SPORTS VISION Visual Performance of Contact Lenses Nick Dash BSc MCOptom DipASSV Sports Vision Specialist, University of Loughborough in the UK. Optometrist to the British Olympic Association English Cricket Board Lawn Tennis Association England Rugby Premiership Football Clubs Others……
Sports Vision – Visual Performance with Contact Lenses
Nick Dash
Nick Dash Optometrist CEO Sports Vision Institute www.skiCPD.org
“Think outside the box”
Sports Vision - Visual Performance with Contact Lenses
Agenda:
Golf (why CLs?)
What is Sports Vision?
Football – Rugby (activity based challenges)
Winter Sports (environmental challenges)
Vision is more than just 20:20
82% of all neural input to the brain during sport is visual
Vision Pathway • Lights Journey • Light path to the eye • Cornea • Crystalline lens • Retina • Nerves • Brain
Station 1. Light Manipulation • • • • •
Refraction Aberration control Contrast control Colour enhancement Improve peripheral vision
Station 2. Eye co-ordination We have six muscles acting on each eye. But two eyes (12 extra ocular muscles) need to balance in all directions Up Down Inwards
Station 3. Neural transmission • Neural transmission • Do some athlete see quicker than others?
Station 4. Cortical vision • • •
•
We see with our brain not our eyes This is learned over a life time of seeing the world. Our brains are most active when we are younger. So that is why you need to practice and start at a early age. So called 10,000 hrs to be elite as described by K. Anders Ericsson, Swedish Psychologist The Acquisition of Expert Performance in the Arts and Sciences,Sports and games 1991
Final station. Motor response • Reacting to the visual stimulus, in fast and accurate way.
Vision Journey 1. Light manipulation 2. Eye co-ordination 3. Neural transmission 4. Cortical vision 5. Motor responses
HARDWARE
SOFTWARE
Vision Journey 1. Light manipulation 2. Eye co-ordination 3. Neural transmission 4. Cortical vision 5. Motor responses
HARDWARE
SOFTWARE
Case Study: Golf
Preparation important
golf club distance to pin: 120 metres club: Iron 9 Tour Preferred
glove durability, stain resistance, and superior grip for wet and dry conditions glove: r9 Tour Glove
functional shirt comfortable, moisture transportation, quick drying shirt : Climacool速 with Coolmax速 Shirt
functiona l eyewear distortion free, contrast enhancement, comfortable fit, suitable for caps eyewear: adivista
= Equipment for your eyes
functional trousers
breathable, quick drying, moisutremanagement pants: Climalight速 Pleated Tech Pants
shoes
stable stand, waterproof, rotation stability, anti-clogging cleats, impact absorption shoe: Tour 360 4.0
ball distance, feel, spin, control ball: Penta TP
equipment has to meet the demands of the sport
composite materials are crucial for best equipment
th 14
Consider your club in the bag!
Hole 1 – on the
st 1
Tee
Hole 1 – addressing the ball
Hole 1 – addressing the ball
Drive for Show, Putt for $
Shot 3 – putting
Hole 2 – Par 3
• PRISMATIC DISTORTION
Peripheral Vision
Peripheral Distortion
Hole 2 – Par 3 Size effects
Hole 2- Putting
2-base
8-base
Putting accuracy study •
Induce a spectacle prescription by wearing contact lenses
•
Get players to wear the contact lenses and then neutralise the effect by wearing spectacles of different designs
•
Prescription chosen was that of a professional golfer
Effect of distortion
Spectacles vrs Contact Lenses
Putting CLs vs Rx Spectacles • 4ft,6ft,10ft,16ft putts • No RX, 5 base
• PRO
3.6 shots
• 12HC
5.4 shots
• 18HC
5.4 shots
Case Study Rugby •Guess Who? •& •What is he wearing? •
Rugby Football
Case Study Lewis Moody MBE (England Rugby)
Previous Daily Disposable SVS RE -2.00DS 6/4.5 LE -2.00DS 6/12-
15 deg exophoria (poor compensation) Accepting but aware of disparity that he had accepted as normal Handling difficult and team physio struggled
Case Study Lewis Moody MBE (England Rugby) Undiagnosed unilateral astigmatism
•
Unilateral astigmatism Daily Toric
• •
RE -2.00 DS 6/4.5 SDD LE -0.75/-1.75 @ 180 6/6 SDDfAstigmatism
(Well compensated squint) Improved Peripheral awareness, Catching, Better on field perception, Much better under floodlights.
Newer Variations of Dynamic Stabilisation Zones
Optic zone independent of peripheral stabilisation reliable stability across all powers
Representative blink
Perfecting a Lens Design - Lid Forces Static (Open eye)
Dynamic (Blink)
Objective: • Develop a contact lens by utilizing our expertise: – the eye’s anatomy – eyelid mechanics – blink / eye dynamics
Topograpy over CL showing intra blink instability of lens
Quick Alignment System
1 360 degree comfort chamfer 2. Prism Ballasting stabilising geometry 3. Refined optic zone 4. Balanced vertical thickness profile
Advanced Lo-TorqueTM Design Optics Front surface
Back surface
Aberration corrected wavefront
Aberrated wavefront
• Aspheric Anterior Surface – adjusts spherical aberration to balance positive spherical aberration of the eye, and contributes to defocus (sphere power) correction
• Posterior Toric Surface corrects astigmatic cylinder error and completes defocus and spherical aberration correction
Clear, stable vision
1 PRISM BALLASTING GEOMETRY
• Optimized thickness from apex to base of lens • Provides fast, stable orientation
3
2 360 COMFORT CHAMFER 4
1 2
• Uniform thin periphery • Reduces overall lens mass for synergistic lens/lid interaction • Enhances stabilization and maximizes comfort
3 REFINED OPTIC ZONES
• Anterior/posterior optic zone diameters adjusted to minimize variations in thickness • Uniform fitting across the entire lens range
BALANCED VERTICAL THICKNESS
4 PROFILE
• Uniform mid-peripheral at apex, center, and base of optic zone for vision stability
Knock Back
Left Trauma September 2011
Hyphaema Retinal Oedema Drop in acuity and central scotoma
• •
RE -2.00 DS 6/4.5 LE -0.25/-2.25 @ 160 6/24 phni
Left divergent squint 15 deg, loss of stereopsis Treated with NSIA to speed resolution Treated suppression that subsequently developed.
Proven training = Orthoptics
Eye muscle building for sport
Left Trauma Rehabilitation
• •
RE -2.00 DS 6/4.5 LE -0.75/-2.00 @ 170 6/9- niph (refitted with -0.75/-1.75 @160 6/12)
Treated suppression that subsequently developed Visual training to improve peripheral awareness and OMB Returned to Captain England 14 weeks after injury
Case study Winter Sports : Environmental Challenges • • • • •
Glare Contrast Distortion Dryness UV & Health Issues
Contact Lenses performance at altitude
Nick Dash
3rd February 2013 www.skiCPD.org
Eye on the Real World
Vision is!
Quality and Quantity
Visual performance
Ocular fatigue • “mild headaches” • “grittiness of the eyes” • Conjunctival Hyperaemia (Grade 2) • Corneal lower third Exposure Keratitis • Contact lens wearer is problematic resulting in removal and rewetting
UV altitude UV Index 12 10 8 6
UV Index
4 2 0 0
1000
2000
3000
4000
Measurements taken by N Dash June 2009 Geneva, Chamonix, Aiguille Midi (Mont Blanc)
• Every 300M altitude will increase the UV by 4 % (World Health Organisation, “W.H.O.”) • At an altitude of 3900M there is 50% more UV than Sea Level.
Peripheral light Why do we get this nasal phenomenon when the temporal zones are relatively more exposed? •
90 % of pingueculae are nasal and age related cataracts more evident in the nasal zones Coroneo et al, Kwok et al
•
Optical ray tracing indicates a concentration of light on the nasal limbus and nasal lens cortex. Extreme circumference of the corneal dome refracts oblique light to focal areas within the eye.. The light intensity arriving temporally on the eye is focused on the nasal limbus. Increasing UV levels by 20 times at the nasal limbus (Maloof et al)
• • •
Snow Blindness (Photokeratitis) Symptoms 1. Intense pain, eye watering unable to open eyes. 2. Pain grade 8 out of 10 3. Lasts 48hrs to 72 hours 4. Incapacitates individual for 72 hours Pathophysiology
•
•
UV rays irritate the superficial corneal epithelium, causing inhibition of mitosis, production of nuclear fragmentation, and loosening of the epithelial layer. An inflammatory response includes oedema and congestion of the conjunctiva and a stippling of the corneal epithelium known as superficial punctate keratitis (SPK). If SPK is severe, it may be followed by total epithelial desquamation, with conjunctival chemosis, lacrimation, and blepharospasm. Reepithelialisation usually occurs within 36-72 hours
Peripheral Rays • • • •
UV Fluorescence Photography Shown UV damage as young at 9yrs Increases with chronological age Increases with exposure to UV
Why 90 % of pingueculae are nasal • Up to 50% of UV can still reach the eye in some sunglasses (Meyer et al & Schneider) • •
.
Eye Lids DNA damage responsible for lid tumours • • • • • •
2% increase UV lead to increase 6% of squamous cell carcinoma (=1% depletion of ozone) 90 % of skin carcinomas are UV induced (Trevini Graedel &Crutzen) Brief acute UV seems to cause Melanomas, >10 yrs gestation period. Twice as many deaths in Southern States of US vrs Northern Eye protection from orbit but exposes temporal lid tissue. Levels of UV being twice the amount of the nasal area. Temporal lids are 12 time more likely to develop tumours than the nasal areas (Sakamoto et al)
Dry Eye Visual Stability and Quality • • • •
Dry Eye Symptoms Air movement Dry air Loss of tear film
• Reduced Tears exposes to UV and increases UV risk
Ocular exhaustion phenomenon (REE) 1. Questionaire to Mountain Guides based on McMonnies Questionaire.Early results suggest chronic and severe dry eye of all respondance with 5 or more years in mountain environment. 2. Chamonix Ophthalmogist report; awaiting questionaire‌ie incidence of Pterygium/Pingueculae/Most Common cause of pateints presenting/Incidence of Cataract and Macula Degeneration.
Case study – Bob Skeleton
What factors contribute to dehydration and “Dehydration Blur”?
Environmental Factors
Lens Factors • • • •
decreased oxygen transmission tighter fitting lenses change in lens power increased surface deposits
Dehydration Blur
Individual Factors
What works is Revolutionary Material – HyperGel™
Vision is key to performance Sports Performance Eyewear delivers
Clearer Sports Vision Performance Enhanced Optics Improved Visual Comfort Raising Performance in Sports
Biggest impact on performance • The biggest impact we can have on vision performance is to give the best optical correction or appliance.
See Better to Perform Better
THANK YOU