What are the principles of a direct opthalmoscope
light is focused by series of condenser lenses onto prism system
light illuminates retina and returns reflected light
examiner oberves reflected light from ret thru sight hole
What are the 4 apertures on an opthalmoscope
Name the graticules and filters on ophalmoscope
Ads of direct opthalmoscopy
direct view of REAL and ERECT image
excellent mag (x15)
allows for gross examinationof external eye
no set px posture required
portable
no power supply required so ideal for domiciliary
Disads of direct opthalmoscopy
need to be able to use both eyes and both hands
requires very close WD= px/examiner unconfortable/ anxious
FOV limited = 8’
high mopics have reduced FOV so ask px to keep Rx = increased WD and reflections ( consider indirect)
instrument mag not variable
hyperope= minified image= may miss suble ret changes
Mono view only = no stereopsis= cant determine disc cupping or ret odemema
Poor view if media opacities present
when is direct more beneficial than indirect?
young children - cant sit still
px with mobility issues/ domiciliary
high mag helpful to view:
subtle changes in ret vasculature
calibre of arterial light reflex
diabetic ret ( fine dot haemorrhages)
which are the binocular indirect vs monocular indirect methods
bino:
slit lamp binocular indirect opthalmoscopy (VOLK)
head mounted binocular indirect
mono:
Welch- Allyn Panoptic
Keeler wide angle twin mag
What is the basic optical principal of indirect opthamoscopy?
uses high +VE condensing lens - makes the yey highly myopic
emergent rays produce REAL& AERIAL & INVERTED & LATERATALLY INVERSED image
Ads of VOLK
binocular stereoscopic view - see OD margin, macula oedema, rasied ret lesions
increased FOV
less WD = less intrusive
SL mag can vary
use in conjuction with SL filters (red free)
incorporate into SL routine
view is independent of px Rx
incorporate SL photography
Disads of VOLK
image is upside down and lateraly inverted so flip record/mentally invert
not portable (dom)
challenging with samll pupils
young pxs limitations- chin cant it on chinrest/not tall enough
px comfort - bright light/neck issues/ wheelchair px
features of the Welch-Allyn Pan-Optic
mono indirect, but image is erect
suitable for amblyopic examiners bz mono + longer WD
can examine R&L with same eye
25’ FOV
greater WD
“glare extinguishment system” prevents unwanted glare and reflections
Benefits of digital imaging methods/ non mydriatic cameras
high 2D imaging
allows for permanent didgital record of retina
quick and easy to perform
FOV is good ( 40 - 50’)
automated func eg. autofocus, autoalighment, autocapture. allows for delegation
***DISAD- limited by patient pupil size
Features of Optos Panoramic200
200 degree panoramic image of ret
2 diff wavelengths of light:
green layer = anterior retina
red layer= posterior/ choroidal
when does CD ratio increase/ decrease?
increases in glaucoma
decreases in papilloedema
What is HBIO and how does it work?
Head-mounted Binocular Indirect Opthalmoscopy
light from internal light source is directed into px eye
+ve lens held near to px eye
biconvex, aspheric condensing lens
light reflected off retina= real + laterally inverted image
Gullsrand reflex free system i.e illumination and emerging light paths are seperate (slit lamp and opthalmoscope)
Ads and Disads of HBIO
Ads:
wide FOV
high quality stereoscopic image
comfotable distance for px
better fundus view through media opacities
Disads:
requires mydriasis
image is inverted = complicates recording of abnormalities
high level of illuminance= uncomfortable for px
px should ideally be supine ( can be done with wheelchair px sitting)
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