The ultimate planning platform for torics
The T-Cone Toric Platform provides the surgeon with everything needed to achieve excellent refractive results with toric IOL.
Please tell me more about T-Cone Toric platform
Excellent calculation, intuitive planning
The T-Cone Toric platform complements the LENSTAR's comprehensive measurement palette with true 11-ring Placido topography for reassurance of axis location and check of regularity and symmetry of the astigmatism. Excellent toric IOL calculation is achieved with the integrated Barrett Toric Calculator taking cornea front and back surface into account. Surgical planning sketches based on high resolution images taken with the LENSTAR enable intuitive transfer of the plan to surgery for improved outcomes.
More accuracy for toric IOL planning
The Barrett Toric Calculator is based on the well-established Universal II formula. It considers the front and back-surface of the cornea, features dynamic lens position calculation and incorporates lens geometry details founded on thick lens calculation methodology.
Leading technology in toric IOL prediction
Barrett’s Toric Calculator uses in addition to axial lenght and Ks, measured ACD, lens thickness (LT) and White-to-White to improve the prediction accuracy of the lens position. It furthermore incorporates the posterior cornea to further increase the accuracy and peer-reviewed literature showed its superiority as compared to other methods.
Incorporating the posterior cornea in toric IOL calculations is the key factor to achieve excellent refractive results. Even though the importance of the posterior cornea was described by Javal back in the 19th century, it got forgotten until Dr. Doug Koch presented his findings at the 2012 ASCRS innovators lecture that lead to the well-known Baylor Nomogram. Barrett’s toric calculator incorporates this knowledge into a sophisticated eye model using vector mathematics to dynamically calculate the total corneal power. A recent article in the JCRS demonstrates the superiority of Barret’s Toric Calculator and the ASCRS as well as the APACRS promote it as the calculation method of choice on their web-pages.
Take a minute and watch the video by Dr. Graham Barrett, revealing more details on the Barrett Toric Calculator. It specifically shows the importance of dynamic lens position calculation, posterior corneal curvature consideration and axis alignment for the accurate prediction of toric IOL.
Match the axis with the T-Cone
With the optional T-Cone toric platform, the keratometry measurement of LENSTAR is extended with true 11-ring Placido topography. This additional data improves the efficacy and safety of toric IOL surgery, enabling the surgeon to check symmetry and regularity of the astigmatism.
Have the full information - no surprises
Keratometry provides precise measurements of astigmatism and axis, but it is blind to irregularities and asymmetry. T-Cone topography provides the missing information and enables to surgeon to decide on the suitability of a particular patient to be a toric candidate.
The T-Cone provides the surgeon with topography of the 6mm central optical zone. K-readings optioned with the T-Cone are derived using the same algorithms like with the standard Lenstar without the T-Cone and are therefore interchangeable and precise. Axial, tangential, elevation and the video image of the Placido Rings are featured to allow full assessment of the suitability of a patient as a toric candidate.
Visualize your plan
EyeSuite Toric Planner is part of the T-Cone Toric Platform and enables the user to intuitively plan his surgery on high resolution eye images. It furthermore features an incision optimisation tool to minimize the residual astigmatism by placing the incision in the right spot.
Intuitive transfer to surgery
Planning of the operation on high-resolution eye images allows the user to define additional guiding lines to anatomical landmarks recognizable in the intraoperative view. They either may serve as a base line point for the intraoperative orientation or as a fallback strategy. The planning sketch can easily be printed and hung near the microscope.