Glaucoma Diagnosis & Tracking with Optical Coherence...
Transcript of Glaucoma Diagnosis & Tracking with Optical Coherence...
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Glaucoma Diagnosis & Tracking with Optical
Coherence Tomography
David Huang, MD, PhDCharles C. Manger III, MD Chair of Corneal Laser SurgeryAssoc. Prof. of Ophthalmology & Biomedical Engineering
Doheny Eye Institute, University of Southern California
Financial Interests:Optovue, Inc.: stock options, patent royalty, travel, grantCarl Zeiss Meditec, Inc.: patent royalty
R01 EY013516 www.AIGStudy.net
Site PI: James G. Fujimoto, PhD
Consortium PI: David Huang
MD, PhD
Site PI: Joel S. Schuman, MD
Site PI: David Greenfield, MD
Site PI: Rohit Varma, MD, MPH
Yimin Wang, PhD
Ou Tan, PhD
Vikas Chopra, MD
Xinbo Zhang, PhD
Brian Francis, MD
Carolyn Quinn, MD
Krisha S. Kishor, MD
Mitra Sehi, PhD
Robert Noecker, MD
Gadi Wollstein, MD
Hiroshi Ishikawa, MD
Larry Kagemann, MS
Robert DiLaura Sharon Bi, MCIS
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The Rationale for Quantitative Imaging in Glaucoma Diagnosis
David Huang, MD, PhD www.COOLLab.net
Visual field has poor repeatability
OHTS: 85.9% of abnormal and “reliable” fields were not confirmed on retest!
David Huang, MD, PhD www.AIGStudy.net
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3 consecutive fields are required to reliably confirm glaucoma!
“The proportion of VF test results that were normal subsequent to a VF POAG end point in eyes whose abnormality was confirmed by 2 consecutive, abnormal, reliable test results was significantly higher (73 [66%] of 110) compared with eyes whose abnormality was confirmed by 3 consecutive, abnormal, reliable test results. (46 [12%] of 381) (P=.01).”
Keltner et al. for the Ocular Hypertension Treatment Study Group, Arch Ophthalmol 123:1201 (2005).
David Huang, MD, PhD www.AIGStudy.net
Structural loss precedes functional loss
Disc change precedes VF loss in most cases
David Huang, MD, PhD www.COOLLab.net
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VF Normal OCT Abn. GDX Abn. HRT Abn
N T
N T
N T
MD -1.2 dBPSD 1.75 dB
MD -1.73 dBPSD 1.62 dB
MD -1.77 dBPSD 1.71 dB
Quantitative Imaging may detect glaucoma at an earlier stage
David Huang, MD, PhD www.COOLLab.net
Why use OCT?(rather than other imaging modalities)
David Huang, MD, PhD www.COOLLab.net
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StratusTD-OCT
GDx-ECCScanning Laser Polarimetry
HRT2Scanning Laser Tomography
Let’s compare diagnostic accuracy
David Huang, MD, PhD www.COOLLab.net
Stratus OCT had significantly better diagnostic accuracy (best combination of continuous variables)
Continuous scale AROC P. v. OCTStratus: overall,Inferior or superior quadrant RNFL
0.92
GDx-ECC NFI 0.87 0.006HRT2C/D area ratio 0.83 0.0008
Lu ATH, Wang M, Varma R, Schuman JS, Greenfield DS, Smith SD, Huang D; Advanced Imaging for Glaucoma Study Group. Combining nerve fiber layer parameters to optimize glaucoma diagnosis with optical coherence tomography. Ophthalmology 2008;115:1352-7
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Paper AROC # SubjectsStratus GDx-VCC HRT2 N G
Pueyo et al.J. Glaucoma 2007
Overall RNFL 0.91
NFI 0.88*
MRA 0.90
66 73
Pueyo et al. ARCH SOC ESP OFTALMOL 2006
Overall RNFL 0.93
NFI 0.88
Mikelberg 0.90
66 74
Medeiros et al. Arch Ophthalmol. 2004
Inferior RNFL 0.92
NFI 0.91
LDF 0.86
66 75
Zangwill et al.Arch Ophthalmol. 2001
5 o’clock RNLF 0.87
LDF0.84
MHC N/I 0.86 50 41
NFI = nerve fiber index; MRA = Moorefields regression analysis; LDF = linear discriminant function; MHC = mean height contour, N/I = nasal/inferior
Previous literature comparisonsDavid Huang, MD, PhD www.COOLLab.net
More accuarate NFL mapping with FD-OCT
David Huang, MD, PhD www.COOLLab.net
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TD-OCT susceptible to eye movements
1. Koozekanani, Boyer and Roberts. “Tracking the Optic Nervehead in OCT Video Using Dual Eigenspaces and an Adaptive Vascular Distribution Model”; IEEE Transactions on Medical Imaging, Vol. 22, No. 12, 2003
•768 pixels (A‐scans) captured in 1.92 seconds is slower than eye movements
•Stabilizing the retina reveals true scan path (white circles)1
Scan location and eye movements affect results
T S N I T T S N I T T S N I T
Properly centered
Normal Double Hump
Poorly centered: too inferior Poorly centered: too superior
Inferior RNFL “Loss” Superior RNFL “Loss”
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RTVueFD-OCT
Optic NerveHeadMap
(ONH)
9510a-scans
0.39 sec
FD-OCT can scan more points in less time –sampling greater area with less motion error
David Huang, MD, PhD www.COOLLab.net
New advances from the Advanced Imaging for Glaucoma Study:
Mapping the Ganglion Cell Complex to Further Improve Glaucoma Diagnosis
and Tracking
David Huang, MD, PhD www.COOLLab.net
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Glaucoma affects 3 areas in the posterior segment of the eye
Cupping
Nerve fiberthinning
Ganglion cell lossDavid Huang, MD, PhD www.COOLLab.net
Glaucoma preferentially thins the Ganglion Cell Complex (GCC) which includes the axons, cell bodies, and dendrites of retinal ganglion cells
Normal
Glaucoma with thinner GCC
GCC
GCC
NFLGCL
IPL}GCC
Ishikawa H , et al., IOVS 2005 Tan O, et al., Ophthalmology, 2008;115:949-56.
David Huang, MD, PhD www.AIGStudy.net
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Ganglion Cell Complex (GCC) 7 mm scan area
14,944 a-scans, 0.58 sec
GCC = Ganglion Cell Complex
Glaucoma: Macular Ganglion Cell Mapping
RTVue FDRTVue FD--OCT, OCT, 26,00026,000 AA--scan scan perper--secondsecond55 micron axial micron axial resolutionresolution
mGCC thickness map
NFLGCL
IPL}GCC }Retina
micron
David Huang, MD, PhD www.AIGStudy.net
GCC Deviation Map
color coded mapPercent loss value at each pixel location relative to normal based on age-adjusted normative database of over 300 healthy eyes
Blue = thinning 20-30% relative to normalBlack = 50% loss or greater
% loss =
actual scan value – normal valuenormal value
David Huang, MD, PhD www.AIGStudy.net
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GCC Significance Map
color coded map shows regions where the change from normal reaches statistical significance
Green = values within normal range (p-value 5% to 95%)Yellow = borderline results (p-value < 5%)Red = outside normal limits (p-value <1%)
David Huang, MD, PhD www.AIGStudy.net
FD-OCT GCC mapping provide excellent diagnostic accuracy for glaucoma
OCT system ThicknessParameter
AROC
RTVueFD-OCT
mGCC-Avg 0.90
mGCC-GLV 0.92
mGCC-FLV 0.92
StratusTD-OCT
cpNFL-Avg 0.92
mR-Avg 0.85 P=0.01
Tan O, Chopra V, Lu ATH, Schuman JS, Ishikawa H, Wollstein G, Varma R, Huang D, Detection of macular ganglion cell loss in glaucoma by Fourier-domain optical coherence tomography. Ophthalmology 2009; 116:2305-2314
Global Loss VolumeFocal Loss Volume
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Combining measurements from all 3 anatomic regions with machine learning classifiers further boosted diagnostic accuracy
Diagnostic Parameter
AROC Sensitivity (at 5 percentile cutoff)
Support Vector Machine (SVM)
0.963P < 0.02
86%P < 0.01
Best NFL 0.924 67%
Best GCC 0.920 68%
Best Disc 0.886 56%
85 normal eyes, 72 perimetric glaucoma eyesDavid Huang, MD, PhD www.AIGStudy.net
High-speed FD-OCT allows correlation of glaucoma disease patterns – Pre-Perimetric Glaucoma
T N
PatternDeviation
Peripapillary NFL loss Macular GCC loss (FLV p<1%)
Focal rim thinningVisual field “normal”Vikas Chopra, MD
RTVue™
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FD-OCT improved the repeatability of macular ganglion cell complex compared to TD-OCT circumpapillary nerve fiber layer measurements, thus improving the potential to track glaucoma over time
OCT system Thickness Parameter CV (%)
Group N PPG PG
RTVueFD-OCT
mGCC-avg 1.09 1.23 1.25
StratusTD-OCT
cpNFL-avg 1.72 1.75 2.86
David Huang, MD, PhD www.AIGStudy.net
2x
Rule of thumb for progression analysis
Stratus NFL overall average: 10% loss significant, if confirmed on repeat visitRTVue GCC overall average: 5% loss significant, if confirmed on repeat visitIf IOP more than 2 mm Hg different, the comparison may not be reliable
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GCC Progression Analysis (visit every 6 months)
David Huang, MD, PhD www.AIGStudy.net
5% lossconfirmed
RTVue™
OCT angle imaging is also useful for the glaucoma specialist
Yan Li, PhD Bing Qin, MD
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Schlemm’s canal
Trabecularmeshwork
Scleral spur
Cornealendothelium
Schwalbe’s line
External limbus
OCT provides near-histological details of angle structures
AOD_SL
David Huang, MD, PhD www.COOLLab.net
Narrow Angle
RTVue™
Open Angle
Schwalbe’sline
External limbus
Scleral Spur
Trabecularmeshwork
Schlemm’s canal
AOD_SL= 473 µm
David Huang, MD, PhD www.COOLLab.net
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Neovascular Glaucoma with Synechial Angle Closure
Schwalbe’sline
PASIrisvessel
Scleralvessel
Courtesy of Brian Francis, MD; Doheny Eye Institute
EL
SLTMR
TC IR
SS
Iris
After Trabectome Surgery
Courtesy of Brian Francis, MD; Doheny Eye Institute
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FD-OCT provides more information than other advanced imaging technologies
FD-OCT SLT (HRT) SLP (GDx)
ppNFL thickness + +
Macular GCC +
Disc & Cup + +
Total retinal blood flow *
Angle +Cornea +
*Under development, not yet released commercially David Huang, MD, PhD
FD-OCT may have a growing role in glaucoma diagnosis
David Huang, MD, PhD www.COOLLab.net
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Glaucoma Diagnosis Case Examples
Subject 005 OS
42 year oldIOP 11C/D 0.1
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Stratus TD-OCT
Superonasal NFL thinner than normal
Inferotemporal NFL thicker than normal
RTVue FD-OCTGCC
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RTVue FD-OCTNFL
VF
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Subject 005 OS
Normal eyeStratus TD-OCT NFL abnormal due to superonasal scan decentrationRTVue FD-OCT within normal for both NFL and GCC
Subject 046 OS
62 year oldIOP 17.5 with medicationC/D 0.4
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Stratus
temporal NFL borderline thin
Nasal NFL thicker than normal
RTVueGCC
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RTVueNFL
VF
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Subject 046 OS
Perimetric glaucomaNFL by Stratus TD-OCT decentered –probably normalNFL normal by RTVue FD-OCTMacular GCC is abnormal in agreement with VF: central loss more severe in the superior macula / inferior field
Glaucoma Tracking Case Example
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Subject 108 Perimetric Glaucoma OS
Baseline 1 year 2 year 3 year
Hemorrhage Rim thinning Rim thinning Rim thinning
Stratus Advanced Serial Analysis
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RTVue GCC Glaucoma Progression Report
Time Baseline 1 year 2 year 3 yearIOP (mm Hg) 12.5 12.5 10.0 13.0
RTVue NFL Glaucoma Progression Report
Time Baseline 1 year 2 year 3 yearIOP (mm Hg) 12.5 12.5 10.0 13.0
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Humphrey Glaucoma Progression Analysis
Subject 108 OS
Perimetric glaucomaProgression detected by GCC and disc photographyProgression not detected by NFL or VFDrop in IOP on year 2 visit caused artifactual improvement on NFL & GCC
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David Huang, MD, PhD
Maolong Tang, PhD
Yan Li, PhD
Ou Tan, PhD
Sylvia Ramos, COA
Yimin Wang, PhD
Xinbo Zhang, PhD
Timothy Hsia, MS
Doheny Eye Institute
www.COOLLab.net
Jason Tokayer, MS
Bing Qin, MD Wei Wu, MS Nehal Samy, MD
Habeeb Ahmad, MD
Catherine Cleary, MD