Complete Phaco Procedures Through a Single Micro-Incision
From lens removal to lens implantation, the INTREPID® Micro-coaxial System delivers a complete micro-incisional solution, allowing you to perform surgery safely and efficiently through a single incision without altering your normal technique.
INFINITI® Vision System
Provides enhanced chamber stability and control
Utilizes the OZil® Torsional Handpiece for superior micro-incision procedures
The INTREPID® Fluidic Management System (FMS)
Enhances fluidics during micro-coaxial phacoemulsification
Non-compliant tubing provides enhanced chamber stability
MicroSmooth® ULTRA Infusion Sleeves
Designed for micro-incision sizes 2.2mm - 2.4mm
Features a smooth external surface for reduced friction within the incision allowing for more freedom of movement and easier wound entry
Reduced stress on ocular tissue
AcrySof® Aspheric IOLs
Delivers advanced aspheric optics with thinner lens profile
Perfectly compliments modern micro-incision surgery
Provides ease of delivery in the bag through an un-enlarged micro-incision
ClearCut™ Incisional Instruments
INTREPID® knives are engineered to create precise, 2.4mm and smaller incisions
Improves blade tracking for superior entry and withdrawal
Designed to produce squared incisions and excellent wound architecture
High Performance Fluidic Efficiency
The FMS has a low-compliance (rigid) design that increases surgical efficiency and control. Unsurpassed surge suppression and a high performance pump mechanism allow for smooth and precise fluidic sensing and adjustments in the changing ocular environment.
Enhanced Fluidic Design
Decreases post-occlusion surge and increases fluidic response through molded fluid paths and thick-wall polymer aspiration tubing
Allows vacuum levels up to 600 through a unique elastomer membrane
Increases energy effectiveness and decreases peristaltic pulsations
Precise Pump Mechanism
The consistent monitoring and precision of the INFINITI® pump mechanism provides greater control and confidence.
Uses tapered rollers for an instantaneous and smooth peristaltic response
Achieves greater pumping capability with forward and reverse actuation up to 100cc per minute
Enables precise calibration and measurement with an unprecedented rate of vacuum pressure monitoring
Unsurpassed Ergonomics
The unsurpassed ergonomics of the INFINITI® Vision System contribute to its quick setup and ease of use
Increases staff access and efficiency for a smooth patient experience
Incorporates an integrated front handle so the FMS can be loaded from a sterile field
Significantly faster prime time compared to LEGACY®
Instantaneous Sensing and Adjustment
By monitoring and adjusting critical fluidic parameters, the INFINITI® system software provides increased fluidic versatility and control. With real-time intelligence and instantaneous adjustments of the intraocular environment, it also allows customized lens acquisition while minimizing fluidic flow and turbulence.
Dual Sensing Technology
Provides both an exclusive irrigation pressure sensor (IPS) and a vacuum pressure sensor (VPS)
Irrigation Pressure Sensor (IPS)
The IPS detects and monitors the acquisition of nuclear tissue more instantaneously than a vacuum sensor would alone.
Detects an empty bottle or warn of a detached or crimped irrigation line
Increases safety by automatically stopping the delivery of energy and aspiration flow
Dynamic Rise
This exclusive feature allows surgeons to customize vacuum response and aspiration flow rate only when occlusion occurs.
Enables customized acquisition of nuclear tissue by adjusting the time to reach the preset vacuum
Activates when it senses the increase in both vacuum and irrigation pressures
Enables the combination of low flow rates with fast rise time capability
Reduces turbulence and fluid flow through the eye during the procedure
Vacuum Pressure Sensor
Allows more critical adjustments to changing intraocular conditions
Monitors vacuum response at an unprecedented rate
Linear Flow and Vacuum
Allows surgical control of both aspiration flow rate and vacuum
Emulates the Venturi pump while maintaining the increased control of the peristaltic pump
