Fixation disparity basics
Type 3 curve
(0% distance/10% near) ◦ Exo fixation disparity ◦ Flattened BI region ◦ Poor adaptation in BO regio
Type 2 curve
(25% distance & near) ◦ Eso fixation disparity ◦ Flattened BO region ◦ Poor adaptation in BI regio
Type IV curve
(5% distance & near) ◦ Rare, whole curve is relatively flat
Type 1 curve
(70% distance/60% near) ◦ Flattened central area, steep peripheral tail
fixation disparity angle
<30 minutes of arc
Typical starting prism
1/2 associated phoria
Saladin card
OD sees right line of vertical measurment and upper line for horizontal
Measuring fixation disparity
Requires a fusion lock (seen by both eyes) Uses polarized nonius lines (OD blue, OS red) Mallet box Bernell test lantern AO vectographic slide Borish card Wesson card Saladin card Sheedy disparometer
what is the horopter centered around?
The horopter is centered around intersection of monocular lines of sight - NOT the target
why would Purposeful misalignment be used to maintain alignment
because fusional vergence is leaky -exophoria w/ exo disparity uses fusional convergence to prevent diplopia -exophoria with eso fixation disparity, allows for larger slip before diplopia
Esophoric patients typically have _____________ fixation disparities
eso
Exophoric patients typically have _____________ fixation disparities
eso or exo
exo fixation disparity
eyes intersect behind the target crossed disparity space smaller crossed area
eso fixation disparity
eyes intersect in front of the target target in uncrossed disparity space smaller uncrossed area
Patients with flat central regions are (more/less) likely to be symptomatic and (more/less) likely to adapt to prism
less more
Plotting the fixation disparity curve
measured by plotting fixation disparity with prism by alternating (BI/BO in 3D steps) till the pt reports diplopia X axis: BI prism demand left/BO prism demand right X Intercept is "associated phoria" Y axis: Eso fixation disparity up/exo fixation disparity down ◦ Y Intercept is fixation disparity without prism
Patients with steep central regions are (more/less) likely to be symptomatic and (more/less) likely to adapt to prism
more less larger fixation disparity=larger symptoms; vision therapy flattens the central area
Sheedy Disparometer
multipe sets of offset nonius lines that can be dialed in to detirmine the fixation disparity with various amounts of prism attaches to near rod, acc controlled by reading words on the cards around the lines Upper: vertical, OD sees right line (right line up = R hypo) Lower: horizontal, OD sees upper line (Upper line to the right = eso fixation disparity)
Target must be in _____________________ to avoid becoming dipolic
panums fusional area
Fast vergence
quick response leaky/ decays quickly tails of forced duction fixation disparity curve
Reasons for fixation disparity
random errors of alignment response to binocular stress Purposeful misalignment used to maintain alignment
Slow vergence
responsible for prism adaptation Shifting of deviation even with correcting prism 10 eso with 5 BO stays 10 eso Central portion of forced duction fixation disparity curve
BI prism and minus lens effect on fixation disparity
shifts fixation disparity more "eso" and less "exo"
BO prism and plus lens effect on fixation disparity
shifts fixation disparity more "exo" and less "eso"
when does a fixation disparity happen
when the monocular lines of sight do not coincide with the target
Can vergence demand alter fixation disparity?
yes
