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Wide Angle Viewing Systems for Vitreoretinal Surgery
1.
2. ADVANTAGES:
easily available
relatively inexpensive
non-inverted view
Low maintenance
Adapts to all microscopes
DISADVANTAGES:
IOP changes
Corneal trauma
Blood obscures view
Limbus not accessible
Requires skilled assistant
Requires good pupillary dilatation
Poor view with lens/corneal opacity
Poor view in gas-fluid exchange(change
of lens required)
3. ADVANTAGES:
Ease of operation
Gives overall picture of
pathology
Great depth of field
Easy view in gas-fluid exchange
Facilitates SOI-PFCL exchange
Facilitates bimanual surgery
DISADVANTAGES:
Higher initial cost
Learning curve
May need skilled assistant
5. Made of Prisms
Uses:
1. Forms erect image
2. Corrects laterality
3. Stereopsis
Examples:
SDI
ROLS
AVIS
Invertertube E
6. Developed by Spitznas in 1987 along with BIOM.
Permits the microscopic image to be vertically inverted and laterally
reversed, while retaining full stereopsis.
Currently SDI4 available.
7. SDI 4m
The basic version, easy to
mount on nearly every
microscope type. No
voltage
supply or cables required.
The inverting function is
controlled via sterile
covered control knob on the
front side.
SDI 4e
Can be activated by an
optional foot switch.
Some microscope types also
offer the integration of the
switch control into the foot
pedal of the microscope
SDI4c
Most comfortable version.
It is required to control the
motorized focus of the
BIOM 4c. It also can
be used together with any
other version of the
BIOM.
Used with BIOM 4c, the
SDI 4c is activated
8. Single-element re-inverter prism design
Fundus image and surgical instrumentation in the eye presented in an
upright and correctly oriented position
guarantees left/right eye image fusion, high efficiency light transmission and
high optical transparency
Diode laser safety filter permanently installed
Can be used with contact lens,non-contact lens systems(eg. Merlin)
9. ADVANTAGES:
Wider field of view (upto 150⁰)
Self-stabilising lenses (Volk,SSV)
require less skilled assistant.
Better resolution and contrast of
fundus image
Cheaper
Corneal aberrations and reflections
from corneal surface eliminated
Maintains stereopsis
DISADVANTAGES:
Skilled assistant required with non-
self stabilising handheld lens.
IOP changes
Image lost if eye is rotated
Lens and corneal opacities
problematic
Corneal trauma
Poor access to limbus
Poor with steep corneal curvatures
Fixed field of viewing
10. Meniscus Lens is coupled with a Spherical lens
Real, Inverted Image(needs Inverter)
Field of View is wide(130-150⁰ )and the image is small.
11. Lighter than VPFS
field of view about 120-130 degrees
Requires inverter
14. Consists of following parts:
1. AVI stereo inverter-to invert the image
2. 2 miniature contact lenses-one for 68 degree field of view other for 130 degree field
of view.
3. lens handles
4. lens retaining ring
5. Dual mode cannula giving wide field illumination and infusion simultaneously that
fits through a single 20 gauge sclerotomy port
15. ADVANTAGES:
No assistant needed
No corneal trauma
Good with fluid air exchange
Good in paediatric cases
Good for steep corneas
Ease of accessibility to limbus
Improved depth perception
Can maintain good image even on
moving eyes
Can be used with contact lenses
DISADVANTAGES:
Greater learning curve
Costlier
Adaptabilty to microscopes
Less resolution
Dehydration of corneal surface
Condensation on front lens-proper
draping of the patient
Wider field of view provided only in
aphakics and air filled eyes
16. • Manufactured by OCULUS
• Developed by Spitznas in 1987
• Needs to be used with
Stereoscopic Diagonal Inverter
17. Reduction lens - fixed focal distance
Ophthalmoscope lens - Variable distance
Focal length of reduction lens is chosen such that the system
would be kept in focus when changing from external to
internal observation.
18. 2 Key elements:
1. Distance between ophthalmoscope lens of BIOM and cornea
2. Distance between microscope and cornea
To focus - both the distances need to be adjusted with foot pedal.
At a low microscope magnification: Begin initial focusing of the BIOM image by turning
the BIOM focus adjusting wheel.
Magnify the image section by actuating the focus foot switch at the microscope.
Then use the microscope footswitch control to zoom in to maximum magnification.
Now finely focus the image with the adjusting knob of the BIOM.
The microscope magnification should then be reduced to the minimum required, in
order to achieve as wide a fundus view as possible.
The use of the focusing function with the microscope foot pedal when the BIOM is in
use only changes the size of the image field ("keyhole effect").
20. Mini Wide Field Lens Hi Res Macula Lens 90 D Lens
Wide Field
Enhanced Lens
Wide Field High
Definition Lens
Wide Field High
Definition Mini
Max. observation angle (approx.) 70° 60° 90° 120° 60° - 130° 60° - 110°
Outer diameter 12 mm 19 mm 19 mm 19 mm 20 mm 17 mm
Steam autoclavable with max. temperature 134° C 134° C 134° C 134° C 134° C 134° C
Surface / material amorphous carbon coating amorphous carbon coating amorphous carbon coating amorphous carbon coating quartz glass quartz glass
Features
for easy maneuverability of instruments
in small and deep seated or infants´
eyes
high magnifcation and best resolution of
small structures
intermediate field very wide field
most common BIOM®lens, high
resolution combined with wide field of
view
wide field of view with reduced diameter
21. • 130° wide angle field of view with the new
BIOM®HD Disposable Lens
• Outstanding resolution in periphery –
whether in a fluid filled eye or under air
• HD clarity under high magnification reduces
the need for a contact lens when working in
the macula region
• Superb depth of field – even under high
magnification
• Single-use design for increased O.R.
efficiency and lower costs
• Compatible with all OCULUS BIOM® 3/4/5
Objective
lens
BIOM® BIOM® Optic
Set
f = 175 mm BIOM® 3 m/c,
4 m/c, 5 m/c
HD
Professional
for f = 175 mm
f = 200 mm
BIOM® 3 ml/cl,
4 ml/cl, 5 ml/cl
HD
Professional
for f = 200 mm
BIOM® m/c, 4
m/c, 5 m/c
HD Flex
22. • World’s first single use non-contact
WAVS.
• No sterilization “down time” for
increased O.R. efficiency.
• Incorporates BIOM®HD Disposable
Lens which gives excellent stereopsis
and High Definition clarity under high
magnification.
• Pre-assembled
23. Gas-fluid exchange:
1. Phakic eye: Owing to the posterior curvature of the lens, the
knurled knob must be rotated counterclockwise to lift the
objective lens toward the microscope. Simultaneously, the
objective lens should be brought closer to the cornea using
the vertical motor (focus) of the microscope.
2. Aphakic/pseudophakic eyes: only slight adjustments need to
be made with the knurled knob.
24. Manufactured by Volk
Consists of two parts:
1. Condensing lens
assembly(CLA)
2. Lens position unit(LPU)
Used in conjunction with
ROLS to get an erect image.
25. Condensing lens Unit:
Recognizes the surgical lens
position to switch the internal
condensing lens into, and out of,
the optical pathway as needed.
Lens Positioning Unit:
1. Allows for fine focus
adjustment of the vitreous and
retina.
2. Can be rotated 360° to provide
precise lens positioning or aid
in convenient positioning for
the surgeon or assistant.
26.
27. Manufactured by ZEISS.
System automatically fold up if
unintended contact is made with
the patient's eye guaranteeing
optimal patient safety.
RESIGHT 700-foot control panel to
focus while your hands remain in
the surgical field.
RESIGHT 500-manual focusing
Automatic inversion with
Invertertube® E allow a smooth
workflow with focus on the patient
28. 1. Base and focusing unit
2. Lens support with lens
turret for 175 and 200 mm
lenses.
3. Re-sterilizable aspheric
lenses (60 D and 128 D)
Disadvantage:
Can only be used with Zeiss
microscopes.
29. Developed by TOPCON in 2003
Facilitates bimanual vitrectomy
Lenses avoid complicated focusing by
allowing the microscope head and
indirect lens to move independently from
each other, facilitating a focused image
at all times.
Image inverter activates automatically
whenever the OFFISS is in use
Comfortable distance between OFFISS
lenses and patient’s eye.
30. Light is focused near
cornea and illuminates
wide area of fundus -
protects from phototoxicity.
Electromagnetic locking
Disadvantages:
1. Most expensive viewing
system
2. Can be attached only to
OMS-800 microscope of
TOPCON.
31. Manufactured by HAAG-
STREIT Surgical.
Inverter and lens present in
single unit
2 lenses:
90D: for 90˚ field of view
SPXL(132D): for 124˚ field
of view
Disadvantages:
1. Needs perfect co-axial
illumination.
2. Field of view lesser
33. Manufactured by Ocular Instruments Inc.
Non-contact vitrectomy system designed
with a flexible arm for positioning wide
angle lenses
Attaches to wrist rest or bed
Easily swings in and out of surgical field
Can hold indirect lens for use with separate
inverter
Designed to be used with the Peyman-
Wessels-Landers Wide Angle Lens
More affordable than similar systems
Disadvantage: Repeated adjustment
34. Manufactured by Ocular
Instruments Inc.
Static field of view:100˚
Magnification:0.45
132D aspheric imaging optic
which gives wide non-contact view
of the fundus and vitreous
Advantages:
1. Upright Wide Field image without
the need for a microscope
mounted inverter
2. Shortens total working distance
up to 50mm compared with other
wide angle systems.
3. Can be used with any microscope
35. FIRST SYSTEM:
Developed by Ohji M et al.
To remove the vitreous: combination of the PWL lens and a
magnifying contact lens with ring.
To peel ERM/ILM: Remove the PWL lens to see the macular
details through the magnifying lens.
SECOND SYSTEM:
Developed by Ohno H et al.
Combined use of a EIBOS (with SPXL 132D lens) and the HOYA
HHV(high-reflective index vitrectomy) meniscus contact lens fixed
by a ring.
36. 1. Wider field of view
2. Less requirement of irrigating cornea
3. Less incidences of blurred fundus view because of corneal
drying
4. Quality of view better because of smooth surfaces of contact lens
5. Easy to set a shorter distance between the contact lens and the
wide angle viewing lens, resulting in a wider fundus view
6. Easy to switch from a wide-angle view to a magnified macular
image
37. A semi-quantitative evaluation of the visual angle field and imaging contrast done by
Yusuke Hoshima
Published in RETINA TODAY in September 2012
Studied:
5 noncontact type WAVs:
1. BIOM (Oculus)
2. Merlin (Volk Optical, Inc.)
3. OFFISS (Topcon Medical Inc.)
4. Resight (Carl Zeiss Meditec AG)
5. Peyman-Wessels-Landers semi-wide angle viewing system (Ocular Instruments)
Two contact WAVs lenses:
1. Clarivit
2. HRX (Volk Optical, Inc.)
38. Field of view:
1. Air filled eye > fluid filled eye
2. Aphakic > Phakic/pseudophakic
3. Widest: OFFISS (Air filled eye:125˚, Fluid filled eye:95˚)(similar field of view
noted in HRX and Clarivit which are the two contact WAVS used in study)
4. Most independent of pupil size: Resight
5. Widest in pupil of 4mm size: Clarivit followed by Resight.
Image contrast:
1. Better at posterior pole as compared to periphery
2. Fluid filled globe > Air filled globe
3. Contact > Non contact
4. At periphery: Clarivit and Resight better than others