Life Science News 2/2014

Parker Life Science News 2/2014

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Pääkirjoitus Terveiset Analytica messuilta Münchenistä!

erityisesti kliiniseen diagnostiikkaan ja laboratorioanalytiikkaan. Uutta ja mullistavaa tuotteessa on sen pieni koko, annostelutarkkuus pienissä tilavuuksissa sekä tuotteen kestävyys. Lue lisää Smart Syringe Pumpista lehden sivulta 3 eteenpäin. Lisäksi löydät paljon muutakin uutta tästä numerosta mm. uutta langatonta anturiteknologiaa.

Kirjoittaessani tätä olen juuri kotiutunut Münchenistä Analytica 2014 messuilta. Kyseiset messut ovat yksi Euroopan suurimmista messuista suunnattuna laboratorioille. Analyticassa oli jälleen tänäkin vuonna hyvin edustettuina eri teollisuuden alat laboratoriomaailmassa; kliininen diagnostiikka, laboratoriolääketiede, kemianteollisuus, elintarviketeollisuus ja lääketeollisuuden analytiikka sekä laadunvalvonta. Oli mielenkiintoista nähdä mitä laboratoriomaailmassa tapahtuu tällä hetkellä.

Kesä lähestyy vauhdilla ja on ilo seurata kun luonto herää eloon auringon valon ja lämmön lisääntyessä. Työn iloa ja aurinkoisia kevätpäiviä toivotellen! Minna Gröning Sales Manager

Parker lanseerasi Analyticassa uuden tuotteen, integroitavan automaattisen nesteannostelijan, joka on suunnattu

Parker Life Science News 2/2014

Parker Life Science News 2/2014 Kustantaja: Parker Hannifin Oy Koivupuistontie 18-22 01510 Vantaa Puh. 0207 532 500 www.parker.com

Päätoimittaja: Minna Gröning Ulkoasun toteutus: ammattilehti.fi Painopaikka:

Kirjapaino Prodo Oy

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Sisällysluettelo 5. Parker Smart Syringe Pump Demo – Varaa aikasi 6. Building Smarter, More Efficient Fluid Handling Solutions

8. Motion Solutions to make your

12. Benefits of in-house gas generators

instrument smaller and faster 10. Low Energy Wireless Monitoring 16. Disposable Sensor Technology

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Simplified Instrument Design Direct mounting at the point of dispense improves performance by eliminating the need for a transfer line CE compliant for emissions, immunity and safety

Longer Life Designed to 5 million cycles: Improves system reliability and reduces downtime Superior Performance Best in class resolution, 228,496 steps full scale, enabling smaller sample and reagent volumes Minimum step volume 0.22 nL Non pulsatile flow down to 7.5nL/sec Smaller Footprint 1/3 the size and the weight of standard 30mm Syringe Pumps

Together, we can build a smarter, more efficient sample analysis. At one third the size and weight of standard 30mm syringe pumps, Parker’s Smart Syringe Pump improves the performance of Analytical Chemistry systems by increasing precision and bringing the pump to the point of dispense. Engineers can simplify their fluidic controls - that’s smart.

www.parker.com/ppf/smartsyringepump ppfinfo@parker.com

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Parker Smart Syringe Pump Demo – Varaa aikasi

Varaa aikasi Smart Syringe Pump demoa varten täyttämällä lomake internetissä osoitteessa: http://solutions.parker.com/Smart_Syringe_FI

Medical Technology Solutions

Tervetuloa tutustumaan uutuustuotteeseemme Smart Syringe Pumpiin. Tarjoamme Sinulle tuotteen esittelyn demokitin avulla, jolla pääset tutustumaan tuotteen ominaisuuksiin juuri sinun ohjelmissasi. Demokitti sisältää helppokäyttöisen ohjelmiston, jolla voimme ohjelmoida annostelupään toimimaan antamiesi määritysten mukaisesti.

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Building Smarter, More Efficient Fluid Handling Solutions New possibilities to improve instrument designs

Parker is the leading supplier of miniature fluidic and motion components, which enable system solutions integral to the world’s medical and analytical instrumentation. Whether the system is moving the sample, reagents, bleach, or waste, Parker valves and pumps can provide the solution. The Parker Smart Syringe Pump is one third the size and weight of standard 30 mm syringe pumps on the market today, and is specifically developed to improve the performance of clinical diagnostic and analytical chemistry systems. This is accomplished by increasing resolution and bringing the pump to the point of dispense.

When you partner with Parker Hannifin, you gain the benefit of a single solution provider that can design, prototype, and manufacture solutions. This helps shorten design and production cycles and provides the highest level of customer support. Together, we can simplify your fluidic controls by mounting a probe directly on the pump, which they can then mount on a motion system. This removes any transfer tubing between the pump and probe and eliminates performances losses due to long transfer lines.

Motion Solutions for Demanding Applications Selectable levels of integration™ offer “perfect fit” for miniature solutions Selectable Levels of Integration™ is a philosophy of product development and management that allows the Instrument Designer to select an appropriate standard, modified, or custom system solution to speed your development and reduce both technical and project risk. Parker has solutions for Instruments Designers of all types, from those who want a complete, integrated system to those who want to build their own system with tailored components to match their performance and price requirements. Parker’s expertise translates to faster development, improved life, reduced risk, and greater value.

Medical Technology Solutions

Use Parker Motion Solutions to make your instrument smaller and faster.

High Precision Gantry

High Speed Gantry

Precision X-Y-Z

High Speed Cartesian

Z - Theta

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To learn how Parker’s integration of motion and fluidics can provide a complete solution for your system, visit www.parker.com/lifesciences

Motion And Fluidic Products From Parker

SERVO SOLUTIONS

Solutions Micro-stepping Highly robust frameless perfor-mance in high/low solutions for integrated voltage configurations. 5 designs. AC/DC bus voltmotor frame size options ages in Drive or Drive/ & multiple stack lengths. Controller configurations.

USER INTERFACE

MINIATURE T-SLOT ALUMIMOTION SOLUTIONS NIUM FRAMING

Bundled hardware and Miniature high speed and Lightweight, high strength, high precision products. clean, and flexible solusoftware improve the Engineered solutions with tions for guarding, frameffectiveness, aids in proven long life. achieving 21CFR Part11 ing, and structure. compliance.

PARKER SMART SAMPLE REAGENT PROPORTIONAL HARSH REAGENTS/ SYRINGE PUMP CONTROL - LQX GRADIENT SYSTEMS BLEACH CLEANING

Small footprint, direct mounting at dispens-ing point, best-in-class resolution.

Particulate-tolerant, low dead volume valve for sample and reagent control.

PTFE manifold isolation valves provide mulitple, inert wetted paths for aggressive liquids.

LIQUID DIAPHGRAM PUMPS

Inert Isolation PTFE Unique design offers Valves: Chemical Com- substanial cost savings in patibility, Fast Response reduced field service time, Time: <12 ms Tight Leak ideal for waste removal. Capability - Bubbletight

Medical Technology Solutions

STEPPER SOLUTIONS

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More info: www.parker.com/eme/mx www.parker.com/eme/lcr

Motion Solutions to make your instrument smaller and faster

Medical Technology Solutions

New possibilities to improve instrument design Parker is the leading supplier of miniature and precision motion components which enable the instrument designers to select an appropriate standard, modified, or custom system solution to speed development and reduce both technical and project risk. Parker has solutions for designers of all types, from those who want a complete, integrated system to those who want to build their own system with tailored components to match their performance and price requirements. Parker’s expertise translates to faster development, improved life, reduced risk, and greater value.

MX - Precision Miniature Positioners The MX45S is a 45 mm reliable miniature positioner, designed for applications requiring small incremental movements, micron repeatability,

smooth motion and high stiffness in space-restricted applications. Designed with anti-cage creep crossed roller bearings, this positioner allows users to position up to 7 kg of normal load, and eliminate the need of additional bearings reducing design cost and time. The MX45S can be supplied with a high-efficiency leadscrew or a highprecision ballscrew, both of which are capable of producing 40 N of thrust at linear velocities of 20 mm/s and 30 mm/s respectively. Depending on the encoder used up to ±1 µm repetability and 6 µm accuracy can be achieved. In addition to the standard features, there are several options including rotary and linear encoders, digital limit/ home sensor packs and the ability to order one of eleven pre-engineered multi-axis systems (x-y, x-z, x-y-z). helping to save design time and to reduce time to market compared to customer designed solutions.

The MX45S is ideally suited to the following applications: - Medical equipment - Medical diagnostics - Biomolecular research - Laboratory equipment - Laboratory automation - Microscope

LCR - Light Capacity Rodless Linear Positioner The family of Light Capacity Rodless

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(LCR) linear positioners are designed to automate payloads of up to 10 kg. Rated for 100 % duty cycle, the positioners offer smooth, quiet and high dynamic motion with selectable travel lengths up to 1000 mm for handling applications. Flexible drive train options offer high thrust with multiple screw leads or highest speed with reinforced belt drive. The bearing options include either a robust high performance internal square rail design, or for a lighter payload - the glider bushing which is perfect to reduce instrument weight and cost. In addition, the standard stainless sealing strip protects the bearings from environmental debris. All these features help LCR to provide a high quality, easy-to-use, off-the-shelf complete miniature linear positioner with a sealed body design. The product can also be customised to meet very specific customer applications if required Typical application examples include: - Analytical and diagnostics instruments - Syringe pump handling - Liquid handling devices - Micro-plate or slide handling When you partner with Parker Hannifin, you gain the benefit of a single solution provider that can design, prototype, and manufacture customized solutions. This helps shorten design and production cycles and provides the highest level of customer support.

- Simplified engineering with maximum flexibility - Reduced down time and maintenance costs - Quick and easy installation saving users time and money - Greater reliability and increased product life - Reduced overall instrument weight and cost - Minimal footprint aides small machine footprint

The LCR is the perfect accompaniment to the Parker Smart Syringe Pump for clinical diagnostics and analytical chemistry systems, it enables building smarter, more efficient fluidic handling solutions.

Medical Technology Solutions

Benefits

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Low Energy Wireless Monitoring

Medical Technology Solutions

SensoNODE wireless pressure, temperature and humidity sensors work with a mobile app to quickly, easily and cost-effectively monitor applications Designed to eliminate the challenges of traditional wired sensors in everyday applications, our SensoNODE Low Energy Wireless Monitoring Sensors can help predict problems and prevent downtime in a variety of equipment and facility applications, saving time and money on costly labor or repairs.

Advanced sensor technology Small in size and easily installed, SensoNODE Wireless Sensors offer a sealed sensor housing to facilitate

sensor location in challenging environments. The three individual sensor options (pressure, temperature, humidity) are compatible with a wide range of liquid and gas applications. They operate on a common coin cell battery for extended periods of time.

Intuitive mobile app Our iOS app allows you to optimize and troubleshoot equipment performance throughout your facility by monitoring pressure, temperature and

Applications - Medical devices - Laboratory and analytical equipment - Food and beverage - Manufacturing processes - Automation / assembly equipment

Features - Three different sensor options: pressure, temperature and humidity - Wireless communication with Auto Sensor recognition - In-app diagnostic tools - Downloadable app

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Technical specifications

Benefits - Able to monitor a variety of equipment, media and applications - Easy installation — just locate, place and monitor - Alert notifications and trending - Available on the go - Extended battery life - More precise reading of data source

Medical Technology Solutions

- Low power operation - High accuracy for each sensor type

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Tervetuloa tutustumaan uusiin Parker Suomen Life Science kotisivuihin!

Olemme juuri avanneet uudet Suomen myyntiyhtiön internetsivut markkina-alueittain. Löydät Life Science -sivustolta ajankohtaista tietoa Suomalaisille asiakkaillemme, kuten esitteitä ja uusimman Life Science Newsin. Sivustolla esittelemme tuoteuutuuksia ja tietoa tulevista tapahtumista. Parker Suomen Life Science –sivuille pääset klikkaamalla lehden sähköisessä versiossa www.parker.com/Life Science tai jos

luet parhaillaan paperiversiota löydät sivut www.parker.com/FI, josta löydät Life Science sivut klikkaamalla otsikkoa Markkina-alueet.

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Benefits of in-house gas generators Clear advantages

Clinical Diagnostic and Lab Instrumentation Solutions

Using in-house gas generators is the smart solution for cost and convenience, without compromising safety.

Here we can see the benefits of using in-house hydrogen gas generators and why they are safer and more convenient. This option is also far cheaper than using hydrogen cylinder gas and a fraction of the cost of using helium cylinders.

Maximising safety An in-house generator is considerably safer than cylinder gas as only a small amount of generated gas is present at low pressure at any given time and the gas is ported directly to the instrument. If a leak occurs, only a small amount

As we’ve seen, the benefits of using hydrogen as a GC carrier gas are proven. Hydrogen is now the cost-effective option with no problems with current or future supply, but other benefits include the faster analysis, greater resolution and longer column life. of quantity of gas is dissipated into the laboratory. In contrast, serious hazards exist if gas is supplied using a high-pressure gas cylinder. Safety can be compromised by accidental venting, injury or damage from transportation and installation of the heavy canisters, and most importantly a leaking hydrogen cylinder can cause an explosion.

Increasing convenience An in-house gas generator can supply gas on a 24/7 basis with no require-

ment for user interaction (barring annual routine maintenance). If cylinders are used, the user needs to monitor gas levels and adjust for the desired analyses – they also require a qualified individual to be present to install replacement cylinders when they run out. As they are usually stored outside in remote areas for safety, this can also be inconvenient and time consuming.

Reducing costs One of the main benefits of in-house gas generators is the dramatic economic benefit when compared to gas

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cylinders. The running cost is extremely low as the gas is obtained from water and the maintenance costs amount to only a few hundred euros per year for periodic filter replacement.

Precise cost comparisons for a given user depend on a broad range of local parameters and the amount of gas used, but what is certain is that the cost savings will be significant.¨ A comparison table displaying annual costs for in-house hydrogen gas generators versus gas cylinders is shown here.

Clinical Diagnostic and Lab Instrumentation Solutions

In comparison, gas cylinders’ cost goes beyond unit sale as factors such as transportation, installation, returning of used cylinders and time for the system to equilibrate need to be taken into account.

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Disposable Sensor Technology

Pharmaceutical Solutions

Sensors designed for incorporation into disposable purification platforms, i.e. single-use tangential flow filtration (TFF), single-use normal flow filtration (NFF) or disposable chromatography must meet a number of challenging requirements. Single-use platforms for downstream purification typically consist of an integrated assembly of filter elements or columns, flexible tubing, plastic connectors and bags, segments of peristaltic pump tubing as well as sensors. Such assemblies are designed and pre-assembled for a specific purification process and a given, maximum process volume. Special aseptic plastic connectors are used to hook up to external, single-use bioreactors and/or buffer solutions. In the final configuration, all elements of the purification platform are presterilized, assembled and operated as a closed system. Single-use purification assemblies are typically custom-manufactured and gamma-irradiated at 30-40 kGy to ensure sterility of the integrated assembly. Alternative sterilization approaches are available utilizing “steam-through” connectors as well as steam sterilized, disposable purifica-

tion assemblies. Ethylene oxide sterilization used less frequently because of potential contamination by residual ethylene oxide. Parker domnick hunter’s family of disposable in-line sensors for monitoring conductivity (SciCon®), pressure

(SciPres®) and temperature (SciTemp®) are pre-calibrated and come in five different sizes, ranging from Luer, 3/8¨ Barb, 1/2¨ Barb, 3/4¨ TC to 1.0¨ TC accommodating the industry’s need for system scalability. The performance characteristics of the sensor range are summarized below.

Disposableflowthrough flowthroughsensors sensors Disposable Disposable flowthrough sensors

•  Temperature • •  Temperature Temperature Resolution: Resolution: Resolution: oC oC oC 0.01 0.01 0.01

•  Temperature • •  Temperature Temperature Range: Range: Range:

oC to +150 oCto oC oC -10 C -10o-10 to+150 +150oC •  Temperature • •  Temperature Temperature Accuracy: Accuracy: Accuracy: oC oC oC ±0.10 ±0.10 ±0.10

•  Sensor Type: • •  Sensor Type: Sensor Type: Epoxy-Coated Epoxy-Coated Epoxy-Coated Thermistor Thermistor Thermistor

®® ® SciTemp SciTemp SciTemp

•  Pressure •  • Pressure Pressure Resolution: Resolution: Resolution: 0.01 0.01 psi 0.01 psipsi

•  Conductivity •  • Conductivity Conductivity Resolution: Resolution: Resolution: 0.1 µS/cm 0.1 0.1µS/cm µS/cm

0 to psi topsi 60 00psi psi to60 60 psipsi •  Pressure •  • Pressure Pressure Accuracy: Accuracy: Accuracy: ±0.35 @ 60 ±0.35 @@60 ±0.35 60psi psipsi

•  Conductivity •  • Conductivity Conductivity Accuracy: Accuracy: Accuracy:

•  Pressure •  • Pressure Pressure Range: Range: Range:

•  Sensor Type: •  • Sensor Type: Sensor Type: Piezoresistive Piezoresistive Piezoresistive Sensor Sensor Sensor

®® ® SciPres SciPres SciPres

•  Conductivity •  • Conductivity Conductivity Range: Range: Range:

1 µS/cm to mS/cm 200 mS/cm 1 1µS/cm toto200 µS/cm 200 mS/cm

3 (0-100 µS (0-100 3 3µS µS) µS (0-100 µS)µS) 0.25 (10-200 mS) 0.25 mS (10-200 mS) 0.25 mSmS (10-200 mS) •  Sensor Type: •  • Sensor Type: Sensor Type: Gold 4-Electrode Gold 4-Electrode Gold 4-Electrode Conductivity Cell Conductivity Cell Conductivity Cell ®® ® SciCon SciCon SciCon

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Maintaining sterility of single-use purification platforms is of the highest importance. Thus field calibration of sensors and insertion of sensors into a pre-sterilized purification manifold is not an acceptable option because of the obvious contamination concerns. A primary, post-use sensor calibration is equally unacceptable because of uncertainty of the in-use sensor accuracy and precision. However, secondary post-use sensor performance verification may be useful to metrology departments provided the pre-use sensor performance is known and has been fully characterized. In this context, sensor characterization will answer the questions related to sensor performance after gammairradiation, steam sterilization (temperature >121° C) under pressure (~20psi) and exposure to high concentrations of NaOH (1.0 Normal). These are the conditions that sensors will be exposed to when integrated into downstream, single-use purification platforms. The Parker domnick hunter family of sensors has been designed to provide accurate data after exposure to such harsh and challenging conditions. Parker domnick hunter’s approach to sensor pre-calibration, sensor characterization and full sensor performance disclosure has been well received by the biopharmaceutical process community.

code contains the following sensor– specific information: CX-ZLLNNNN-MMYY CX = Pressure Sensor Connector C1 = Luer C2 = 3/8”Barb C3 = 1/2”Barb C4 = 3/4” TC C5 = 1.0” TC Z = Sensor Material Code, Z = 1, Polysulfone, Z = 2, Polypropylene L = Sensor Production Lot Number N = Sensor Serial Number M = Month of Sensor Calibration Y = Year of Sensor Calibration On request, Parker domnick hunter provides a sensor material traceability service which includes sensor extractable reports, and material lot certification, as well as product certificates of compliance.

Sensor Performance

Pre-Calibrated Sensors

For special sensor applications, Parker domnick hunter offers a customer specific sensor calibrationservice. For example, oxygen gas addition to singleuse bioreactor bags requires careful pressure monitoring. Depending on bioreactor bag size, excessive gas pressures in the 1-5 psi range may cause sudden rupture of the bioreactor. Users of single-use bioreactors frequently request gamma-stable pressure sensors that are calibrated at 5.00 psi and capable of monitoring low-level pressures, in the 1.00 to 5.00 psi range, with 1.5% accuracy.

In order to implement a sensor calibration, the sensor is exposed to a set of known calibration conditions. The sensor response is stored together with the calibration value. For example, the standard factory calibration procedure for the SciPres® pressure sensor calls for it to be calibrated at a 0.00 psi applied pressure and at a 30.00 psi applied pressure utilizing digital,NIST traceable pressure gauges. Based on the sensor response a sensor Calibration Factor (CF) and sensor Zero Offset (PZ) are calculated and stored in a proprietary sensor memory together with a unique sensor ID. For each SciPres® sensor, a sensor-specific Calibration Certificate is issued and accompanies the sensor shipment. The sensor ID

A similar problem exists when overfilling single-use bags causing an excessive build-up of internal bag pressure. If not relieved, the pressurebuild-up can cause bag rupture. Incorporating SciPres® sensors into the bag inlet will not only monitor the bag pressure but also stop filling operation when a user-defined pressure level has been exceeded. SciPres® monitor has digital alarm outputs that can be used for this purpose. Although the SciPres® pressure sensors have been safety-tested up to 90 psi, the standard operating range is limited to 60 psi. The SciPres® sensor calibrationcertificate includes the specific calibration points as well as the sensor-specific calibration fac-

tors (CF). The specific calibration factor variations from the lot average CF represent the variances within the manufacturing tolerances of the proprietary solid-state sensing element. The sensing element is covered by a medical grade silicone gel diaphragm (USP Class VI) capable of withstanding a 100-hour exposure to sodium hydroxide solution (1.0N). See ‘Sensor Performance Characterization’. When connected to SciPres® monitor, the sensor-specific CF value is used in a monitor-based correction algorithm that compensates for the slight sensor non-linearity. The pressure values displayed by the monitor as well as the pressure values communicated by the monitor’s analog (4-20mA) and digital outputs represent accurate, CF-corrected pressure values.

Sensor Performance Characterization All Parker domnick hunter sensors, including the SciPres® pressure sensors, have been performancetested under three different conditions. The sensor test protocols as well as test results are summarized below:

Post-Gamma Sensor Response: 14 randomly selected SciPres® pressure sensors were calibrated at 0.00 psi and 30.00 psi prior to gamma-irradiation at 38.4 kGy. Post-gamma sensor accuracy was determined at 0.00 psi and 30.00 psi of applied pressure, see Table I.

Pharmaceutical Solutions

Sensor Calibration

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Test Results: All sensors survived gamma-irradiation and tested accurately well within Parker domnick hunter’s established accuracy limit of +/- 0.35 psi. The postgammadata shows a group average of 29.96 psi (for 14 SciPres®, 3/4” TC) with a standard deviation of +/- 0.03 psi. Post-Autoclaving Sensor Response: Six randomly selected SciPres® sensors (1/2” Barb) were tested after repeated exposures (3x) to autoclave conditions, see Table II. The initial, factory calibration responses are tabulated under “Pre-Autoclave” heading. The ambient air vent as well as the electrical connector of SciPres® sensor was covered with autoclave tape and place into a Tuttnauer EZ9 Autoclave. Table II shows the autoclave conditions were maintained during the three test trials. After each trial, the SciPres® sensors were allowed to cool to room temperature and pressure tested at 0.00 psi and 30.00 psi. The SciPres® response data are listed under the ‘Post Trial’ columns. All trials were carried out with the original factory sensor calibration. No sensor re-calibrations were made before or during the three trials.

Pharmaceutical Solutions

Test Result: All of the tested SciPres® sensors survived autoclave conditions. For the tested sensors (6), the group average ranged from 29.99 to 30.11 with an average standard deviation of +/- 0.06 psi. However, sensor accuracy became increasingly compromised after two autoclave cycles. For accurate performance, SciPres® sensors are limited to two autoclave cycles. Sodium Hydroxide Exposure Test: Six randomly selected SciPres® sensors (Luer) were tested after a 100-hour exposure to 1.0 N sodium hydroxide solution at 22 °C and at 10 psi line pressure, see Table III. The sodium hydroxide solution was continuously re-circulated (150ml/min) through the sensors using a peristaltic pump. At 25 hour intervals, the exposure test was briefly interrupted, the sensors were flushed with distilled water and tested at 0.00 psi and 30.00psi.

Test Result: The data show a stable sensor accuracy and precision over the 100-hour exposure to 1.0 N sodium hydroxide solution. For the four timed exposure tests, the group averages ranged from 30.06 to 30.08 psi with an average standard deviation of +/- 0.06 psi. All sensor responses were monitoredwith a digital, NIST-traceable gauge.

Sensor Accuracy & Precision The SciPres® sensor accuracy, based on performance data sensor lot of 250 sensors, has been established to be +/- 0.35 psi for the 0 – 60 psi applied pressure range. “Out-of-box” sensor performance has been tested. For 12 randomly selected, factory precalibrated SciPres® sensors. The “Outof-Box” accuracy was 30.07 psi +/- 0.07 psi (NIST test pressure: 30.00 psi) with test results ranging from 29.96 to 30.19 psi. The full benefit of single-use purification platforms, i.e. normal flow filtration, tangential flow filtration and

chromatography, can only be achieved through automation. Automated, sensor-based fluid handling systems and connectivity (OPC) to a digital automation system, e.g. Delta V, are critical steps to realizing the full benefits of single-use purification platforms in GMP production. Parker domnick hunter has made a commitment to providing pre-calibrated, single-use sensor technology and associated data acquisition modules to the biopharmaceutical industry. Parker domnick hunter’s scalable sensors provide stable performance after exposure to gamma-irradiation, steamsterilization and extended exposure to 1.0 N sodium hydroxide solution. The Parker domnick hunterfamily of sensors is designed and manufactured to provide accurate data after exposure to such harsh and challenging conditions. Parker domnick hunter’s approach of sensor pre-calibration, sensor characterization and full sensor performance disclosure has been well received by the biopharmaceutical community.

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Parker Life Science Suomessa Parker Hannifin Oy Koivupuistontie 18-22 FI-01510 Vantaa www.parker.com/medical www.parker.com/pharma lifescience.finland@parker.com

Myynti:

Tekninen tuki:

Minna GrĂśning

Ville Karlsson

Sales Manager

Tech Support Manager & Automaatiotuotteet

Puh. 020 753 2212

Puh. 020 753 2358

minna.groning@parker.com

techsupport.finland@parker.com

Asiakaspalvelu:

Tekninen tuki:

Jonna Pietilä

Jouni Lindqvist

Customer Service Manager

Suodatustuotteet; Domnick Hunter, Balston

Puh. 020 753 2304

Puh. 020 753 2320

parker.finland@parker.com

techsupport.finland@parker.com

Asiakaspalvelu: Eveliina Bruun Key Account Coordinator Puh. 020 753 2272 parker.finland@parker.com

Trade Shows and Events 2014 Start date 02.05. 07.05. 01.06. 09.09. 24.09. 12.11.

Event name Vascular Access for Hemodialysis Symposium MD&M Texas World Congress of Vascular Access (WoCoCA) Medical Manufacturing Asia Analytica China Medica Trade Fair

Location Dallas, Texas USA Texas, USA Amsterdam, NL Singapore Shanghai, China Dusseldorf, Germany

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METSÄALAN AMMATTILEHTI

Together, we can create innovative medical Yhdessä vaikeimmatkin työt. devices so people getpystymme more tekemään out of life.

Tutustu uuteen sähköiseen tuotekatalogiimme osoitteessa Parkerilta löydät oikean kokoiset kiinteäja muuttuvatilavuuksiset pumput tarpeisiisi. Useiden vuosikymmenten tiivis yhteistyö vaativien käyttäjien kanssa varmistaa, että www.parker.com/lifesciences/rg pumppumme toimivat luotettavasti ja tehokkaasti vaikeimmissakin ympäristöissä.

Lujat ja toimintavarmat pumput ovat kuitenkin vasta alkua antoisalle asiakassuhteelle, sillä niiden lisäksi saat käyttöösi pätevän sovellusosaamisemme sekä paikallisen tuen kaikkialla maailmassa. Yhteistyössä Parkerin kanssa lähes kaikki on mahdollista. Yhdessä pystymme luomaan tuottavampia, toimintavarmempia ja ympäristöä säästäviä koneita. Hiljaisempia, kompaktimpia, vähemmän kuluttavia ja kannattavampia koneita, jotka vahvistavat kilpailukykyäsi!

www.parker.com/medical www.parker.com/pharma www.parker.com/diagnostics www.parker.com 020-753 2500