Why do we need to measure IOP-
normal pressure to maintain shape of eye
What happpens if IOP too high?
Chronic raised IOP= damage to RNFL = primary open angle glaucoma
if raised IOP + no other symptoms = ocular hypertension = risk factor for glaucoma
Acute raised IOP= from narrow angle= angle closure glaucoma
What happens if IOP is too low?
ocular hypotony- IOP<8mmHg
occurs as result of ret detachment, trauma, surgery
When is tonometry essential?
narrow AC angles,
sus optics discs,
VF loss
sudden pain,nausea, photophobia, halos around light, red eyes - acute closed angle glaucoma
findings of inflammation in anterior chamber
px on long term steroids- increase IOPs
family history of glaucoma
age- above 35
afro-caribbean + SE asian px
How is Imbert Fick Law modified for IOP measurement and why?
bz cornea is not perfectly spherical, dry, flexible, elastic and infinitely thin
moisture creates surface tension (S) - attracts weight towards eye
corneal rigidity (B) - resists incoming weight
Goldmann said, S and B cancel out each other if internal area being applanated is 7.35mm²- acheived when diameter of external area is 3.06mm.
1g applied force = 10mmHg of internal pressure
Factors affecting measured IOP
Thicker corneas ( measured with pachymeter) = elevated IOP
Age= increased IOP in 40-60 and post 70
Post menopausal = higher IOP
Diurnal variation of 3 to 6mmHg
sitting to lying = increased IOP
increase in ocular rigidity ( esp hyperopic eyes) = increased IOP
Tonometry classification
Manometry
OG method, allows for continuos measurement of IOP
most accurate BUT highly invasive
needs general anaesthetic
Digital palpation
Indentation - Schiotz
a plunger will indent a soft eye more than a hard eye ( more sinks = less IOP)
measures depth of indentation in response to known weight
topical anaesthetic
What is applanation tonometry?
measures IOP using force which flattens the cornea
area of cornea being flattened is constant
force is variable- higher force needed = higher IOP
GAT - Goldmann Applanation Tonometry
uses bi-prism
topical anaesthetic - assess risk
diamter of probe is 3.06mm
egse of cornea is visible with NaFl and cobalt blue light
dial calibratd in grams
mires have to be just touching
Errors in GAT and how to correct for astig
rings too narrow ( insufficient NaFl) = understimate IOP
ring to wide( too much NaFl) = overestimates IOP
if probe not on central cornea, one mire appear larger - need to withdraw tonometer and re-position in direction of lager mire. DO NOT RE-POSITION PROBE IN SITU - SCRATCH CORNEA
in astigmatic eyes, mires = elliptical - rotate prism
4D of WTR astig= IOP underestimated by 1mmHg
4D of ATR astig= IOP overestimated by 1mmHg
PAT- Perkins Applanation Tonometry
uses same bi-prism as GAT
handheld- ideal for domicilliary
battery operated light - ideal for domicilliary
Ads and disads of applanated tonometry
Ads:
accurate, reliable, repeatable
easy to perform
not very expensive
gentler on eye than non contact air puff method
Disads:
anaesthesia may be contraindicated in some pxs
risk of corneal abrasion
instruments need regular check of calibration- don manually
Rebound tonometry- how it works + ads and disads
Calibration of Perkins
same as Goldmann - use 2 known weights and observe mvt of probe in repsonse
weights applied onto probe itself- so change probe before using on px
remove batteries when calibrating becasue it adds to the opposition weight
How does non-contact tonometry work?
rapid air pulse to applanate cornea
IOP estimated by detecting force of air jet at applanation
3 components:
alighmnet system - to align px eyes
optoelectric applan monitering system = transmitter, receiver , timer
pneumatic system- generates air pulse
easy to use
desktop and heldhand
no anaesthetic required
multiple readings required
prefer to use non contact as screening, then refine with contact
What to record on a clinical record?
What to do after tonometry results
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