|
| • |
Unique
dual-property viscoadaptive-behaves like a cohesive and
a dispersive agent |
| •
|
Designed
to maximize control throughout surgery |
| •
|
Helps
provide better-controlled capsulorrhexis ,
phacoemulsification,
and lens placement |
| •
|
Outstanding
endothelial protection |
| • |
Latex free |
| • |
Allows
surgeons to control its behavior by adjusting aspiration
flow rates
|
| • |
Possesses
the highest zero shear viscosity of any viscoelastic
(7,000,000 mPas)
|
| • |
Acts
like a cohesive agent at low flow rates to maintain
the anterior chamber
|
| • |
Acts
like a dispersive agent at high flow rates to protect
endothelial cells during phaco |
|
 |
| •
|
Remains
in the anterior chamber during phacoemulsification for
exceptional control of the intraocular environment |
| • |
Separates tissues for enhanced maneuverability |
| •
|
Offsets
positive pressure |
| • |
Maintains inflation of the capsular bag throughout lens
implantation |
| • |
Minimizes
the risk of developing a shallow anterior chamber |
| •
|
Provides
greater endothelial cell protection than the dispersive
agent VISCOAT
and Ocucoat OVD
|
| • |
Separates tissues during phacoemulsification for added
protection |
| • |
Cushions
delicate iris tissue and helps reduce the risk of iris
prolapse |
| • |
Helps
control unfolding of the intraocular lens |
|
|
