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OCT in Ophthalmology
1. Indra P Sharma
B.Optom, M.Optom, JDWNRH, Bhutan
Optic Nerve Head
evaluation with
OPTICAL COHERENCE
TOMOGRAPHY (OCT)
2. Optical coherence tomography
Optical Coherence
Tomography (OCT ) is a
noncontact, noninvasive
imaging technique used to
obtain high resolution
cross-sectional images of
the:
retina (macula )
ONH including RNFL and
anterior segment.
James G. Fujimoto, 1991
3. Based on principle of low coherence
interferometry
involves interference between reflected light and
a reference beam.
Three-dimensional imaging technique with
ultrahigh spatial resolution
4. Process similar
to ultrasound
except that light
is used instead of
sound waves.
OCT probe
beam- Near
infrared (800nm)
Measures reflected light from tissue discontinuities
OCT analogous to B-scan
5. Contd...
Doing OCT of the retina is like doing a vertical
biopsy section of the retina.
Uses light source (superluminescent diode)
Instead of viewing a stained section under a
microscope, we are presented with a "false-
color" view with micron level resolution(<10
microns)
A tomogram is display in either grey scale or
false colour on high resolution computer
screen.
10. Contd...
When all of the A-scans are combined into one
image, the image has axial (vertical) resolution of
< 10 microns and transverse (horizontal)
resolution of 20 microns.
Compare that to the resolution of a good
ophthalmic ultrasound at 100 microns, or 1/10th of
a millimeter.
Represents the resolution
of ultrasound
Represents the resolution
of OCT
OCT image has 10 times more
the pixels per inch that the
image with ultrasound
11. Application
OCT images contains quantitative information and
aid in:
1. Follow up of clinical course, understanding the
pathogenesis of disease.
2. For assessing the response to medical/ surgical/
laser theapy.
3. For documentation and explaining the prognosis of
a particular disease.
12. Time Domain TD-OCT
It is the traditional
OCT
Stratus OCT (Carl
Zeiss Meditec, USA)
13. Contd...
In TD-OCT, there is a mechanical moving part, which
performs the A-scan, and the information along the
longitudinal direction is accumulated over the course
of the longitudinal scan time
Due to the nature of the slow mechanical moving
speed, the scan time in TD-OCT is slow
Stratus can perform 400 A-scans/second
Because of the eye motion, it is not feasible to use
TD-OCT to precisely map retinal tissue in three
dimensions
14. Spectral Domain (SD-OCT)
Broadband source is employed and the entire signal
(at all wavelengths) is recorded in parallel by a
spectrometer.
Acquire the signal in the wavelength space and
Fourier-transform it to get the spatial information
All done at same time, so speed dramatically
increased (50-1000x faster than TD)
Carl Zeiss Meditec’s Cirrus™ HD-OCT
15. SD- OCT Advantages
Improved resolution
Improved acquisition speed
Reduces motion artifacts
Digital processing not required to align
adjacent axial scans = More accurate retinal
scans
3D views
More accurate segmentation
Precise registration/orientation
16. OCT Imaging Speeds and
Technologies
Time Domain OCT
400 axial scans per second
(Zeiss Stratus - 2002)
8-10 um axial resolution
Spectral / Fourier Domain OCT –
spectrometer
25,000 – 50,000 axial scans per
second (2006)
5 - 7 um axial resolution
Next Generation Spectral /
Fourier OCT
70,000 – 100,000 axial scans
per second
~3 - 5 um axial resolution
100,000 – 250,000 axial scans
per second
~5 - 10 um axial resolution
Swept Source / Fourier OCT –
swept laser
200,000 + axial scans per
second
~5 - 7 um axial resolution at
1050 nm wavelengths
17. Procedure
1. Inform the patient about the examination.
2. Dilate the eye well.
3. The patient must keep
the forehead against
the bar and the chin in
the chinrest. Use the marker on the head rest to align
The patient vertically. The outer
canthus should be even with the line.
18. 6.Use the two buttons near the
joystick for freezing and saving
scans. This saves you from having
to juggle the joystick and the
mouse.
7.Minimize patient fatigue by keeping scan time to a
minimum. Never scan an eye for more than 10 minutes (FDA
regulation).
8.Keep the cornea lubricated. Use artificial tears and have the
patient blink when you are not saving a scan pass.
9.Move the instrument on the x and y axis (using the joystick) to
work around opacities.
20. OCT in Glaucoma
Glaucoma-related neural losses result in characteristic
structural changes to the optic nerve head (ONH) and
peripapillary retinal nerve fiber layer (RNFL) such as a loss of
the neuroretinal rim and diffuse or localized RNFL defects.
The clinician’s recognition of ONH topographical changes is
therefore important for diagnosing glaucoma and detecting
progression, particularly because structural changes often
precede observable defects on perimetry.
In Glaucoma, OCT helps in evaluation of:
Optic Nerve Head
RNFL
Peri-papillary Region
21. OCT imaging of normal ONH
ONH can be identified on
the basis of its countour:
-Central depression of cup
and the stalk behind the
anterior part of the nerve.
Anterior dark space:
Viterous
Contrast between non-
reflective viterous and
back scattering surface of
retina: Vitreo-retinal
interface
Bright back scattering
(red layer) :RNFL
23. Protocols for Glaucoma
Following protocols may be used for glaucoma:
1. Optic disc scan
2. Concentric 3 ring scan
3. Nerve head circle scan
4. Fast optic disc scan
5. RNFL map scan
6. RNFL thickness scan
7. Fast RNFL thickness scan
8. Proportional circle scan
9. Radial line scan
10. Cross hair scan
24. RNFL Protocol
RNFL thickness is important driscriminator for
glaucomatous from normal eye and has to be
found to be reduced in ocular hypertension
also.
28. Black space on the top of the image - Vitreous
Normal depression – fovea.
The nerve fiber layer (NFL) and the retinal pigment epithelium (RPE) are
more highly reflective than the other layers of the retina. This higher
reflectivity is represented by the "hotter" colors (red, yellow, orange,
white) in the false color representation of the OCT .
The middle layers of the retina, between the NFL and RPE, are much less
easily identifiable in the scan.
31. References
JOEL S. SCHUMAN. FDA AGS
WORKSHOP:The Validity, Reliability, and
Usability of Glaucoma Imaging Devices, 5
October 2012
A.J Mahant et al. 2011.Study of RNFL with
help of OCT in normal person,ocular
hypertension and primary open angle
glaucoma.Gujrat Medical Journal
Notas del editor
The echo time delay of the reference and measurement beam is compared. Several data points over 2 mm of depth are integrated by the interferometer.Image thus produced have axial resolution of of <10 microns and travnservse resolution of 20 micron.