Download Spafford - Clinical Electrophysiology

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
page
21
page
22
page
23
page
24
page
25
page
26
page
27
page
28
page
29
page
30
page
31
page
32
page
33
page
34
page
35
page
36
page
37
page
38
page
39
page
40
page
41
page
42
page
43
page
44
page
45
page
46
page
47
page
48
page
49
page
50
page
51
page
52
page
53
Document related concepts
no text concepts found
Transcript 
CLINICAL ELECTROPHYSIOLOGY:
Plugging into the visual system
Marlee M. Spafford, OD, MSc, PhD, FAAO
COPE Personal Disclosure
For this lecture, I have:
 developed the course material independently
 developed the course material without commercial interests
 no personal conflicts of interest
 no financial relationship with a commercial interest
Basic Electrodiagnostic Equipment
 Specialized computer hardware & software
 >$100,000 Cn
Pattern stimulator
Ganzfeld (flash stimuli)
http://www.diagnosysllc.com/home/
Visual Electrodiagnostic Tests
 Electroretinogram (ERG)
 Electro-oculogram (EOG)
 Visually Evoked Potential (VEP)
Electroretinogram (ERG)
 Reflects global changes in retinal electrical
potential in response to flash or pattern stimuli
http://webvision.med.utah.edu/ClinicalERG.html
Electro-oculogram (EOG)
 Records the ocular standing electrical potential
 Dark-adapted with light-adapted
 Reflects gross outer retina/RPE function
+
-
http://brainconnection.positscience.com/med/medart/l/eye-xsection-side.gif
http://webvision.med.utah.edu/ClinicalERG.html
Visually Evoked Potential (VEP)
 Assess macular-cortical pathway’s gross integrity
Record
http://www.metrovision.fr
http://www.aph.org/cvi/brain.html
Patient #1: 6-yr-old male
 VEP referral (family OD):
 Reduced VA, not corrected by spectacles: meridional amblyopia?
 OD: -1.00/-3.00 x 170
 OS: -2.00/-3.50 x 180
6/12
6/15
 Interview:
 Ocular Hx:
 1st Rx @ 4 yrs
 Nyctalopia: “always trips in the dark”
 Health Hx:
 Unremarkable
 Birth Hx:
 Polydactyl (surgery @ 1 yr)
 Negative family hx of eye disease
 1 step-brother (“normal” vision)
 No parental consanguinity
http://www.medes-salud.com.ar/causas.htm
Nyctalopia
 Causes:
 Problem Specific Testing:
 Retinitis pigmentosa (RP)
 DFE
 Choroideremia
 Visual fields
 Congenital stationary night
blindness (CSNB)
 Pan-retinal laser surgery
 Vitamin A deficiency
 Non-retinal
 Night myopia
 Optical defects (e.g., cataract)
 Automated > 30o; Goldmann
 ERG (full field ERG)
 Colour Vision
 adults; B-Y & R-G defects
DFE
http://www.scielo.br.proxy.lib.uwaterloo.ca/scielo.php?script=sci_arttext&pid=S0004-27492009000500019&lng=en&nrm=iso&tlng=en
Bardet-Biedl Syndrome
 AR inheritance
Cardinal Features (4 of 6)
 1/179 carry gene

 Progressive vision loss
 Nyctalopia
 Constricted Fields
 Acuity loss

 Optometrist duties:
 Low vision care
 Referral for genetic work-up
 Referral to nephrologist




Retinal dystrophy (RP)
Polydactyly
Obesity
Cognitive impairment
Hypogonadism
Nephropathy
Retinal-based Function Tests
 ERG
 Full-field ERG: fERG (typical referral)
 Pattern ERG: pERG
 Multi-focal ERG: mfERG
 EOG
Full-field ERGs
 Assess the gross integrity of the outer 2/3rds of the neural retina
 Good test for:
 widespread retinal diseases
 vision loss that changes with lighting conditions
fERG
http://webvision.med.utah.edu/ClinicalERG.html
fERGs
 Standardized fERG protocol exists:
 ISCEV standard: 2008
(International Society for Clinical Electrophysiology of Vision)
 Dark adapt (>20 min): scotopic ERGs (rod-isolated & rod-cone mixed)
 Light adapt (>3 min): photopic ERGs (cone-isolated)
http://webvision.med.utah.edu/ClinicalERG.html
Measuring fERGs
 a-wave: Amplitude & implicit time
 b-wave: Amplitude & implicit time
http://webvision.med.utah.edu/ClinicalERG.html
fERG Components
 a-wave: Photoreceptors
 b-wave: Müllers & On-Bipolars
 Oscillatory potentials (OPs): Amacrines
http://webvision.med.utah.edu/ClinicalERG.html
ISCEV Recording Electrodes
 Gold Standard
 Contact lens electrode
(e.g., Burian-Allen Speculum Contact Lens Electrode)
 Bipolar electrode design
 CL: active
 Speculum: reference
http://fn.bmjjournals.com/content/82/3/F233.abstract
ISCEV Recording Electrodes
 Other ISCEV Electrodes
 DTL Fiber
 Gold foil
 HK loop
http://www.diagnosysllc.com/products/product5.php
http://www.nature.com/eye/journal/v21/n6/fig_tab/6702309f2.html
DTL Fiber Electrode Insertion
Ganzfeld View
Chin Rest Prep
ERG Recording
ERG Recording
Simulated fERG Normative Database
(Amplitude [µV]: 20-39 yrs)
Response
S
Component
Rod
Maximal
OPs
Cone
P
Flicker
b-wave
b-wave
a-wave
OP2
b-wave
a-wave
W1
100th
347.27
686.33
367.97
141.41
286.33
159.38
254.30
50th
235.16
437.50
244.14
72.66
203.91
112.11
123.44
Supernormal = > 100th percentile
WNL = ≥ 5th percentile
Diminished = < 5th percentile
5th
184.77
312.89
162.11
33.59
152.74
79.69
98.83
0th
181.64
277.89
140.24
22.66
143.73
76.96
87.11
Diagnostic Uses of fERG
 Inherited retinal disorders
 RPE photoreceptor disease, photoreceptor disease,
chorioretinal dystrophies, vitreoretinal dystrophies
 Retinal ischemic disease
 diabetic retinopathy, central retinal vein occlusion,
carotid artery stenosis, sickle cell retinopathy
 Pre-surgical evaluation
 obstructed retina due to cataract, hemorrhage or
penetrating injury
 Retinal toxicity
 hydroxychloroquine
 Unexplained vision loss
fERG: RPE-Photoreceptor Disease
rod
maximal
flicker
cone
http://webvision.med.utah.edu/ClinicalERG.html
fERG: Photoreceptor Disease
rod
maximal
flicker
cone
http://webvision.med.utah.edu/ClinicalERG.html
fERG: Photoreceptor Disease
rod
maximal
flicker
cone
http://webvision.med.utah.edu/ClinicalERG.html
pERG (seldom done)
 Reflects central retinal response (incl. ganglion cell)
 Macular disease
 Toxic/nutritional disease
 Unexplained central vision loss
 2012 ISCEV standard
http://www.diagnosysllc.com/home/
http://www.iscev.org/standards/perg.html
mfERG
 2011 ISCEV standard
 Topographical measure of outer 2/3rds of retina
 ~60-100 small retinal areas
 Local ERGs are mathematical extractions of the signal
 Dilated pupils; fiber electrode
www.Cephalon.dk
http://webvision.med.utah.edu/ClinicalERG.html
Diagnostic Uses of mfERG
 Macular disease
 e.g., Stargardt Disease, ARMD
 Unexplained central vision loss
mfERG
ARMD mfERG
Normal mfERG
Electro-oculogram (EOG)
 Seldom done
 2010 ISCEV standard
 Reflects global outer retina/RPE function
 Clinical diagnostic use:
 Best vitelliform macular dystrophy (rare, AD inheritance)
EOG
http://img.medscape.com/pi/emed/ckb/ophthalmology/1189694-1227128-71.jpg
EOG
Eyes have a ‘standing potential’
Cornea positive; RPE negative
Derived from RPE; changes with retinal illumination
Potential decreases in dark; increases in light
Test involves:
Making lateral saccades through a dark & light phases
+
http://www.iscev.org/standards/pdfs/eog-standard-2006.pdf
-
http://brainconnection.positscience.com/med/medart/l/eye-xsection-side.gif
EOG Arden Ratio
 Light peak (LP)/dark trough (DT)
 >2.0: normal
 1.5 to 2.0: borderline
 <1.5: abnormal
http://www.iscev.org/standards/pdfs/eog-standard-2006.pdf
Patient #2: 9-yr-old male
 VEP referral (family OD):
 Fine, mostly pendular, horizontal nystagmus, photodysphoria &
reduced VA: albinism?
 OD: +3.00/-1.00 x 150
 OS: +2.50/-0.50 x 020
6/24
6/21
 Interview:
 Ocular Hx:
 Congenital nystagmus
 Health Hx:
 Unremarkable
 Negative family hx of eye disease/low vision
 No parental consanguinity
http://www.kilgorevision.com/stories.htm
Ocular Albinism (OA)
 X-linked recessive
(GPR143 mutation at Xp22.3-22.2)
 Evidence of carrier status
 iris illumination
 ‘mud-spattered’ fundus
Main Features


pendular)
 hypopigmented skin macules

 Optometrist duties:

 Strabismus Dx/Mx

 Low vision care

 Referral for genetic work-up
Sl. lighter hair & skin
complexion (not necessary)
Nystagmus (most horizontal &
Iris tranillumination
Macular hypoplasia
Fundus hypopigmentation
Visual pathway
decussation abnormality
Albinism: Problem Specific Testing
 Ocular Motility
 Iris tranillumination
 DFE
 VEP
 OCT (nystagmus preclude?)
http://journals1.scholarsportal.info/tmp/1186526813808035824.pdf
Visually Evoked Potential (VEP)
 Assess macular-cortical pathway’s gross integrity
Record
http://www.metrovision.fr
NOTE:
VEP = VER = VECP
(latter 2: older terms)
http://www.aph.org/cvi/brain.html
Visually Evoked Potentials (VEPs)
 Types of clinical-based VEPs
 Pattern: pVEP
 2009 ISCEV standard
 Full-field: fVEP
 2009 ISCEV standard
 One example of research-based VEPs
 Sweep: sVEP
 No ISCEV standard yet
VEP Stimuli
pVEP
fVEP
NOTE:
pVEPs can be reversing checkerboards or gratings
http://www.metrovision.fr
http://webvision.med.utah.edu/ClinicalERG.html
ISCEV Recording Electrodes
 Scalp silver-silver chloride or gold disc surface
electrodes
 ISCEV standard:
 1 active (3 better) plus 1 reference electrode
www.lkc.com
VEP Electrode Placement
 International 10-20 system for electrode placement
ISCEV Ref
ISCEV Active
z
http://www.brainmaster.com
VEP Electrode Placement
 Multi-channel placement
 Pre-chiasmal: Better
 Post-chiasmal: Required
OZ
http://www.opt.indiana.edu
http://www.brainmaster.com
Measuring pVEPs
P100:
 Cortical response (Amplitude in μv) to
checkerboard reversal (IT: Implicit time ~100ms)
Transient VEP (<4Hz)
Amp
IT
http://www.iscev.org/standards/pdfs/vep-standard-2004.pdf
Simulated pVEP Normative Database
(Implicit Time [ms]: 20-39 yrs)
Check Size
4'
8'
16'
32'
64'
128'
256'
Component
P-100
P-100
P-100
P-100
P-100
P-100
P-100
100th
120.28
113.28
101.56
102.34
103.91
101.56
101.56
50th
125.00
122.66
112.50
106.25
107.81
109.38
110.94
WNL = ≤ 5th percentile
Delayed = > 5th percentile
5th
136.72
128.91
117.97
117.19
110.94
114.06
118.75
0th
142.19
128.91
121.88
128.00
118.75
121.88
120.12
Measuring fVEPs
P2:

Cortical response to 1 Hz flash stimulus (amplitude in μv;
IT: Implicit time ~100ms)

fVEP useful when pVEP fails
Amp
IT
http://www.iscev.org/standards/pdfs/vep-standard-2004.pdf
Diagnostic Uses of pVEP
 Optic nerve disease
 Optic neuritis (recovery more than dx); compressive optic
neuropathy; Leber’s hereditary optic neuropathy (LHON)
 Post-chiasmal disease (with multiple-channels)
 Demylinating disease; ocular albinism
 Amblyopia
 Psychogenic vision loss
 Unexplained vision loss
Optic Neuritis
http://opt.pacificu.edu/test/index.html
Visual Pathway Asymmetry
Albinism
~55% decussate
++
++
++
~80% decussate
+
++
+++
http://www.nature.com/eye/journal/v21/n10/images/6702839f3.jpg
Visual Electrophysiology in Canada
 Specific Locations:
 UW Electrodiagnostic Clinic (Waterloo)
 UM Clinique de la Vision (Montréal)
 University of Ottawa Eye Institute (Ottawa)
 Ivey Eye Institute (London)
 HSC Visual Electrophysiology Unit (Toronto)
 St. Michael’s Hospital (Toronto)
 Toronto Western Hospital (Toronto)
 VEP only
Visual Electrophysiology in Canada
 Other Locations? Good question!
 There is no Canadian registry for VE services
 Based on existing research activity, hospital-based,
university-based VE clinical services likely exist in:
 Vancouver (UBC)
 Calgary (UofC)
 Edmonton (UofA)
 Montreal (Laval & McGill)
 Halifax (Dalhousie)
 Other cities may also provide VE services
CLINICAL ELECTROPHYSIOLOGY:
Plugging into the visual system
Marlee M. Spafford, OD, MSc, PhD, FAAO
Related documents