.0

ISUGH 400

Diameter( )

Cuff(mm)

Product Name

4.5

1.0

ISUGS 400

Diameter( )

Cuff(mm)

Product Name

4.5

1.0

ISUGN 400

Diameter( )

Cuff(mm)

Product Name

4.5

1.0

ISUPH 400

5.2

1.0

ISUPH 500

5.7

1.0

ISUPH 600

Diameter( )

Cuff(mm)

Product Name

4.5

1.0

ISUPN 400

5.2

1.0

ISUPN 500

5.7

1.0

ISUPN 600

Abutment Screw is used as ISCS20 Diameter

SCRP Multi

Abutment Screw is used as ISCS20

IS Implant System

Non-Hex

Abutment Screw is used as ISCS20

62

UCLA Plastic Abutment Hex

Cuff

Abutment Screw is used as ISCS20 Diameter

Non-Hex

Abutment Screw is used as ISCS20


IS Internal Submerged System Go to Index

Ball Abutment - Abutment that connects the overdenture and implant - Use Ball Abutment Driver - Compensate maximum path of 20 degree

Cuff

- Tighten torque: 30Ncm

Hex

Diameter

Diameter( )

2.4

Cuff(mm)

Product Name

1.0

ISABA 100

2.0

ISABA 200

3.0

ISABA 300

4.0

ISABA 400

3.5

IS Implant System

Housing & Retainer | Housing - Features detachable of Ball Abutment Overdenture by inserting impression O-Ring as final. Length

Diameter

Diameter( )

Length(mm)

Product Name

5.0

4.0

BAH 40

| Retainer - In case of occlusion interval is lower use retainer instead of housing.

Length

Diameter

Diameter( )

Length(mm)

Product Name

5.0

2.0

BAR 20

63


IS Internal Submerged System Go to Index

O-Ring & Impression O-Ring - lab, clinical there are two kinds of clinical use and O-ring & Impression O-ring can be inserted with Housing or Retainer. Clinical

Diameter

- lab O-Ring is specially designed and the following acts are listed below. Prevents the resin flowing into the under of Housing or Retainer, while making a final resin denture at laboratory. Prevents the resin flowing into the under of Housing or Retainer, while inserting Housing or Retainer within denture directly at the office.

Lab

Type Clinical Lab

Diameter( ) 4.5

Color

Product Name

Orange

BAORING

Black

BAOIMP

IS Implant System

Ball Lab Analog - A ball abutment of oral implementation on model of ball abutment (abutment level) - Compatible with EB / IS / S-Mini(ball) Length

64

Diameter( )

Length(mm)

Product Name

3.5

17.1

BALA 350

Diameter

Ball Abutment Driver - A tool used to connect or disconnect the ball abutment to the fixture. Length

Diameter

Hex

Diameter( )

Length(mm)

Hex

Product Name

5.0

25.0

2.4

BADH 24


Contents S-Mini Fixture

66

Prosthetic Flow Chart

68

Impression Cap

69

Lab Analog

69

Protective Cap

69

Housing & Retainer

70

O-Ring & Impression O-Ring

70


S-Mini Implant System Go to Index

S-Mini Fixture - Cement Type

Diameter( )

Post 10mm

2.0

Cuff 2mm

2.5 Length

3.0 S-Mini Implant System 66

Diameter

3.5

Length(mm)

Product Name

8.5

MI 2008 L

10.0

MI 2010 L

11.5

MI 2011 L

13.0

MI 2013 L

15.0

MI 2015 L

8.5

MI 2508 L

10.0

MI 2510 L

11.5

MI 2511 L

13.0

MI 2513 L

15.0

MI 2515 L

8.5

MI 3008 L

10.0

MI 3010 L

11.5

MI 3011 L

13.0

MI 3013 L

15.0

MI 3015 L

8.5

MI 3508 L

10.0

MI 3510 L

11.5

MI 3511 L

13.0

MI 3513 L

15.0

MI 3515 L


S-Mini Implant System Go to Index

S-Mini Fixture - Ball Type

Cuff(mm)

Diameter( )

2.0 Cuff

2.5 Length

3.0

3.0

Diameter

2.0

2.5

4.0

3.0

3.5

Product Name

8.5

MIB 20083

10.0

MIB 20103

11.5

MIB 20113

13.0

MIB 20133

15.0

MIB 20153

8.5

MIB 25083

10.0

MIB 25103

11.5

MIB 25113

13.0

MIB 25133

15.0

MIB 25153

8.5

MIB 30083

10.0

MIB 30103

11.5

MIB 30113

13.0

MIB 30133

15.0

MIB 30153

8.5

MIB 35083

10.0

MIB 35103

11.5

MIB 35113

13.0

MIB 35133

15.0

MIB 35153

8.5

MIB 20084

10.0

MIB 20104

11.5

MIB 20114

13.0

MIB 20134

15.0

MIB 20154

8.5

MIB 25084

10.0

MIB 25104

11.5

MIB 25114

13.0

MIB 25134

15.0

MIB 25154

8.5

MIB 30084

10.0

MIB 30104

11.5

MIB 30114

13.0

MIB 30134

15.0

MIB 30154

8.5

MIB 35084

10.0

MIB 35104

11.5

MIB 35114

13.0

MIB 35134

15.0

MIB 35154

S-Mini Implant System

3.5

Length(mm)

67


S-Mini Implant System Go to Index

Prosthetic Flow Chart Cement Type

Lab analog (Normal Type)

Protective cap

Lab analog (Modifying Type)

Protective cap

Lab side

Chair side

Lab side

Chair side

Normal

Post Modified

S-Mini Implant System

Impression cap

Impression cap

S-mini Fixture (Cement type)

68

Ball Type

Lab

Housing

Clinical

Lab analog

S-mini Fixture (Ball type)

Housing

Retainer

Retainer


S-Mini Implant System Go to Index

Impression Cap

Product Name MICIMP

Lab Analog

Normal

Type

Product Name

Normal

MICLAB 01

Modifying

MICLAB 02

S-Mini Implant System

Cement Type

Modifing

Ball Type

69

- A ball abutment of oral implementation on model of ball abutment (abutment level) - Compatible with EB / IS / S-Mini(ball)

Length

Diameter( )

Length(mm)

Product Name

3.5

17.1

BALA 350

Diameter

Protective Cap Product Name MICPTC


S-Mini Implant System Go to Index

Housing & Retainer | Housing - Features detachable of Ball Abutment Overdenture by inserting impression O-Ring as final.

Length

Diameter

Diameter( )

Length(mm)

Product Name

5.0

4.0

BAH 40

| Retainer - In case of occlusion interval is lower use retainer instead of housing. Length

S-Mini Implant System

Diameter( )

Length(mm)

Product Name

5.0

2.0

BAR 20

Diameter

70

O-Ring & Impression O-Ring - lab, clinical there are two kinds of clinical use and O-ring & Impression O-ring can be inserted with Housing or Retainer. Clinical

Diameter

- lab O-Ring is specially designed and the following acts are listed below. Prevents the resin flowing into the under of Housing or Retainer, while making a final resin denture at laboratory. Prevents the resin flowing into the under of Housing or Retainer, while inserting Housing or Retainer within denture directly at the office.

Impression/Lab

Type Clinical Lab

Diameter( ) 4.5

Color

Product Name

Orange

BAORING

Black

BAOIMP


Contents Characteristics of Drill

72

Drilling Sequence

73

Surgical Guide(EB / IT / IS / IS II)

74

All-In-One Surgical

Composition

82

Components

83

Composition

87

Components

88

Composition

91

Components

92

Composition

93

Components

95

Other Surgical & Prosthetic

97

KIT

All-In-One Surgical IS Mini IS Mini S-Wide S-Wide S-Mini S-Mini

KIT KIT

KIT KIT

KIT KIT

KIT

Components


Surgical kit Go to Index

Characteristics of Drill

Surgical kit 72

Safe Drilling A stopper can be attached that makes it easy and safe for even beginners. Lateral deletion is possible. Direction can be modified during drilling.

Speedy Drilling Tapered drill can finish drilling very quickly as 2/3 of the body in inserted into the tooth without rotating.

Minimal Bone Removing Apex bone deletion can be minimized (taper drill).

Overheating due to apex deletion and following bone necrosis merely exist. Bone trauma is minimized due to significantly low amounts of bone loss. Bone can be preserved by slow drilling.(300rpm)


Surgical kit Go to Index

Drilling Sequence 3.5mm (Narrow) Implant Guide Drill

Narrow Drill ( 2.9)

2.0 Initial Drill

Multi Profile EB

Countersink IS

Narrow Tap Drill

4.0mm (Regular) Implant Guide Drill

Narrow Drill ( 2.9)

2.0 Initial Drill

Regular Drill ( 3.3)

Regular Drill ( 3.5)

Multi Profile EB

Countersink IS

Regular Tap Drill

Surgical kit 73

4.5mm (Regular) Implant Guide Drill

2.0 Initial Drill

Narrow Drill ( 2.9)

Regular Drill ( 3.3)

Regular Drill ( 3.5)

Regular Drill ( 3.8)

Wide Drill ( 4.1)

Multi Profile EB

Countersink IS

Regular Tap Drill

5.0mm (Wide) Implant Guide Drill

2.0 Initial Drill

Narrow Drill ( 2.9)

Regular Drill ( 3.3)

Regular Drill ( 3.5)

Regular Drill ( 3.8)

Wide Drill ( 4.1)

Wide Drill ( 4.3)

IS II Wide Drill ( 4.5)

Multi Profile EB

IS Counter- Wide sink Tap Drill

IS II Wide Tap Drill


Surgical kit Go to Index

EB Fixture Surgical Guide 1. Incision

Make a full-thickness crestal incision and use a peristeal elevator to expose the alveolar ridge.

Surgical kit 4. Depth Gauge

2. Guide Drill

Optimal implant location is selected using the guide drill. The drilling depth using guide drill should not be over the apex line(2~3mm) of the guide drill. Speed : 1,200 ~ 1,500rpm

5. Parallel Pin

3.

2.0 Initial Drill

Use the 2.0mm drill mounted a stopper to create a pilot hole of appropriate depth. Check the bone density during the drilling with your technical sense. Pumping action is recommended while drilling. If the fixture needs deeper hole or to control the depth, we recommend using 1 step shorter stopper to over drilling. Speed : 1,200rpm

6. Twist Surgical Drill

74

2.9

3.3 / 3.5 / 3.8

Narrow

Regular

4.1 /

4.3

Wide

After drilling 2.0 straight drill, check the drilling depth using depth gauge. The laser marking represents drilling depth from 7.0, 8.5, 10.0, 11.5, and 13.0 mm from the bottom of depth gauge.

Use the parallel pin to determine the appropriate alignment with adjacent teeth, opposing occlusion of other implants.

After attached an appropriate stopper to the tapper drill, make a drill hole. Select an appropriate drill type depending on the bone density.

D1: Use hard bone drill(H)

D2~D3: Use soft bone drill(S)

D4 : Drill one step shorter than implant size.(Under drill)

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill 3.5 drill Regular(4.5) Implant : Regular(4.0) 3.8 drill 4.1 drill Wide(5.0) Implant : Regular(4.5) 4.3 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill Regular(4.5) Implant : Regular(4.0) 3.8 drill Wide(5.0) Implant : Regular(4.5) 4.1 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Regular(4.5) Implant : Regular(4.0) 3.3 drill Wide(5.0) Implant : Regular(4.5) 3.5 drill Narrow(3.5) Implant : Guide drill

Regular(4.0) Implant : Narrow(3.5)

Speed : 800rpm


Surgical kit Go to Index 7. Multi Profile

8. Surgical Tap

9. Insertion

1

When the bone density is D1 or D2, the multi profile is used for preparing the marginal bone. When the narrow, regular and wide fixtures are placed, drill up to the upper part of the countersink. Speed : 1,200 ~ 1,500rpm

When the bone density is D1 or D2, the prepared site can be tapped with a tap drill. After mounting contra angle connector to the tap drill, complete tapping at the speed of 25 rpm and full length. When the bone density is D3 or D4, make a under tapping to increase the fixation strength. If immediate loading is required, downsize to s drill and then proceed tapping.

Place the EB fixture using free mount fixture driver of either contra angle type or ratchet type. Obtain the insertion torque about 30-40Ncm. Since the laser marking on the drill is designed to level to the flap top of the fixture, the fixture can be inserted up to the flat top level. (1)the fixture can be inserted just up to the bioseal groove level. (2)However, when the healing abutment is connected

11. Healing Abutment / Cover Screw & Suture

Surgical kit

10. Direction Pin

2

75

After combining the direction pin to the fixture insertion, relation with opposite arch and choose of abutment and prosthetic treatment can be predicted. And if additional fixture has to be implanted, direction pin can be reference the direction pin.

12. TIP

If the initial fixation of the torque is more than 20 Ncm, the healing abutments are intended for use following second-stage surgery, to promote soft-tissue recovery. By using 1.2 Hex Driver,Healing Abutment & Cover Screw can be closed by hand and turning anti clockwise it can be removed again If the initial fixation is under 20Ncm, the cover screw should be used and complete the suture.

(Ways of successful initial fixation)

If implant final insertion torque is 45 NCM, turn inversely 1~2 wheel and then continue the insertion until 35~40 NCM which will gain the initial fixation. Warning - If the 2/3 insertion of the fixture show over 45 NCM torque during the process, reverse the insertion and take out the fixture. After taking out the fixture, drill one step deeper or wider or try tapping and process the insertion of the fixture. - Not only excessive insertion torque can be the cause of surgical failure, also it can be compulsive to the implant hex. In other cases, if the implant driver and fixture itself does not combine completely, this can cause damages to the hex.

Hex driver - 2 sizes of Hex Driver which can be used. - 0.9mm hex driver with cover screw - 1.2mm hex driver with healing abutment


Surgical kit Go to Index

IT Fixture Surgical Guide 1. Incision

Make a full-thickness crestal incision and use a peristeal elevator to expose the alveolar ridge.

Surgical kit 4. Depth Gauge

2. Guide Drill

Optimal implant location is selected using the guide drill. The drilling depth using guide drill should not be over the apex line(2~3mm) of the guide drill. Speed : 1,200 ~ 1,500rpm

5. Parallel Pin

3.

2.0 Initial Drill

Use the 2.0mm drill mounted a stopper to create a pilot hole of appropriate depth. Check the bone density during the drilling with your technical sense. Pumping action is recommended while drilling. If the fixture needs deeper hole or to control the depth, we recommend using 1 step shorter stopper to over drilling. Speed : 1,200rpm

6. Twist Surgical Drill

76

2.9

3.3 / 3.5 / 3.8

Narrow

Regular

4.1 /

4.3

Wide

After drilling 2.0 straight drill, check the drilling depth using depth gauge. The laser marking represents drilling depth from 7.0, 8.5, 10.0, 11.5, and 13.0 mm from the bottom of depth gauge.

Use the parallel pin to determine the appropriate alignment with adjacent teeth, opposing occlusion of other implants.

After attached an appropriate stopper to the tapper drill, make a drill hole. Select an appropriate drill type depending on the bone density.

D1: Use hard bone drill(H)

D2~D3: Use soft bone drill(S)

D4 : Drill one step shorter than implant size.(Under drill)

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill 3.5 drill Wide(5.0) Implant : Regular(4.5) 4.3 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill Wide(5.0) Implant : Regular(4.5) 4.1 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Wide(5.0) Implant : Regular(4.5) 3.5 drill Narrow(3.5) Implant : Guide drill

Regular(4.0) Implant : Narrow(3.5)

Speed : 800rpm


Surgical kit Go to Index 7. Surgical Tap

When the bone density is D1 or D2, the prepared site can be tapped with a tap drill. After mounting contra angle connector to the tap drill, complete tapping at the speed of 25 rpm and full length. When the bone density is D3 or D4, make a under tapping to increase the fixation strength. If immediate loading is required, downsize to s drill and then proceed tapping.

8. Insertion

Connect IT contra angle-fixture driver and process the insertion by 25~30rpm. On the final tightening process, do not forget to torque in manual ratchet. Fixture insertion Is only up to outer surface.

9. Direction Pin

After combining the direction pin to the fixture insertion, relation with opposite arch and choose of abutment and prosthetic treatment can be predicted. And if additional fixture has to be implanted, direction pin can be reference the direction pin.

Surgical kit

10. Healing Abutment / Cover Screw & Suture

77

If the initial fixation of the torque is more than 20 Ncm, the healing abutments are intended for use following second-stage surgery, to promote soft-tissue recovery. By using 1.2 Hex Driver,Healing Abutment & Cover Screw can be closed by hand and turning anti clockwise it can be removed again If the initial fixation is under 20Ncm, the cover screw should be used and complete the suture.

11. TIP

(Ways of successful initial fixation)

If implant final insertion torque is 45 NCM, turn inversely 1~2 wheel and then continue the insertion until 35~40 NCM which will gain the initial fixation. Warning - If the 2/3 insertion of the fixture show over 45 NCM torque during the process, reverse the insertion and take out the fixture. After taking out the fixture, drill one step deeper or wider or try tapping and process the insertion of the fixture. - Not only excessive insertion torque can be the cause of surgical failure, also it can be compulsive to the implant Octa. In other cases, if the implant driver and fixture itself does not combine completely, this can cause damages to the Octa.

Hex driver - 2 sizes of Hex Driver which can be used. - 0.9mm hex driver with cover screw - 1.2mm hex driver with healing abutment


Surgical kit Go to Index

IS Fixture Surgical Guide 1. Incision

Make a full-thickness crestal incision and use a peristeal elevator to expose the alveolar ridge.

Surgical kit 4. Depth Gauge

2. Guide Drill

Optimal implant location is selected using the guide drill. The drilling depth using guide drill should not be over the apex line(2~3mm) of the guide drill. Speed : 1,200 ~ 1,500rpm

5. Parallel Pin

3.

2.0 Initial Drill

Use the 2.0mm drill mounted a stopper to create a pilot hole of appropriate depth. Check the bone density during the drilling with your technical sense. Pumping action is recommended while drilling. If the fixture needs deeper hole or to control the depth, we recommend using 1 step shorter stopper to over drilling. Speed : 1,200rpm

6. Twist Surgical Drill

78

2.9

3.3 / 3.5 / 3.8

Narrow

Regular

4.1 /

4.3

Wide

After drilling 2.0 straight drill, check the drilling depth using depth gauge. The laser marking represents drilling depth from 7.0, 8.5, 10.0, 11.5, and 13.0 mm from the bottom of depth gauge.

Use the parallel pin to determine the appropriate alignment with adjacent teeth, opposing occlusion of other implants.

After attached an appropriate stopper to the tapper drill, make a drill hole. Select an appropriate drill type depending on the bone density.

D1: Use hard bone drill(H)

D2~D3: Use soft bone drill(S)

D4 : Drill one step shorter than implant size.(Under drill)

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill 3.5 drill Regular(4.5) Implant : Regular(4.0) 3.8 drill 4.1 drill Wide(5.0) Implant : Regular(4.5) 4.3 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill Regular(4.5) Implant : Regular(4.0) 3.8 drill Wide(5.0) Implant : Regular(4.5) 4.1 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Regular(4.5) Implant : Regular(4.0) 3.3 drill Wide(5.0) Implant : Regular(4.5) 3.5 drill Narrow(3.5) Implant : Guide drill

Regular(4.0) Implant : Narrow(3.5)

Speed : 800rpm


Surgical kit Go to Index 7. Countersink

If the bone is D-1 or D-2, use Countersink drill for IS Implant and if the bone is D-2 or D-3 we do not recommend to use Countersink drill. In each Narrow, regular and wide fixture have their own Countersink, which has the marking at the drill. Speed : 1,200 ~ 1,500rpm

When the bone density is D1 or D2, the prepared site can be tapped with a tap drill. After mounting contra angle connector to the tap drill, complete tapping at the speed of 25 rpm and full length. When the bone density is D3 or D4, make a under tapping to increase the fixation strength. If immediate loading is required, downsize to s drill and then proceed tapping.

9. Insertion

Connect IS contra angle-fixture driver and process the insertion by 25~30rpm. On the final tightening process, do not forget to torque in ,manual ratchet. In order to have good fixation, insert the fixture to the head or 1mm more deeper from the head.

11. Healing Abutment & Cover Screw & Suture

Surgical kit

10. Direction Pin

8. Surgical Tap

79

After combining the direction pin to the fixture insertion, relation with opposite arch and choose of abutment and prosthetic treatment can be predicted. And if additional fixture has to be implanted, direction pin can be reference the direction pin.

12. TIP

If the initial fixation of the torque is more than 20 Ncm, the healing abutments are intended for use following second-stage surgery, to promote soft-tissue recovery. By using 1.2 Hex Driver,Healing Abutment & Cover Screw can be closed by hand and turning anti clockwise it can be removed again If the initial fixation is under 20Ncm, the cover screw should be used and complete the suture.

(Ways of successful initial fixation)

If implant final insertion torque is 45 NCM, turn inversely 1~2 wheel and then continue the insertion until 35~40 NCM which will gain the initial fixation. Warning - If the 2/3 insertion of the fixture show over 45 NCM torque during the process, reverse the insertion and take out the fixture. After taking out the fixture, drill one step deeper or wider or try tapping and process the insertion of the fixture. - Not only excessive insertion torque can be the cause of surgical failure, also it can be compulsive to the implant hex. In other cases, if the implant driver and fixture itself does not combine completely, this can cause damages to the hex.

Hex driver - 2 sizes of Hex Driver which can be used. - 0.9mm hex driver with cover screw - 1.2mm hex driver with healing abutment


Surgical kit Go to Index

IS II Fixture Surgical Guide 1. Incision

Make a full-thickness crestal incision and use a peristeal elevator to expose the alveolar ridge.

Surgical kit 4. Depth Gauge

2. Guide Drill

Optimal implant location is selected using the guide drill. The drilling depth using guide drill should not be over the apex line(2~3mm) of the guide drill. Speed : 1,200 ~ 1,500rpm

5. Parallel Pin

3.

2.0 Initial Drill

Use the 2.0mm drill mounted a stopper to create a pilot hole of appropriate depth. Check the bone density during the drilling with your technical sense. Pumping action is recommended while drilling. If the fixture needs deeper hole or to control the depth, we recommend using 1 step shorter stopper to over drilling. Speed : 1,200rpm

6. Twist Surgical Drill

80

2.9

3.3 / 3.5 / 3.8

Narrow

Regular

4.1 /

4.3 / 4.5

Wide

After drilling 2.0 straight drill, check the drilling depth using depth gauge. The laser marking represents drilling depth from 7.0, 8.5, 10.0, 11.5, and 13.0 mm from the bottom of depth gauge.

Use the parallel pin to determine the appropriate alignment with adjacent teeth, opposing occlusion of other implants.

After attached an appropriate stopper to the tapper drill, make a drill hole. Select an appropriate drill type depending on the bone density.

D1: Use hard bone drill(H)

D2~D3: Use soft bone drill(S)

D4 : Drill one step shorter than implant size.(Under drill)

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill 3.5 drill Regular(4.5) Implant : Regular(4.0) 3.8 drill 4.1 drill Wide(5.0) Implant : Regular(4.5) 4.3 drill 4.5 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Regular(4.0) Implant : Narrow(3.5) 3.3 drill Regular(4.5) Implant : Regular(4.0) 3.8 drill Wide(5.0) Implant : Regular(4.5) 4.1 drill 4.3 drill Narrow(3.5) Implant : Guide drill

2.0 drill 2.9 drill Regular(4.5) Implant : Regular(4.0) 3.3 drill Wide(5.0) Implant : Regular(4.5) 3.5 drill 4.1 drill Narrow(3.5) Implant : Guide drill

Regular(4.0) Implant : Narrow(3.5)

Speed : 800rpm


Surgical kit Go to Index 7. Countersink

If the bone is D-1 or D-2, use Countersink drill for IS Implant and if the bone is D-2 or D-3 we do not recommend to use Countersink drill. In each Narrow, regular and wide fixture have their own Countersink, which has the marking at the drill. Speed : 1,200 ~ 1,500rpm

When the bone density is D1 or D2, the prepared site can be tapped with a tap drill. After mounting contra angle connector to the tap drill, complete tapping at the speed of 25 rpm and full length. When the bone density is D3 or D4, make a under tapping to increase the fixation strength. If immediate loading is required, downsize to s drill and then proceed tapping.

9. Insertion

Connect IS contra angle-fixture driver and process the insertion by 25~30rpm. On the final tightening process, do not forget to torque in ,manual ratchet. In order to have good fixation, insert the fixture to the head or 1mm more deeper from the head.

11. Healing Abutment & Cover Screw & Suture

Surgical kit

10. Direction Pin

8. Surgical Tap

81

After combining the direction pin to the fixture insertion, relation with opposite arch and choose of abutment and prosthetic treatment can be predicted. And if additional fixture has to be implanted, direction pin can be reference the direction pin.

12. TIP

If the initial fixation of the torque is more than 20 Ncm, the healing abutments are intended for use following second-stage surgery, to promote soft-tissue recovery. By using 1.2 Hex Driver,Healing Abutment & Cover Screw can be closed by hand and turning anti clockwise it can be removed again If the initial fixation is under 20Ncm, the cover screw should be used and complete the suture.

(Ways of successful initial fixation)

If implant final insertion torque is 45 NCM, turn inversely 1~2 wheel and then continue the insertion until 35~40 NCM which will gain the initial fixation. Warning - If the 2/3 insertion of the fixture show over 45 NCM torque during the process, reverse the insertion and take out the fixture. After taking out the fixture, drill one step deeper or wider or try tapping and process the insertion of the fixture. - Not only excessive insertion torque can be the cause of surgical failure, also it can be compulsive to the implant hex. In other cases, if the implant driver and fixture itself does not combine completely, this can cause damages to the hex.

Hex driver - 2 sizes of Hex Driver which can be used. - 0.9mm hex driver with cover screw - 1.2mm hex driver with healing abutment


All-In-One Surgical kit Go to Index

All-In-One Surgical Kit Composition

Drill Extention

Surgical Tap

Countersink

Fixture Driver

Guide Drill / Initial Drill/ Twist Surgical Drill

Multi Profile

Stopper

Surgical kit 82

Parallel Pin

Hex Driver

Connector

Fixture Direction Pin


All-In-One Surgical kit Go to Index

All-In-One Surgical Kit Components 1. Guide Drill A drill, which can point the exact place for the implantation effectively. Product Name GD 20

2. Initial Drill Straight drill that is used initially and can detect the bone density of each depth. Diameter( )

Product Name

2.0

TSD 20

Surgical kit

3. Twist Surgical Drill Laser marking is exists in each size and a stopper can be attached. Even though diameter increases, rooting or sparking merely exists. Exact depth control is possible. It is the final drill that can be used safely at any time.

83

Diameter( )

Product Name

2.9

TSD 29 TSD 33 TSD 35 TSD 38 TSD 41 TSD 43 TSD 45 (IS II Wide)

3.3 3.5 3.8 4.1 4.3 4.5

4. EB/IT Multi Profile Countersink drill can be used as an option (by the density of cortical bone). Narrow, regular, wide can be adjusted by one drill. Diameter( )

Product Name

3.7 4.3 4.8 5.3

MP 00


All-In-One Surgical kit Go to Index

All-In-One Surgical Kit Components

5. IS Countersink - IS countersink can be used for the marginal bone depending on the cortical bone density (in case of bone density D1 and D2). It is equipped with four different sizes in diameter (narrow, regular, wide). - Marking line stands for maximum depth. - If alveolar osteopathic is D1-D2, make sure to do full countersink drilling to prevent excessive torque. Narrow

Regular

Wide

Diameter( )

Product Name

4.1

ISCS 35

4.5

ISCS 40

4.8

ISCS 45

5.3

ISCS 50

6. Connector Surgical kit

The connectors are in two types; ratchet and contra angle. Type

Ratchet

84

Contra angle

Length(mm)

Product Name

5.0

RC 05

10.0

RC 10

15.0

RC 15

20.0

RC 20

25.0

RC 25 (Individual sale)

-

CAA 00

7. Surgical Tap Drill that is used when bone density is D1 or D2. When using this drill, use it after the final drill. Type

EB / IT / IS / IS II

Diameter( )

Product Name

3.5

ISTD 35

4.0

ISTD 40

4.5

ISTD 45

5.0

ISTD 50

5.0

BISTD 50 (IS II Wide)

8. Fixture Direction Pin A tool that is connected to the fixture to infer the location of the abutment and the implant direction after placing the mount-free implant fixture. Type

Product Name DPE 40

External

DPE 50 DPE 60

Internal

DPI 50 DPI 60


All-In-One Surgical kit Go to Index

All-In-One Surgical Kit Components

9. Stopper It can be attached to 2.0~4.3 drills. It is used for safe and precise drilling. Length(mm)

Product Name

3.0

DS 030

4.0

DS 040

5.0

DS 050

6.0

DS 060

7.0

DS 070

8.5

DS 085

10.0

DS 100

11.5

DS 115

13.0

DS 130

It can be used when extension of drill is required while drilling. Diameter( )

Product Name

4.0

DE 00

Surgical kit

10. Drill Extention

85

11. Fixture Driver Tool used when implanting fixture, instead of using fixture mount connected to the fixture. - It can be used as a rachet by connecting with rachet connector. Internal-Contra Angle(short) Type

IS

Size

Product Name

IS

Hex 2.5

ISFDH 25

IT

Octa 3.1

ITFDO 31

Type

Hex

Product Name

Narrow

2.4

EBFDH 24

Regular / Wide(3i)

2.7

EBFDH 27

Wide(Brenemark)

3.4

EBFDH 34

IT

External-Contra Angle(short)


All-In-One Surgical kit Go to Index

All-In-One Surgical Kit Components

12. Hex Driver Tool used when connecting or detaching screw and cover screw.

Length

Length(mm)

Hex

Product Name

10

1.2

HD 1210

15

0.9

HD 0915

1.2

HD 1215

13. Parallel Pin Surgical kit

After drilling with 2.0 drill, use the parallel pin to determine the appropriate alignment with adjacent teeth, opposing occlusion of other impants. Length(mm)

Product Name

8.5

PP 08 (Individual sale)

10.0

PP 10

11.5

PP 11 (Individual sale)

86

14. Depth Gauge Tool used to measure exact depth of the formed hole. Product Name

MG 00

15. Torque Ratchet Tool used to measure exact torque of the implant. Product Name TW 01


IS Mini kit Go to Index

IS Mini Kit Components

Initial Drill

Guide Drill

Hex Driver

Fixture Driver

Twist Surgical Drill

Surgical kit 87

Stopper

Surgical Tap

Countersink

Connector


IS Mini kit Go to Index

IS Mini Kit Components

1. Guide Drill Exact implant location can be established effectively. Product Name GD 20

2. Initial Drill Initial drill that can only drill up to the entire implant length that is straight and it can recognize the bone density by the depth. Diameter( )

Product Name

2.0

TSD 20

Surgical kit

3. Twist Surgical Drill Laser marking is exists in each size, and the stopper can be selected accordingly by a surgical case. Even though diameter increases, a circumstance of splashing or shutting itself up is merely exists. Exact depth control is possible to be used safely at any time. Diameter( )

Product Name

2.9

TSD 29 TSD 33 TSD 35 TSD 38 TSD 41 TSD 43 TSD 45 (IS II Wide)

88

3.3 3.5 3.8 4.1 4.3 4.5

4. IS Countersink - IS countersink can be used for the marginal bone depending on the cortical bone density (in case of bone density D1 and D2). It is equipped with four different sizes in diameter (narrow, regular, wide). - Marking line stands for maximum depth. - If alveolar osteopathic is D1-D2, make sure to do full countersink drilling to prevent excessive torque. Narrow

Regular

Wide Diameter( )

Product Name

4.1

ISCS 35

4.5

ISCS 40

4.8

ISCS 45

5.3

ISCS 50


IS Mini kit Go to Index

IS Mini Kit Components

5. Surgical Tap Drill that is used in case of density is D1 or D2. Use after the final drill is made. Diameter( )

Product Name

3.5

ISTD 35

4.0

ISTD 40

4.5

ISTD 45

5.0

ISTD 50

5.0

BISTD 50 (IS II Wide)

Can be equipped with two types of surgical tap: ratchet or contra angle. Type

Length(mm)

Ratchet

15.0

RC 15

Contra angle

-

CAA 00

Surgical kit

6. Connector

Product Name

89

7. Stopper Can be attached with drills that are in sizes from 2.0 to 4.3. Also, it is safe and used for precise drilling. Stopper is exists in sizes of 7.0, 8.5, 10, 11.5 13mm. Length(mm)

Product Name

7.0

DS 070

8.5

DS 085

10.0

DS 100

11.5

DS 115

13.0

DS 130


IS Mini kit Go to Index

IS Mini Kit Components

8. Fixture Driver Tool used for implanting, instead of connecting with the fixture. Type

Hex

Product Name

IS

2.5

ISFDH 25

Surgical kit

9. Hex Driver Tool used when connecting or detaching screw and cover screw. Length(mm)

Hex

Product Name

15

1.2

HD 1215

90

10. Torque Ratchet Tool used by connecting to the ratchet. Measure exact torque while implanting by connecting the torque ratchet to the fixture driver. Product Name TW 01


S-Wide kit Go to Index

S-Wide KIT Composition

S-Wide Twist Surgical Drill

Hex Driver S-Wide Surgical Tap

Surgical kit 91

S-Wide Stopper

Multi Profile Trephine Drill

Connector


S-Wide kit Go to Index

S-Wide KIT Components

1. S-Wide Twist Surgical Drill Laser marking is exists in each size, and the stopper can be selected accordingly by a surgical case. Even though diameter increases, a circumstance of splashing or shutting itself up is merely exists. Exact depth control is possible to be used safely at any time. Diameter( )

Product Name

4.8

TSD 48 TSD 50 TSD 55 TSD 60 TSD 65

5.0 5.5 6.0 6.5

2. S-Wide Multi Profile Surgical kit

Countersink for S-Wide EB/IS that is used as selected depending on the density of cortical bone activity. Diameter( )

Product Name

5.5

MP 55 MP 60 MP 70

6.0 7.0 92

3. Connector Can be equipped with two types of surgical tap: ratchet or contra angle. Type

Diameter( )

Product Name

Ratchet

15.0

RC 15

Contra angle

-

CAA 00

4. S-Wide Surgical Tap Drill that is used in case of bone density is D1 or D2. Use after the final drill is made. Diameter( )

Product Name

5.5

TD 55 TD 60 TD 70

6.0 7.0


S-Wide kit Go to Index

S-Wide KIT Components

5. S-Wide Drill Stopper It is safe and used for precise drilling by connecting to the drill. Stopper is exists in sizes of 6.0, 7.0, 8.5, 10, 11.5mm. Length(mm)

Product Name

6.0

DSL 060

7.0

DSL 070

8.5

DSL 085

10.0

DSL 100

11.5

DSL 115

Tool used when connecting or detaching screw and cover screw Length(mm)

Hex(mm)

Product Name

12.0

1.2

HD 1212

Length

Surgical kit

6. Hex Driver

93

7. Trephine Drill To place the S-Wide fixture, it can skip the steps from Guide drill to 4.3 drill to create a general hole. Also, it can be used in order to form an even hole prior to drilling for extraction. Diameter( )

Product Name

4.0/5.0

TB 40

5.0/6.0

TB 50


S-Mini kit Go to Index

S-Mini Kit Composition

S-Mini Twist Surgical Drill

S-Mini Guide Drill

Surgical kit 94

Connector

Fixture Driver

S-Mini

Surgical Tap


S-Mini kit Go to Index

S-Mini Kit Components

1. S-Mini Guide Drill A drill, which can point the exact place for the implantation effectively. Product Name MGD 12

2. S-Mini Twist Surgical Drill

Diameter( )

Product Name

Surgical kit

Laser marking is exists in each size and a stopper can be attached. Even though diameter increases, rooting or sparking merely exists. Exact depth control is possible. It is the final drill that can be used safely at any time.

1.5

MSD 15 MSD 20 MSD 25 MSD 30

95

2.0 2.5 3.0

3. S-Mini Surgical Tap Drill that is used when bone density is D1 or D2. When using this drill, use it after the final drill. Diameter( )

Product Name

2.5

MTD 25 MTD 30 MTD 35

3.0 3.5

3 taps exclude from the S-Mini Kit / Separately purchase if necessary


S-Mini kit Go to Index

S-Mini Kit Components

4. Connector Can be equipped with two types of surgical tap : ratchet or contra angle. Type Ratchet Contra angle

Ratchet

Contra angle

Length(mm)

Product Name

10.0

RC 10

15.0

RC 15

-

CAA 00

RC 10 exclude from the kit / Separately purchase if necessary

Surgical kit

5. Fixture Driver Tool used for implanting, instead of connecting with the fixture. 96

Cement

Ball

Type

Size

Product Name

Cement

Square 2.0

ISQD 20

Ball

Hex 2.4

BADH 24


Other Surgical & Prosthetic Components Go to Index

Other Surgical & Prosthetic Components

1. Impression Coping Positioner - Used to connect with EB, IT, IS system of transfer impression coping screw. - Take each coping body and screw as a positioner. The screw can be connected as relocating the hex by grabbing with one hand. Product Name FDHSET 01

Surgical kit

2. IT Solid Abutment Driver Match the straight line marked on the driver with the groove of solid abutment. After, connect the fixture by rotation. Length

Length(mm)

Product Name

12.0

ITAD 0L

3. IT Excellent Solid Abutment Driver Match the straight line marked on the driver with the groove of an excellent solid abutment. After, connect the fixture by rotation. Length

Length(mm)

Product Name

12.0

ITESD 00

97


Other Surgical & Prosthetic Components Go to Index

Other Surgical & Prosthetic Components 4. Bone Profiler After removing the screw, a tool is used to clean-up the bone around EB fixture before putting the prosthesis. Type

Diameter( )

Product Name

Narrow

4.9

BPN 40

Regular

5.6

BPR 50

Wide(3i)

6.1

BPI 60

Wide(Brenemark)

6.1

BPB 60

Diameter

5. Tissue Punch Tool used to cut the tissue neatly into a shape of circle. Product Name

4.5

TP 45 TP 55 TP 65

Surgical kit

Diameter( ) 5.5 6.5 Diameter

98

6. Linderman Drill Side cutting and path correction are possible as a function along with the function of Guide drill and initial drill. Diameter( )

Product Name

2.0

LD 20

7. Thread Former Tool used to save the screw shape in the damaged internal of fixture. Thread Spec.

Product Name

M1.6 x 0.35P

TF 16 TF 18 TF 20 TF 25

M1.8 x 0.35P M2.0 x 0.4P M2.5 x 0.45P


Other Surgical & Prosthetic Components Go to Index

Other Surgical & Prosthetic Components 8. Hex Driver Tool used for connecting and disconnecting the abutment screw with cover screw or healing abutment. Type

Hex

Length(mm)

Product Name

10.0

HD 0910

15.0

HD 0915

20.0

HD 0920

Length

0.9 Ratchet 1.2

0.9 Length

Contra Angle 1.2

7.0

HD 1207

10.0

HD 1210

15.0

HD 1215

20.0

HD 1220

15.0

HDC 0915

20.0

HDC 0920

15.0

HDC 1215

20.0

HDC 1220 Surgical kit

9. Abutment Positioner When fixing SCRP multi abutment to fixture, user have to use abutment positioned for exact position of hex and direction of prosthesis. 99

Type

Length 1 (mm)

Length 2 (mm)

Short

15.0

2.0

Long

20.0

7.0

Length 1

Abutment Positioner Hex Driver

Product Name AP 2015 (HDS 1215 + AP 202)

AP 2020 (HDS 1220 + AP 207)

Single Component Abutment Positioner Hex Driver Type

Length 2 Abutment Positioner Holder

Length(mm)

Product Name

Short

15.0

HDS 1215

Long

20.0

HDS 1220

Length(mm)

Product Name

Abutment Positioner Holder Type Short

2.0

AP 202

Medium

5.0

AP 205

Long

7.0

AP 207


Go to Index

Other Surgical & Prosthetic Components 10. Auto Chip Maker Drill is for the purpose of bone collect. Use together with stopper. One set composes the drill and stopper. Type Length

Diameter

Length

Surgical kit 100

Diameter

Diameter( )

Length(mm)

Auto chip maker

5.0

32.7

Stopper

7.5

17.7

Auto chip maker

6.0

32.7

Stopper

8.5

17.7

Auto chip maker

7.0

32.7

Stopper

9.5

17.7

Auto chip maker

8.0

32.7

Stopper

10.5

17.7

Auto chip maker

5.0

35.7

Stopper

7.5

20.7

Auto chip maker

6.0

35.7

Stopper

8.5

20.7

Auto chip maker

7.0

35.7

Stopper

9.5

20.7

Auto chip maker

8.0

35.7

Stopper

10.5

20.7

Product Name

ACM 50SETS ACM 60SETS ACM 70SETS ACM 80SETS ACM 50SETL ACM 60SETL ACM 70SETL ACM 80SETL


Contents

SCA SCA

KIT KIT

Introduction

102

Composition

103

Components

104

User Guide

110

Case Reports

112


SCA(Sinus Crestal Approach) kit Go to Index

Introduction SCA is a drilling tool on the inferior cortical bone without tearing fhe membrane and make a perforation on the inferior cortical bone without malleting osteotome technique. Therefore User can get CMI fixation (Initial fixation in Crestal cortical bone, Middle cancellous bone and Inferior cortical bone)

Misaligned

SCA kit Septum 102

3S of SCA KIT Speedy

It can provide fast drilling procedure typically operated at 800~1,200RPM

Safer

The operation is simple and much comfortable process for patient and dentist.

Simpler

Using general drilling method


SCA(Sinus Crestal Approach) kit Go to Index

SCA KIT Composition

Spiral Bone Inserter

Stopper

S-reamer

Initial Drill

SCA kit 103

Depth Gauge

Bone Spreader

Bone Carrier

Bone Condenser


SCA(Sinus Crestal Approach) kit Go to Index

SCA KIT Components 1. Initial Drill Drill for creating guide hole upon designating the precise point before using S-reamer. Diameter( )

Product Name

2.0

SSD 20

SPEED : 1,200RPM Diameter

2. S-reamer SCA kit

Diameter( )

Product Name

2.4

ICR 24 ICR 28 ICR 32 ICR 36

2.8 3.2 3.6 Diameter

SPEED : 1,200RPM

104

The reamer does not hurt the membrane because during drilling, the bone chip filled the reamer space so it makes more wide and safe side.

1. S-reamer is the main instrument of SCA kit that creates desired size hole on the sinus inferior cortical wall without damaging Schneiderian membrane.

2. Even if reamer touched sinus membrane, membrane doesn't tear and perforate and S-reamer can be applicable to even in the misaligned septum cases * S-reamer filled with bone chip and bone chip makes smooth surface.


SCA(Sinus Crestal Approach) kit Go to Index

SCA KIT Components

3. S-Reamer is named after 'S' shaped blade design and drill for sinus elevation.

4. S-reamer provide high speed drilling at 800~1,200rpm there it can remove the bone effectively.

5. Bone chip makes flat blade surface and S-reamer doesn't tear sinus membrane Furthermore It is very safe in case of misaligned and septum case

6. User can safely perforate the inferior cortical bone with Stopper

7. S-reamer's diameter is

2.4,

2.8,

3.2,

3.6. Choice of diameter is very important to CMI

fixation So, user have to choose diameter carefully.

SCA kit

Choice of S-reamer's diameter is very important for gaining 'I' fixation.

S-reamer Diameter Selection (Based on implant insertion depth in sinus) Neo CMI Implant Regular fixture 1mm~3mm insertion:

2.4mm

More than 4mm insertion:

2.8mm

Neo CMI Implant Wide fixture 1mm~3mm insertion:

3.2mm

More than 4mm insertion:

3.6mm

S-reamer must be chosen right diameter because it is very related with Neo CMI Implant diameter

(Misaligned case)

(Septum case)

105


SCA(Sinus Crestal Approach) kit Go to Index

SCA KIT Components

CMI Fixation CMI Fixation is a new implantation technique which is presented by Dr. Young Ku, Heo. It is for effective initial fixation at mixed bone's each part such as hard-soft bone and an abbreviation for Crest cortical, Middle cancellous and Inferior cortical fixation; especially it is an important concept for effective fixation at Middle cancellous bone and Inferior cortical bone.

C Fixation : ”C” fixation is method which removes enough Crest cortical bone and then makes a final implantation; the fixture can be fixed passively without over-compression. M Fixation : ”M” fixation is method which is clean and best getting the best fixation from soft bone.

I Fixation : ”I” fixation is method of gaining strong fixation inner sinus inferior cortical wall by making a small hole SCA kit 106

1

2

3

3. Stopper The stopper is composed of 10pieces, 2mm~11mm. Each 1mm steps make the S-reamer stop to insert maximum 1mm in sinus. To prevent membrane rupture by physical pressure.

(Image 1)

Length(mm)

Product Name

2.0 ~ 11.0

SKS 02 ~ SKS 11


SCA(Sinus Crestal Approach) kit Go to Index

SCA KIT Components

Stopper is compatibility with S-reamer, bone spread and bone condenser. When bone spreading or condensing, User have to use it for prevention of the membrane tearing The written length is not length of stopper body but depth of drilling.

11mm

2mm Stopper

11mm Stopper (Image 2)

SCA kit

4. Depth Gauge

107

Depth gauge is an instrument for measuring the depth of the remaining bone after perforating with S-reamer.The end of depth gauge is plat, so it can be hung sinus wall inside and measure the depth.

Product Name

SDG 00

Insert and drag the depth guage along the wall carefully


SCA(Sinus Crestal Approach) kit Go to Index

SCA KIT Components

5. Bone Carrier

Product Name

Jumbo

1. Bone carrier is used to carry the bone grafting materials into osteotome site. 2. One time insertion 0.05CC

SCA kit

6. Bone Condenser 108

Diameter( )

Product Name

1.0 / 2.2

SBC 01

Diameter

1.Bone condenser is used to keep the graft materials in place on the floor of the sinus through the osteotome site. 2. The appropriate size of stopper mounted on the bone condenser should be selected same as the residual bone height. 3. When inserting hard or big particle bone, user would be better to use small diameter bone condenser.


SCA(Sinus Crestal Approach) kit Go to Index

SCA KIT Components

7. Spiral Bone Inserter Spiral Bone Inserter is an instrument which is for bone graft to push the bone into sinus after inserting the bone into a hole with bone carrier. Bone inserter can be safely used without any damages at membrane after combination with 1mm long Stopper

Product Name

SBI 27

SPEED : 80RPM

SCA kit

8. Bone Spreader The bone inserted in the sinus floor can be spread out to a lateral direction (left and right side) by this tool thereafter the sinus membrane at the inferior aspect of the osteotomy its naturally detached from the floor of the maxillary sinus and elevated upward to create more space in the floor of the sinus for the bone-graft material. The minimum 0.3 cc amounts of (height 3mm) bone grafting material are recommended to be inserted into the space before use the bone spreader in sinus and then mount the same size stopper in length as residual bone height. Whenever insert the bone grafting material, 0.2~0.3cc, change the 1mm larger size stopper continuously. Diameter( )

Product Name

2.7

SBS 20 SBS 30

3.1 Diameter

SPEED : 80RPM

109


SCA(Sinus Crestal Approach) kit Go to Index

User Guide

1. Get an accurate X-ray image of the posterior maxillary region to assess the residual bone height.

2. Drill 1mm shorter than the length of checking residual bone height and drill step by step. Final diameter of drilling is determined by considering bone density in order to get "M(Middle cancellous bone)" fixation.

3. For safety use initial drill using 1mm longer stopper to set closer to inferior cortical bone.

4. Select S-reamer diameter considering the fixture diameter and insertion depth in sinus. Diameter Selection (Based on implant insertion depth in sinus) Neo CMI Implant Regular fixture 1mm~3mm insertion:

2.4mm

More than 4mm insertion:

2.8mm

Neo CMI Implant Wide fixture 1mm~3mm insertion:

3.2mm

More than 4mm insertion:

3.6mm

SCA kit

5. If the sinus inferior cortical wall does not perforate until the stopper reaches to the crestal bone, change 1mm longer size stopper and drilling continuously.

6. You can feel perforating in inferior cortical wall and then measure the residual bone height with depth 110

gauge. When you hang on the end of depth gauge in sinus wall inside, you can check the detailed residual bone height. (Caution: Do not insert the depth gauge maximum 1mm in sinus.)

7. When the inferior wall is perforated, close the patient s nose and then make them blow out to check the membrane status. The soft bone (such as DFDBA bone) should be inserted first. If a lot of bone insertion is required, you may use the hard bone as well as the soft bone.

8. Insert the bone with bone carrier and stopper mounted bone condenser.

9. Insert the bone volume based on membrane elevation height. if you want to elevate the Membrane about 1mm, you may need 0.1cc volume of bone grafting material. However, if Depends on how effectively you can transfer the graft to the osteotomy.

10. To elevate the membrane more laterally, after inserting at least 0.3cc volume of bone, start the bone spreading with stopper mounted bone spreader. Narrow one is for 2.4 x 2.8mm S-reamers and wide one is for 3.2 x 3.6mm S-reamers.


SCA(Sinus Crestal Approach) kit Go to Index

User Guide

11. Spread out the bone with stopper at every 0.2cc ~ 0.3cc volume of bone insertion. It is not necessary to increase the stopper size even if additional bone is inserted.

12. When finish the insertion the bone in sinus, you can refresh the hole with a larger diameter drill.

13. Based on the crest cortical bone density, the countersink could be needed depending on the patient s the crest cortical bone density (except IT type) The counter sink should be used for the D1 and D2 bone.

14. Finally, place the fixture at the prepared hole.

SCA kit 111


SCA(Sinus Crestal Approach) kit Go to Index

Case Reports

Case 1. (CMI Fixation without Bone Graft)

2. Drill 1mm shorter than residual bone height. (Flapless surgery case)

3. For the 5mm wide body fixture, it is recommended to expand the hole by up to 3.8mm drill for D3 bone density.

4. As the residual bone height was 9.0mm, the 9.0mm stopper was required to mount on S-reamer. Considered the fixture diameter 5.0 x 10mm and selected 3.2mm S-reamer to make a hole with 9.0mm stopper.

5. Drilling with 9.0mm stopper

6. The inferior cortical bone was perforated with 11.0mm stopper. Even in case of the misreading of X-ray image, the stoppers provide you the safe surgery if you use the sinus approach step by step.

SCA kit

1. According to X-ray image, the residual bone height was 9.0mm on #16 and 17, the 5.0 in diameter x 10mm in length fixture will be placed.

112


SCA(Sinus Crestal Approach) kit Go to Index

Case Reports

7. For implant placement, perform the final drilling. To obtain ideal initial fixation, use the 1.5mm longer length fixture as the residual bone height is 11mm. ( 5.0 x 11.5mm.)

8. The fixture was placed without bone grafting.

SCA kit 113

9. Even the bone density was D3, D4, Neo CMI Implant fixture was obtained the idea initial fixation with 40Ncm torque.

10. After obtaining the ideal fixation, connect a healing abutment on fixture.

11. With wide implant and ideal initial fixation, anytime loading can be performed.

12. The prosthetic was completed 2 weeks later. This demonstration shows that the misreading of X-ray can be covered by 1mm difference of 12pcs stoppers with S-reamers.


SCA(Sinus Crestal Approach) kit Go to Index

Case Reports

Case 2. (Crestally Bone Added CMI Fixation Case)

2. Drill 1mm shorter than residual bone height until 3.8mm drill in diameter.

3. Mount 1mm longer stopper than the drilling length in step 2 on the 3.6mm S-reamer.

4. If the inferior cortical wall does not perforate until stopper reaches to crestal bone, drill again using the 1mm longer stopper mounted in S-reamer.

5. Use the drilling speed at 800~1,200rpm with copious irrigation. Stopper provides you the safe operation. It is possible to feel perforation while drilling. Drill comfortably with perpendicularity pressure.

6. Each of them were perforated at 9mm and 7mm. To confirm membrane of cortical wall, residual bone must be checked by depth gauge carefully and exactly. Do not feel membrane with Depth gauge.

SCA kit

1. The residual bone height of #26 and 27 were estimated as 8.2mm and 6.4mm respectively. It was required the membrane to lift up about 4~6mm and to place 5.0 x 11.5mm in length implant(wide body).

114


SCA(Sinus Crestal Approach) kit Go to Index

Case Reports

7. As the sinus membrane is lifted up about 4 to 6mm to an apical direction, the fixture specification is 5.0 in diameter x 11.5mm in length. Make sure to use the correct bone volume and lift up the appropriate membrane height as planned.

8. Insert the bone material till height you want continually.

SCA kit 115

9. After inserting the suitable bone, insert the bone in the sinus with the bone condenser which combined with stopper.

11. Recommend to use the bone spread with stopper in order to spread the inserted bone laterally atevery 0.2 ~ 0.3cc bone packing.

10. Pack the bone in sinus with stopper mounted on bone condenser. The stopper size should be same as the residual bone height.

12. More than 3mm membrane elevation is required at first bone spread using. At every 0.2cc ~ 0.3cc bone insertion, required to spread the bone in sinus.


SCA(Sinus Crestal Approach) kit Go to Index

Case Reports

14. Implant insertion : Use the suitable S-reamer and place Neo CMI Implant fixture to obtain the initial fixation and self-compaction on D4.

15. Place a 5.0 x 11.5mm Neo CMI Implant Implant to obtain the initial fixation and self-compaction on D4 bone.

16. Point of view on mouth and radiation (X-Ray) after rebuilding prosthetic dentistry.

SCA kit

13. If the crest cortical bone density is the D2 level, the countersink is needed. Even though the hole was drilled smaller than expectation, it is possible to countersink as this drill is pointed.

116

17. The image of completed prosthetic dentistry.


Contents

SLA SLA

Introduction

118

KIT

Composition

120

KIT

Components

121

User Guide

124

Case Reports

126


SLA(Sinus Lateral Approach) kit Go to Index

Introduction

Lateral window technique is the formation of the access to the maxillary sinus through its lateral wall. The process using this tool is simpler and much comfortable than any other techniques. Above all, this surgical kit provides ultimate solutions for the cases of only having with a thin residual bone height which is difficult to approach with a crestal technique, membrane rupture by a sinus crestal approach or placing a multiple implants. In addition, Sla reamers can be easily adapted for the case of formation of minimum flap size on the inferior wall.

SLA kit 118

SLA Kit has 3S advantages! Speedy

Using SLA, we can make

4~6 hole at once.

Safer

There is little possibility of tearing membrane by mistake.

Simpler

It is a very simple tool for everyone to operate on lateral wall.


SLA(Sinus Lateral Approach) kit Go to Index

Introduction

SLA technique resolves seven burdens of the existing sinus lateral approach.

1. Burden in having to extensively open flap SLA-KIT allows surgical operation through small opening of flap.

2. Fear of forming a very large window A safe approach is possible without forming big window.

3. Burden of having to use straight handpiece and round bur There is no burden of having to use straight handpiece or round-bur and minimizes membrane

4. Fear of artery bleeding when forming window

SLA kit

damage while forming window.

It's safe as surgical operation can be performed while observing whether or not there is an artery.

5. Fear of tearing membrane when forming window Minimized the risk of membrane damage through the forming of special blade of reamer.

6. Concern for swelling and pain from extensive surgery Swelling and pain drastically reduces through the minimization of operational time and scope.

7. Lack of confidence in membrane elevation The self-developed three types of elevator safely and effectively life membrane.

SLA kit is a product that's been developed to resolve these burdens.

119


SLA(Sinus Lateral Approach) kit Go to Index

SLA KIT Composition

C-reamer

Elevator

SLA kit 120

C-guide

LS-reamer


SLA(Sinus Lateral Approach) kit Go to Index

SLA KIT Components

1. LS-reamer LS-Reamer is a kind of drill which approach lateral wall. It makes thin bone disk between reamer and sinus membrane. There are 6 types as shown in the table below.

Length(mm) Length

2.0

Diameter

3.5

Diameter( )

Product Name

4.5

SLS 420L

5.5

SLS 520L

6.5

SLS 620L

4.5

SLS 435L

5.5

SLS 535L

6.5

SLS 635L

2,000RPM with 20:1 contra angle

SLA kit

SPEED : 5,000RPM with 1:1 contra angle

121

LS-Reamer's Merits & Features 1. It is very safe, because the tapered trunk of LS-reamer is designed to control the drilling depth without stopper.

2. The LS-reamer mounted on a handpiece can be operated with high speed at 2,000 ~ 5,000 rpm under the sufficient irrigation.

3. It protects sinus membrane, because LS-Reamer makes thin bone disk between reamer and sinus membrane.

4. The reamer filled with bone chip protects the membrane from tearing.

5. It provides the safe surgery because it is able to check an artery or septum etc. during the drilling through the lateral hole.


SLA(Sinus Lateral Approach) kit Go to Index

SLA KIT Components 2. C-guide & C-reamer C-guide It is a guide drill to make a position to use C-reamer. Diameter( )

Product Name

5.5

SCG 510L

6.5

SCG 610L

SPEED : 5,000RPM with 1:1 contra angle

Diameter

2,000RPM with 20:1 contra angle

C-reamer The hollow spaced and tapered C-reamer can save the circular bone core disk from the lateral wall and to limit any abrup movement of the reamer to forward SLA kit

direction, respectively. It is designed to provide a safe, speedy recovery, fast surgery and quick bone formation in the lateral hole. Length(mm) Length

1.5

Diameter 122

3.0

Diameter( )

Product Name

5.5

SLC 515L

6.5

SLC 615L

5.5

SLC 530L

6.5

SLC 630L

SPEED : 5,000RPM with 1:1 contra angle

2,000RPM with 20:1 contra angle

C-Reamer's Merits & Features

1. The bone core disk can be saved after drilling being used as the window cover before suturing.

2. With the tapered trunk of the C-reamer, the drilling depth can be controlled without using stopper.

3. The C-reamer cutting edges are positioned on the head and side of the C-reamer. therefore, it provides the high drilling efficiency. Typically, C-reamer can be operated a speed at 2,000 rpm. It is recommended that the bone core disk should be removed using elevators not to be excessively stuck to the C-reamer hollow space.

4. The four holes formed on the side of C-reamer are to provide irrigation line not to overheat during the drilling process.


SLA(Sinus Lateral Approach) kit Go to Index

SLA KIT Components

3. Sinus Membrane Elevator The three elevators provided are designed to obtain a best angle and length for membrane elevation in buccal. These tools are used one after another in number.

The elevator #1 is designed as the initial membrane elevation of mesial and distal, after making a lateral

SLA kit

1. Elevator 1

hole.

123

2. Elevator 2 The elevator #2 has two functions. At the one end, the “L� shape is used to detach the sinus membrane from a lower part of lateral wall. At the other end, another shape is used to elevate the sinus membrane from sinus floor, medial wall and posterior wall.

3. Elevator 3 This is designed to detach the membrane from the remaining part and deep site in sinus.

Product Name SLE 01

SLE 02

SLE 03


SLA(Sinus Lateral Approach) kit Go to Index

SLA KIT Components Simultaneous applications with LS-reamer and C-reamer As the LS & C-reamer was designed for maximum 3.5mm drilling depth of the lateral wall, the required drilling depth may have been thicker than the reamer's length. In this case, it is required to remove a 2 ~ 3mm thickness bone core disk with C-reamer with

6.5 in diameter 3.0mm in length, first. After removing

the bone core disk by the chisel or periosteal elevator, then LS-reamer with

4.5 in diameter can be used

to make a lateral hole to all the way to the sinus.

SLA kit

User Guide 1. Radiography : Get an accurate X-ray image of the residual bone height of the maxillary posterior area. It is necessary to get a CT image to obtain the detailed structure, artery status, and lateral wall

124

thickness.

2. Choice of SLA : The SLA Kit is easily adapted to the cases of only 1 ~ 4mm of residual bone height, membrane tearing by the crestal approach, convex sinus floor or a number of implants placement.

3. Flap formation : It is often required to make only limited size of the lateral flap and vertical incision without forming a large flap. When approach the flapless surgery, a semilunar incision is good enough to form a lateral hole.

4. Choice of LS-Reamer : The LS-reamer can be used when it is required to care for the artery bleeding, septum existence on the drilling path or to make a lateral hole in the overlapped region of inferior cortical wall and cancellous bone layer. After bone grafting, the additional membrane may be needed to cover the hole.

5. Choice of C-reamer : The C-reamer's main purpose is to get the bone core disk from the lateral wall and to use as a cover of the lateral hole. If the bone core disk is not needed, you may select the LS-reamer to drill on the lateral wall.


SLA(Sinus Lateral Approach) kit Go to Index

User Guide 6. Position of Lateral hole : A formation of lateral hole is preferred to be positioned on the most anterior and inferior site as possible to prevent the membrane tearing and to elevate the membrane effectively. If there is no possibility to reduce the residual bone strength caused by drilling, it is recommended to make a lateral hole on the spot containing about 1mm inferior cortical wall.

7. Rotation Speed : To take an initial drilling position on the lateral wall, the drilling speed with 5,000 ~ 10,000rpm is required by the 1:1 contra-angle. If the reamer is mounted on 20:1 contra angle, drilling should be performed with a firm grip and vertical force on a handpiece to get a good stability.

8. Hole formation with LS reamer : The LS-reamer is requested to drill until the lateral wall is completely perforated. At this moment, the remaining thin bone layer, called Residual Bone Shield, will be formed, which may prevent the membrane tearing. When the artery appears

another lateral hole.

SLA kit

during drilling in sinus, the other lateral approach at the lower site is recommended to make

9. Hole formation with LS reamer : The C-reamer is designed to be safe when it is in contact with sinus membrane. However, since C-reamer has the blade on the head of the reamer, it is relatively less safe than the LS-reamer. Therefore, when the thickness of the perforated lateral wall is more than 3mm, the bone core can be removed by chisel or periosteal elevator through lever action. Then the remained portion of the lateral wall can be finished by the LS-reamer. No attempt should be made to remove the bone core disk by C-reamer all the way to the sinus. Keep the bone core in the wet gauze or saline solution and cover the hole after finishing the graft.

10. Sinus Membrane Elevator : As mentioned on the above, use the elevator #1 ~ 3 in order to achieve membrane elevation.

11. Graft material insertion & implant insertion : Graft the bone material and place implant into the hole.

125


SLA(Sinus Lateral Approach) kit Go to Index

Case Reports

Case 1. Residual bone height of 2~3mm

1. The residual bone height was approximately 2 ~3mm on #15, 16 & 26 sites. The six implants will be placed by lateral approach.

2. Make a minimal flap that is good enough to perform lateral window opening.

SLA kit 126

3. The lateral hole was made by LS-reamer on the upper side of inferior cortical wall on the #26 site. The thin bone disk formed was separated from the membrane.

4. The lateral hole was also made by LS-reamer on the #16 site.


SLA(Sinus Lateral Approach) kit Go to Index

Case Reports

5. After elevating the membrane, place the bone graft material with a ratio 1:1 of Regenoss and Calpore using a syringe.

SLA kit 127

6. If the bone density is D3 - D4, the underdrilling is required.

7. Place the Neo CMI Implant EB511 of an external implant which has a good initial stability.


SLA(Sinus Lateral Approach) kit Go to Index

Case Reports

8. After implantation of six fixtures with 30Ncm initial stability the one stage approach will be applied.

SLA kit 128

9. Complete prosthetics

10. Finished loading prosthesis


SLA(Sinus Lateral Approach) kit Go to Index

Case Reports

Case 2. Extraction of Second molar and lateral approach

1. Picture about the implant of maxilla molar on the left side and picture of patient required bone graft in maxillary sinus.

2. Picture after the formation of gingival incision.

SLA kit 129

3. Formation of bone hall with LS-reamer.

4. Lifting maxillary sinus membrane through the bone hall with LS-reamer and bone disk.

5. Picture after lifting maxillary sinus membrane with micro elevator. Instrumentation is very safe due to bone disk.

6. Bone graft into the sinus through the bone hall.


SLA(Sinus Lateral Approach) kit Go to Index

Case Reports

8. Picture after implant in the maxillary sinus.

9. Picture after installation of prosthetics.

10. Complete prosthetics.

SLA kit

7. Process of implant after the bone graft. Neo CMI Implant 5x10 was implanted.

130


Contents Introduction Neo Fixture Remover

KIT

132 133

Composition Neo Fixture Remover

KIT

134

Components User Guide

135

Case Reports

138


Neo FR(Fixture Remover) kit Go to Index

Introduction As the product is tool for removing stopped implant caused by excessive torque during insertion or implant in lost bone easily, it`s designed for inserting new implant with the same diameter after removing implant.

Neo FR kit 132


Neo FR(Fixture Remover) kit Go to Index

Neo FR(Fixture Remover) KIT Composition

Fixture Remover

Hex Driver

Neo FR kit 133

Fixture Remover Screw

Torque Wrench


Neo FR(Fixture Remover) kit Go to Index

Neo FR(Fixture Remover) KIT Components 1. Fixture Remover This tool is to remove an implant and apply a direct removing torque with remover screw. Diameter( ) 3.5 4.0 5.0 6.0

Length(mm)

Product Name

15.0

FR 315

20.0

FR 320

15.0

FR 415

20.0

FR 420

15.0

FR 515

20.0

FR 520

15.0

FR 615

20.0

FR 620

2. Hex Driver Neo FR kit

This tool is to mount fixture remover screw on fixture Length(mm)

Product Name

7.0

HDF 1607

12.0

HDF 1612

17.0

HDF 1617

134

3. Fixture Remover Screw It is used to mount Fixture remover on fixture screw hole. Screw Size

Product Name

M 1.4

FRS 14

M 1.6

FRS 16

M 1.8

FRS 18

No 1-72 UNF

FRS 172

M 2.0

FRS 20

M 2.5

FRS 25

4. Torque Ratchet Wrench It is to measure exact torque with Wrench tool. Ratchet

Torque Control Device

Type

Product Name

Ratchet

FRCHT

Torque Control Device

TW 80400


Neo FR(Fixture Remover) kit Go to Index

User Guide

1. Sterilize each Kit component. 2. Remove prosthesis of implant want to remove completely. 3. Tighten Remover Screw fitted to inner hole of implant using Hex Driver with proper torque around 40-50N/cm. Recommended torque and standard of Remover Screw for each size of implant are as follows.

Neo FR kit

Picture 1

Picture 2

Mounting torque of Removing Screw Screw

Spec.

Recommended Torque(Ncm)

Maximum Torque(Ncm)

FRS 14

M 1.4

50

60

FRS 16

M 1.6

60

80

FRS 18

M 1.8

60

100

FRS 172

No. 1-72UNF

60

100

FRS 20

M 2.0

60

100

FRS 25

M 2.5

60

100

4. After inserting Fixture Remove with counterclockwise to fixed screw, rotate it until implant rotates with the same direction (the direction for removing implant) using Torque Wrench.

Picture 3

Picture 4

135


Neo FR(Fixture Remover) kit Go to Index

User Guide Removal torque Following the removal tool combination Fixture Size

Narrow

Remover

FR 315 or FR 320

FR 315 or FR 320 Regular FR 415 or FR 420 FR 415 or FR 420 5.0 Wide FR 515 or FR 520 FR 515 or FR 520 Neo FR kit

6~8 Wide FR 615 or FR 620

Screw

Recommended Removing Torque(Ncm)

Maximum Removing Torque(Ncm)

FRS 14

200

250

FRS 16

250

300

FRS 18 / FRS 172

300

350

FRS 20

350

400

FRS 18 / FRS 172

300

350

FRS 20

350

400

FRS 18 / FRS 172

300

350

FRS 20

350

400

FRS 20

350

400

FRS 25

400

450

FRS 20

350

400

FRS 25

400

450

FRS 20

350

400

FRS 25

400

450

FRS 20

350

400

FRS 25

400

450

5. If implant don't get out in spite of excess of maximum torque, remove the Fixture Remover and remove minimum bone around implant using Round Bur. Then retry “No.4” process. 136

Picture 5

Picture 6

6. After equipping removed implant to vise and rotating Remover Head with clockwise using Torque Wrench from implant, separate Remover Screw fixed in Fixture using Hex Driver with counterclockwise.

Picture 7

Picture 8


Neo FR(Fixture Remover) kit Go to Index

User Guide

Picture 9

Picture 10

Neo FR kit

Picture 11

WARNING 1. You have to use the tool with full knowledge about the way of using. 2. If you insert Remover Screw to Fixture without recommended torque, Remover Screw could be broken or get bent. Also, it could spin between Fixture and Fixture Remover. 3. Remover screw is recommanded single use. If the torque is applied lower than 100Ncm, 3 times of use is maximum. But If over torque(over than 100Ncm) is applied, do not reuse it, because Remover Screw could break or bent. 4. If you apply over than the maximum torque to Fixture Remover, damage on the tool, breaking and bending of implant, and fracture can be occurred. So do not apply over than maximum torque. 5. You need enough irrigation to the implant with over 60Ncm torque during removing implant for preventing the heat. 6. If there are uncompleted coupling among inner Hex of Remover Screw Head, Hex Driver, Fixture Remover Head, and Torque Wrench. The product can be damaged and tool performance can be dropped so you have to use it after applying exact way. 7. In case of appling Regular size implant, if over torque than 400Ncm is applied, the Apex of implant can be fractured.

137


Neo FR(Fixture Remover) kit Go to Index

Case Reports

1. The picture of the implant which needs to be removed becourse of bone loss, but it is hard to be removed becourse of Osseointegration.

Neo FR kit 2. Connection remover screw of Neo FR kit with implant with the force up to “S� of torque wrench.

138

3. Easily removed by 400Ncm inplant without bone damage by fixture remover of Neo FR kit

4. The picture shows the thread of implant still exists owing to no bone damage.

5. After removing the old implant clean the infection area and install the new implant.(Same size)


Contents Introduction Neo Screw Remover

KIT

140 141

Composition Neo Screw Remover

KIT

142

Components User Guide

145

Screw Removal Sequence

148


Neo SR(Screw Remover) kit Go to Index

Introduction This is kit consisting of the tools designed to remove the fractured screw fast and safely in case that the screw inside the inserted fixture are fractured due to several reasons.

Perfect Guide

Guide Neo SR kit 140


Neo SR(Screw Remover) kit Go to Index

Neo SR(Screw Remover) KIT Composition

Reverse Drill

Shank Driver

Conical Guide

Screw Remover

Neo SR kit 141

Guide Holder

Perfect Guide

PG Driver

External Guide

Internal Guide


Neo SR(Screw Remover) kit Go to Index

Neo SR(Screw Remover) KIT Component 1. Perfect Guide & PG Driver Perfect Guide plays a role of the guide of Reverse Drill and is used when the screw is fractured downward female screw inside the fixture, and is used by attaching directly to the fixture female screw using a PG Driver. - As there is a specially designed bump which enables to push the fractured screw together by turning it when attaching a Perfect Guide, the guide can be attached perfect. - Inside Perfect Guide, a drill stop is designed to avoid drilling more than 2mm. - As this is attached directly to the Fixture for use, the tool to fix the guide is not needed when drilling.

Perfect Guide Standard

Product Name

Application fixture female screw

Application Reverse Drill

ø0.8 / M1.6

PG 0816

M1.6

RCD 08

ø1.0 / M1.8

PG 1018

M1.8

RCD 10

ø1.2 / M2.0

PG 1220

M2.0

RCD 10, 12

ø1.4 / M2.5

PG 1425

M2.5

RCD 12, 14

Neo SR kit

PG Driver Hex(mm)

Product Name

Application Product

2.5

PGHD 25S

PG0816, PG1018, PG1220, PG1425

Be sure to use the same size of Perfect Guide as fixture female screw.

142

2. Conical, Internal & External Guide Like Perfect Guide, these instruments play a role of the guide of Reverse Drill and are used when a Perfect Guide can not be used, or when the screw is fractured in the deep area downward more than 2mm in the beginning of female screw inside the fixture, and select the proper guide to use according to the internal connection.

Conical Guide Size

Product Name

11 /8

CG 00

Having 11 or 8 internal connection Fixture

Size

Product Name

Application Fixture

2.4 Hex

IHG 24

Having 2.4 Hex internal connection Fixture

2.5 Hex

IHG 25

Having 2.5 Hex internal connection Fixture

3.1 Octa

IOG 31

Having 3.1 Octa internal connection Fixture

Size

Product Name

Application Fixture

2.4 Hex

EHG 24

Having 2.4 Hex external connection Fixture

2.7 Hex

EHG 27

Having 2.7 Hex external connection Fixture

3.4 Hex

EHG 34

Having 3.4 Hex external connection Fixture

Application Fixture

Internal Guide

External Guide


Neo SR(Screw Remover) kit Go to Index

Neo SR(Screw Remover) KIT Component 3. Guide Holder

This is an instrument to hold by hand and fix the Internal Guide, External Guide and Conical Guide which play a role of the guide when using a Reverse Drill, after attaching them to this instrument.

Standard

Product Name

3.5 Double Hex

GH 00

Application Product Conical Guide : CG00 Internal Guide : IHG24, IHG25, IOG31 External Guide : EHG24, EHG27, EHG34

4. Reverse Drill

143

- This is an instrument to form the hole for screw remover to insert on the fractured screw before using a screw remover which has the function to remove the screw. According to edge diameter, it is consisted of 4types and selects a reverse drill suitable for the size of screw desired to remove. - This enables to adjust the drilling the drilling depth 1mm~3mm as it is marked.

1mm 1mm 1mm

Diameter

Neo SR kit

In case of impossible use of Perfect Guide situation, use Guide Holder with Conical, Internal, and External Guide.

Diameter( )

Product Name

Fractured Screw Size

0.8

RCD 08

M1.6

1.0

RCD 10

M1.8 or M2.0

1.2

RCD 12

M2.0 or M2.5

1.4

RCD 14

M2.5

Abutment Screw standard is different according to the manufacturer but generally, except for special case, the screws of M1.6, M1.8, M2.0, M2.5 are used. ("M" means the meter screw and the number means the diameter of screw. For example, “M1.6 screw� means the meter screw with screw diameter 1.6mm.)


Neo SR(Screw Remover) kit Go to Index

Neo SR(Screw Remover) KIT Component

5. Screw Remover This is an instrument to remove the fractured screw by inserting the screw remover suitable for the hole formed by a reverse drill and turning counterclockwise at less than 80rpm. Screw Remover is designed with the taper structure so that the more it turns the ore the friction force required to loosen increases.

Diameter( )

Product Name

Application

Neo SR kit

0.8~1.1

SR 08

When the hole is formed by Reverse Drill ø0.8(RCD08)

1.0~1.3

SR 10

When the hole is formed by Reverse Drill ø1.0(RCD10)

1.2~1.5

SR 12

When the hole is formed by Reverse Drill ø1.2(RCD12)

1.4~1.7

SR 14

When the hole is formed by Reverse Drill ø1.4(RCD14)

SR14 is use for broken hex of the screw.

144

6. Shank Driver This is an instrument designed to use by hand or torque wrench or ratchet by attaching the screw remover to this instrument. Product Name

Application Product

SHD 00

SR08, SR10, SR12, SR14


Neo SR(Screw Remover) kit Go to Index

User Guide 1. Sterilize Sterilize the desired components to use only or sterilize the whole kit that the components are inserted. 2. Find standard size for Fixture & Screw Check the size of Fixture connection or the desired fractured screw to remove or the female screw inside the fixture. If you don't know the size of Fixture connection or the fractured screw or the female screw of fixture, be sure to ask the manufacturer or agent for information.

Fractured screw

Fractured screw

Neo SR kit

ex) External Regular

Fixture connection External : 2.4Hex, 2.7Hex, 3.3Hex ,3.4Hex Internal : 2.4Hex, 2.5Hex, 3.1 Octa

ex) Internal Regular

Screw standard In general M1.6, M1.8, M2.0, M2.5 are mostly fitted

3. Guide for selection & connection Select the suitable guide for Fixture connection and screw size and attach it to the fixture. 1. Usage of Perfect guide. Use a PG Driver to attach the Perfect Guide which corresponds to the size of female screw of fixture, to the female screw of the fixture. Attach it with about 10Ncm which is a torque enough to tighten by the hand force.

2. Usage of External, conical, internal guide. When there is a situation which cannot use Perfect Guide or abutment screw has been fractured more than 2mm, select one proper guide among External Guide, Conical Guide, and Internal Guide and install the selected guide on the Guide Holder and then attach it to the fixture.

145


Neo SR(Screw Remover) kit Go to Index

User Guide In case the screw is fractured downward female screw inside the fixture.

In case the screw is fractured downward female screw inside the fixture.

In order to use the Perfect Guide, female screw needs minimum helix in the fixture.

4. Usage of Reverse Drill Select suitable Reverse Drill to the size of screw desired to remove and attach it to the contra angle of surgical engine and then insert it in the Guide installed in the fixture and turn it counterclockwise at 1,200rpm~1,300rpm to form 1~2mm hole on the fractured screw. As the heat may generate by drilling, the sufficient irrigation is needed. To reduce the mistake to attach the Perfect Guide which has different size with that of female screw of Fixture, attach the Perfect Guide with a bigger diameter first and if not fitted, try to attach the smaller Perfect Guide.

Neo SR kit

5. Usage of Screw Remover After removing the attached guide, select the Screw Remover suitable for the hole formed by a Reverse Drill and attach it to the contra angle of surgical engine and then press the Screw Remover on the formed hole with the proper force and turn it counterclockwise less than 80rpm to loosen the screw. If a Screw Remover is attached to Shank Driver, it is available to loosen the fractured screw by hand or by connecting a Ratchet or Torque Wrench.

146

Perfect Guide Clock wise Counter clockwise

Counter clockwise Insert to the hole

Connect PG Driver to Perfect Guide before connecting Perfect Guide to the fixture.

- In order to make 1~2mm hole of fractured screw, it needs to insert Reverse drill to the Guide and drill counterclockwise with irrigation. - Do not connect the Guide while the drill is rotating. You must drill when Reverse drill toughs the surface of the screw.

Remove the Guide with the drill, the insert a suitable Screw Remover to the hole and remove the fractured screw by rotating counterclockwise.

As a drill stop is designed inside Perfect Guide, the drilling more than 2mm is not possible. However, for External Guide, Conical Guide and Internal Guide, a drill stop is not designed other than Perfect Guide. Thus, when drilling, be sure to check the strip marking which indicates the drilling depth of Reverse Drill.


Neo SR(Screw Remover) kit Go to Index

User Guide External, Internal, Conical Guide Counter clockwise

Counter clockwise Insert to the hole

Install the selected guide on the Guide Holder and then attach it to the fixture by hand.

- In order to make 1~2mm hole of fractured screw, it needs to insert Reverse drill to the Guide and drill counterclockwise with irrigation. - Do not connect the Guide while the drill is rotating. You must drill when Reverse drill toughs the surface of the screw.

Remove the Guide with the drill, the insert a suitable Screw Remover to the hole and remove the fractured screw by rotating counterclockwise.

In case of broken hex of Abutment screw. When there is over torque by combining the Fixture and the abutment, hex of the screw head can be distorted. On this case, using screw remover kit, screw of abutment can be easily removed.

Counter clockwise

Counter clockwise

Neo SR kit

147

1. Insert

1.4 screw remover (SR14) counterclockwise by below 80 rpm to remove the screw. (Picture 1->2 )

2. In case the screw remover runs by itself not with the screw, then use 1.4 reverse drill (RCD14) to the hex and run 1,200~ 1,300rpm counterclockwise and make 1~1.5mm hole and then use 1.4 screw remover(SR14) again. (Picture 1->2->3->1->2)

Notices 1. Read the purpose of the product and how to use thoroughly before using. 2. If you select a Tool wrong, the fixture may be damaged. So, after checking the size of screw desired to remove or fixture connection, select the proper Guide, Reverse Drill, and Reverse Tap to use. 3. If Perfect Guide is not attached well, do not force to attach it but select the proper guide suitable for the fixture connection among External Guide, Conical Guide, and Internal Guide. If you force to attach the Perfect Guide, the fixture may be damaged. 4. Reverse Drill and Screw Remover should be used at optimal rpm. 5. If the used tool is left alone, it may cause the rust or corrosion. Be sure to dry thoroughly after washing and store it in the dry place at ambient temperature.


Neo SR(Screw Remover) kit Go to Index

Perfect Guide screw removal sequence.

Neo SR kit

When you use the Perfect Guide, in case of M2.0 and M2.5, you can remove the fractured screw by sequence of method1 and 2.

148

Use a PG Driver to attach the Perfect Guide which corresponds to the size of female screw of fixture to the female screw of the fixture by the hand force. (Torque: About 10Ncm)

Connect the Reverse Drill with the contra angle of surgical engine and then insert it in the Perfect Guide installed in the fixture and turn it at 1,200~1,300 rpm to from the 1~2mm hole on the fractured screw.

After removing the attached guide, select the Screw Remover suitable for the hole formed by a Reverse Drill and attach it to the contra angle of surgical engine and then press the Screw Remover on the formed hole with the proper force and turn it less than 80 rpm to loosen the screw.

In case of removing M2.0 and M2.5 size screw, if you fail to remove the screw by sequence of the method1, you can have one more chance removing the screw by sequence of the method2.


Neo SR(Screw Remover) kit Go to Index

External, Internal, Conical Guide screw removal sequence

According to Fixture connection, select one paper guide among External Guide, Conical Guide, and Internal Guide and install the selected guide on the Guide Holder and then attach it to the fixture.

In case of a internal fixture, you can use the Internal Guide or Conical Guide Neo SR kit 149

Use a PG Driver to attach the Perfect Guide which corresponds to the size of female screw of fixture to the female screw of the fixture by the hand force. (Torque : About 10Ncm)

Connect the Reverse Drill with the contra angle of surgical engine and then insert it in the Perfect Guide installed in the fixture and turn it at 1,200~1,300rpm to from the 1~2mm hole on the fractured screw.

After removing the attached guide, select the Screw Remover suitable for the hole formed by a Reverse Drill and attach it to the contra angle of surgical engine and then press the Screw Remover on the formed hole with the proper force and turn it less than 80rpm to loosen the screw.

In case of removing M2.0 and M2.5 size screw, if you fail to remove the screw by sequence of the method1, you can have one more chance removing the screw by sequence of the method2.



Contents Introduction

152

CTi-mem Components

155

User Guide

159

CTi-mem Selection

163


Customized Titanium Membrane Go to Index

Introduction has developed independently by Neobiotech Co., Ltd., Which is the customized titanium membrane with minimum cutting and bending of it for attaching on the location of part used. This product, customized titanium membrane, solved the existed rectangle membrane's own inconvenience of cutting problem.

Customized Titanium Membrane 152


Customized Titanium Membrane Go to Index

Introduction Advantage of CTi-Mem 1. Biocompatibility Cp. Ti material has an excellent biological stability, and it is beneficial to bone formation.

2. Strong Compare to absorbable membrane, it has a superior strength and excellent retention of BMP space.

3. Flexibility Has an excellent flexibility due to the thinness, and it can easily produce a desired shape.

Depending on the location, it provides variety sizes of membrane that are suitable for treatment use. Membrane with a minimum of trimming can be made into the shape you want.

5. Implant fixation Even without the use of membrane fixing screw, it can be fixed directly to Implant.

Customized Titanium Membrane

4. Customized shape

153

6. Vertical Augmentation Vertical Augmentation is adjustable with using 1mm, 1.5mm, 2mm of CTi Spacer.

7. 1-stage Surgery After completing GBR, the CTi-Mem can be easily removed without having 2-stage surgery.


Customized Titanium Membrane Go to Index

Introduction CTi-mem Characteristic 1

2

6

3 C

4 Customized Titanium Membrane 154

5 1 Lingual finger Main function is to maintain the efficient space by covering the 2~3mm of lingual defect with easy bending. Simple cutting if necessary. 2 Proximal finger Necessary when vertical augmentation of Misial&distal defect, shape formation available with easy bending. Cut the unnecessary part After measure the width of proximal. 3 Lateral augmentation part - Put the C part as the centre and bending of a curved for 2~3mm thick side bone formation. - Bending the side extrusion inwards in order to protect bone transplant and form the space. Porous exists to minimize the soft tissue exposure. 4 Lateral cover - Cover part of side transplant bone materials. Choose the size depends on defect length. - Three dimensional bending available, no porous exists to be able to remove the CTi-mem with simple 2nd surgery. 5 Foot Protect the transplant material as bending inwards, have membrane fixation by contacting the existing bone. 6 Fixing hole The hole formed to fix the CTi-mem to fixture. Firstly connect the CTi Spacer to fixture, lift up the CTi-mem and then fix with the CTi Healing Abutment or CTi Cover Cap. Vertical bone formation can be decided depends on CTi Spacer height.


Customized Titanium Membrane Go to Index

CTi-mem Component 1. CTi-mem CTi-mem has three A types, nine B and C types and three E types. Total of 30 kinds of membranes are customized. P

A-Type 1 Wall Augmentation (Buccal or Lingual)

L

P(mm)

W(mm)

L(mm)

(Proximal Width)

(Buccal Width)

(Buccal Length)

Code

Product Name

8

6

A1

ATMBN 0810S

10

8

A2

ATMBN 0912S

4

10

10

A3

ATMBN 0915S

Code

Product Name

B1

ATMBN 0910L

W

B-Type 2 Wall Augmentation (Buccal - Proximal) P

P(mm)

W(mm)

L(mm)

(Proximal Width)

(Buccal Width)

(Buccal Length)

6 7

10

9

12

L

12

W

12

8

B2

ATMBN 0912L

10

B3

ATMBN 0915L

6

B4

PTMBN 1210S

8

B5

PTMBN 1212S

10

B6

PTMBN 1215S

6

B7

PTMBN 1210L

8

B8

PTMBN 1212L

10

B9

PTMBN 1215L

Code

Product Name

6

C1

ATMLN 0910L

8

C2

ATMLN 0912L

10

C3

ATMLN 0915L

6

C4

PTMLN 1210S

C-Type 3 Wall Augmentation (Buccal-Lingual-Proximal) P

P(mm)

W(mm)

L(mm)

(Proximal Width)

(Buccal Width)

(Buccal Length)

7

9

10

12

L

W

12

12

8

C5

PTMLN 1212S

10

C6

PTMLN 1215S

6

C7

PTMLN 1210L

8

C8

PTMLN 1212L

10

C9

PTMLN 1215L

Customized Titanium Membrane

4 4

155


Customized Titanium Membrane Go to Index

CTi-mem Component P

D-Type ITI Type (Non-fixed) 1 Wall Augmentation P(mm)

W(mm)

L(mm)

(Proximal Width)

(Buccal Width)

(Buccal Length)

7

9

L

Code

Product Name

6

D1

ATUBN 0910L

8

D2

ATUBN 0912L

10

D3

ATUBN 0915L

Code

Product Name

6

D4

PTUBN 1210S

8

D5

PTUBN 1212S

10

D6

PTUBN 1215S

W

P

D-Type ITI Type (Non-fixed) 2 Wall Augmentation Customized Titanium Membrane

L

P(mm)

W(mm)

L(mm)

(Proximal Width)

(Buccal Width)

(Buccal Length)

10

12

W

156

P

E-Type Universal Type (Submerged & Non-fixed) P

L

(Proximal Width)

(Buccal Length)

12

Code

Product Name

15

E1

CTM 1215

12

20

E2

CTM 1220

15

20

E3

CTM 1520

L


Customized Titanium Membrane Go to Index

CTi-mem Component 2. CTi Spacer - By connecting CTi spacer to the implant platform of the head, GBR can be controled. - After mounting the Cti-mem (A, B, C type) in upper part of being entered and placed implant. Fix the CTi-mem with CTi Cover cap or CTi healing abutment. - Available to control the vertical augmentation amount by using optional three types of CTi Spacer that are 1mm, 1.5mm, 2mm. Height

EB CTi Spacer Diameter( )

Height(mm)

Product Name

1

ENCTS 3710

Narrow

3.5

1.5

ENCTS 3715

2

ENCTS 3720

1

ERCTS 4010

1.5

ERCTS 4015

2

ERCTS 4020

1

EICTS 5010

1.5

EICTS 5015

2

EICTS 5020

Diameter

Regular

Wide(3i)

Wide (Branemark)

4.0

5.0

5.0

1

EBCTS 5010

1.5

EBCTS 5015

2

EBCTS 5020

Customized Titanium Membrane

Type

157

Diameter

IS CTi Spacer Height

Diameter( )

Height(mm)

Product Name

0.5

ISCTS 4005

1

ISCTS 4010

1.5

ISCTS 4015

2

ISCTS 4020

4.0

3. CTi Cover Cap Used for fixing the CTi-mem that has been mounting with CTi Spacer, and Submerged purpose. Height

Diameter( ) Diameter

4.0

Heightter(mm)

Product Name

1.5

CTC 40


Customized Titanium Membrane Go to Index

CTi-mem Component 4. CTi Healing Abutment Diameter 2

Used for fixing the CTi-mem that has been mounting with CTi Spacer, and Non-Submerged purpose. Diameter 1( )

Diameter 2( )

Height(mm)

Product Name

3.0

CHAG 404030

4.0

CHAG 404040

3.0

CHAG 405030

4.0

CHAG 405040

Height

4.0 4.0 5.0 Diameter 1

Customized Titanium Membrane

5. CTi Cover Cap Driver Used for picking-up the CTi Cover cap, enter in or lossen the CTi cover cap from the CTi Spacer. Product Name MCCD CTi Spacer / CTi Healing Abutment can be close or released by 1.2 Hex Driver.

158

6. CTi-mem Contouring Plier CTi-mem contouring Plier is for bending CTi-mem in right form. Product Name MCCP

7. CTi Guage CTi-guage is for measuring oral proximal width, buccal width and buccal length. Product Name MG 00


Customized Titanium Membrane Go to Index

User Guide 1. Finish the implantation of the Fixture.

2. Choose CTi-Mem by using the measurement from CTi gauge and length space of bone graft.

3. Combine the membrane healing post with the fixture. By selecting the post, you need to know the system of the implant, volume of the bone graft and EB and IS implant have two types of height(1mm, 1.5mm, 2mm) which this information can give good selection.

4. Proceed Bone graft.

5. Make model of the selected CTI- Mem. Do not bend rapidly in the same area or it will fracture the CTI- Mem.

- With the gum height use suitable healing cap. - Use cover cap for 2nd stage surgery.

7. Suture the Soft tissue.

Customized Titanium Membrane

6. Stable the CTI-Mem and combine the membrane healing cap or membrane cover cap with below 10 Ncm.

159

1. A type : 1 wall augmentation Placement for buccal in bone defect area

Implant at the area of bone defect

Combine CTi Spacer with implant

Image of CTi Spacer with implant

Bone graft at Bone defect area

Bend Cti-mem with Contouring plier

Bend Suitable Form by Bending CTi-mem

Place the mount at CTi Spacer

Before suture, combine CTi Healing abutment or CTi Cover cap with CTi-mem


Customized Titanium Membrane Go to Index

User Guide 2. B type : 2 wall augmentation Placement for buccal, proximal in bone defect area

Customized Titanium Membrane 160

Implant at the area of bone defect

Combine CTi Spacer with implant

Image of CTi Spacer with implant

Bone graft at Bone defect area

Bend Cti-mem with Contouring plier

Bend Suitable Form by Bending CTi-mem

Place the mount at CTi Spacer

Before suture, combine CTi Healing abutment or CTi Cover cap with CTi-mem

3. C type : 3 wall augmentaion Placement for buccal, proximal and lingual in bone defect area

Implant at the area of bone defect

Combine CTi Spacer with implant

Image of CTi Spacer with implant

Bone graft at Bone defect area

Bend Cti-mem with Contouring plier

Bend Suitable Form by Bending CTi-mem

Place the mount at CTi Spacer

Before suture, combine CTi Healing abutment or CTi Cover cap with CTi-mem


Customized Titanium Membrane Go to Index

User Guide 4. D type : 1 wall agumentation for ITI type Placement for buccal in bone defect area

Combine cover screw or healing abutment

Bend Suitable Form by Bending CTi-mem

Before suture, place CTi -mem at bone defect area

Bone graft at Bone defect area

Bend Cti-mem with Contouring plier

Customized Titanium Membrane

Detect the area of bone defect

5. D type : 2 wall agumentation for ITI type

161

Placement for buccal and proximal in bone defect area

Detect the area of bone defect

Combine cover screw or healing abutment

Bend Suitable Form by Bending CTi-mem

Before suture, place CTi -mem at bone defect area

Bone graft at Bone defect area

Bend Cti-mem with Contouring plier


Customized Titanium Membrane Go to Index

User Guide 6. E type : Non-fixed Submerged Placement for large bone defect area

Customized Titanium Membrane

Detect the area of bone defect

Combine cover screw or healing abutment

Bend Suitable Form by Bending CTi-mem

Before suture, place CTi -mem at bone defect area

Bone graft at Bone defect area

Bend Cti-mem with Contouring plier

162

Warning 1. Practitioners should use after fully understand the handling and precautions of the product.

2. Since the product is supplied as sterile, CTi-mem should be used immediately after it is opened from the package.

3. In the case of package is damaged, the condition of sterilization is likely to be damaged. Therefore, it needs to be discarded.

4. Inadvertent exposure by a carelessness of suture can cause a redness, swelling and tissue to be eliminated. Therefore, it needs to be removed.

5. Improper selection of patients or procedures can lead to a failure of treatment.

6. CTi-mem is a disposable single- use product. Do not reuse.


Customized Titanium Membrane Go to Index

CTi-mem Selection 1. Depends on the wall situation, choose A, B, C type from the CTi-men. 2. Proximal width (p) of Occlusal part that needs to be covered by Membrane is measured in oral with determination of the 'p' size. If Proximal defect is not existed, amputate the proximal when it's 1wall choose A, and when it's b-l defect choose C for the amputation. 3. W (Buccal Width) can be decided by P (Proximal Width) and P can be measured From B and C.

Customized Titanium Membrane 163



Contents Introduction

166

Type of Ti-mesh

166


Neo Titanium Mesh Go to Index

Introduction Neo titanium mesh can be trimmed by customer’s need (Thickness 0.085mm hole size

0.8)

Type of Ti-mesh Neo Titanium Mesh

20mm 12mm

20mm

25mm

166

35mm 25mm

35mm

50mm

Size

Code

Product Name

20 x 12

T1

TMN 122008

25 x 20

T2

TMN 202508

35 x 25

T3

TMN 253508

50 x 35

T4

TMN 355008


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