Ophthalmic Surgical Instruments - Basic Ophthalmology / Eye Surgery Instruments
OPHTHALMIC MICROENDOSCOPE IN OPHTHALMOLOGY
Transcript of OPHTHALMIC MICROENDOSCOPE IN OPHTHALMOLOGY
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OPHTHALMIC MICROENDOSCOPE
(OME) IN OPHTHALMOLOGY
Emin ÖZMERT, M.D.
Ankara University Faculty of Medicine
Vehbi Koç Eye Hospital - TÜRKİYE
ESASO / ANKARA – Sept 2012
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OME IN VITREORETINAL SURGERY
Vitreoretinal surgery techniques and
instrumentations showed important developments recently
such as:
► İris retractor
► Wide – angle imaging systems
► Second illumination systems (Chandelier, Eckardt )
► Illuminated instruments ( forceps, endolaser, cannula )
► New operating microscopes
Despite these developments, sometimes we need
another assistant during VRS --------- OME
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ENDOSCOPE IN VITREORETINAL
SURGERY
Endoscope serves not only for diagnostic
purposes, but also aids in vitreoretinal surgery
as a surgical tool
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WHY ENDOSCOPE ?
Microscopic imaging becomes
limited or impossible due to:
► Small / fixed pupil, sudden miosis
► Intraoperative unexpected ocular
media opacifications
► Intraoperative cataract formation, capsular haze
► Light reflections occuring during
fluid / air exchange
The OME allows a clear view and to
continue the surgery when these
anterior segment conditions
preclude a posterior view
Traumatic corneal opacity, undergone VRS,
diagnostic endoscopy
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WHY ENDOSCOPE ?
The major causes of surgical failure in VRS
cases are:
► Development of anterior PVR and
cyclitic membrane
► Inadequate laser application on the
peripheral retina
► Tissue / retina incarceration into the
sclerotomies
► Placement of infusion cannula into the
subretinal space
Visualization of inaccessible region of
the eye
An excellent microscope view may be
achieved using WAOS, but it is very
limitid or restricted in the outermost
periphery. The OME can easily image
and assist laser delivery to the retroiridal
region
PDR, endoscopic viewing of far
peripheral retina and laser application
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WHY ENDOSCOPE ?
► New imaging techniques such as intraoperative endoscopic fluorescein angiography
► Glaucoma Surgery:
* Iridocorneal angle surgery
(goniotomy, lase iridoplasti,
synechiotomy) in cases with dense
corneal opacity
* To evaluate ciliary processes
condition before performing ECP
under direct viewing
* To reopen ab interno occluded
filtering bleb
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WHY ENDOSCOPE ?
► Lacrimal Surgery:
* Direct and dynamic
visualization of the
lacrimal drain way; removal of
stenosis using special laser
*Complete outpatient DCR
surgery with the introduction of
new lasers ( STAR 980 )
OPTOSGROUP
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SCHWIND ENDOGNOST
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THE TYPES OF OPHTHALMIC
MICROENDOSCOPES
► Gradient index ( GRIN ) solid- rod
► Fiberoptic bundle ( pixel )
They share the same basic characteristics
* Endoscope probe: imaging, illumination, laser fibers
- Intraocular portion: Objective GRIN lens on the tip
- Handpiece
* Lenses for magnification, focus
* CCD video camera: 1 – 3 chips, electronic control unit
* Light source: Xenon lamp, UV / IR flters
* Laser source: Argon, 810 nm diode, STAR 980
* Video monitor: High resolution
* Image capture devices: videocassette recorder, video printer, computer
* Relevant equipments: Gloucoma, lacrimal surgery; FA
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OPHTHALMIC MICROENDOSCOPES
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FIBEROPTIC MICROENDOSCOPE
► Objective GRIN lens on the
distal tip of the image guide
► Tightly packed quartz fiber
bundles ( 3000 – 10.000 )
► CCD camera, focusing lens
and orientation ring remote
from the handpiece
► 50 – 70, 110 degree field of
view
► Depth of field: 0.75 – 40 mm
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FIBEROPTIC MICROENDOSCOPE
► Fused – fiber endoscopic
system
► 19 / 20 G handpiece
containing:
* laser fiber in working
channel
* illumination fibers
* viewing fibers
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FIBEROPTIC ENDOSCOPE
Advantages:
► Lighter handpiece: The
surgeon does not hold
the video camera in hand
► Far less bulky and
cumbersome
► It gives a brighter image
► Semidisposable
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FIBEROPTIC ENDOSCOPE
Disadvantages:
► Resolution is limited by the
density of the glass microfibers
( pixelization, honeycomb
effect on monitor )
► Because the depth of field is
less than the GRIN
endoscope, the object
becomes blurred when the tip
gets to within 2 mm of the
object
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GRIN MICROENDOSCOPE
► Objective GRIN lens on the
distal end of glass rod
► Long slender GRIN solid rod
lens
► Handpiece (endoscopic body)
contains magnifying and
focusing lenses
► Surgeon hold the videocamera
in hand
► Foot pedal control of
magnification
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GRIN ENDOSCOPE
Advantages:
► Extremely high resolution
without pixelization of the
image ( no honeycombing
effect )
► Able to focus in close working
distance, usually less than 2
mm
* Subretinal space
* Lacrimal system
► High magnification view of ILM
or other membranes not seen
through the usual operating
microscope
► Magnification increases as
distance to object decreases
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GRIN ENDOSCOPE
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GRIN ENDOSCOPE
Disadvantages:
► Cumbersome and bulky: It does
get heavy during a long case
( surgeon hold the videocamera
in hand )
► Fragility, additional expenses
► It does suffer from greater light
loss in the lenses
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ENDOSCOPES IN MARKET
OPTOS
GROUP SCHWIND OTI INSIGHT
ENDO
OPTICS
OUTER
DIAMETER ( mm )
0.75 – 1.0 0.9 – 1.0 0.9 19 – 20 G 20 G
IMAGE GUIDE
SYSTEM
10.000 pixels
6000 pixels 10.000 – 30.000 pixels
GRIN GRIN
FIELD OF
VIEW ( degree )
75 - 90 70 - 120 74 50 - 110GRIN
LACRIMAL
SURGERY+ + - - -
OTHER
FEATURES
►Foot pedal control of illumination
►STAR 980►Several
modules
►Er:YAG dacryostom
►Optics for Schlemm
►Several modules
Several modules ►Foot pedal
control of magnification
Integrated in
a case
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IE – 3000 INSIGHT INSTRUMENTS
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GENERAL DISADVANTAGES OF OME
► Complexity of setup, postoperative maintenance, cost, fragility
► Technical adaptation and learning curve are mandatory.
The surgeon learn rather quickly to use the video monitor
and to overcome the lack of stereopsis
► Extensive bimanual membrane dissection is impossible
► There is no stereopsis. With a 110° wide – field
endoscope, the surgeon can gain orientation within the
vitreous cavity
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CONCLUSIONS
The technique of OME in
ophthalmic surgery
► Expands and extends visual control
during VRS when standard
microscopic viewing is limited or
obscured,
► Often provides restoration of
visualization in order to continue or
complete necessary surgical
maneuvers