A new era begins
AcrivaUD Trinova is manufactured with Seamless Vision Technology (SVT) that is invented by VSY Biotechnology. The SVT is a unique patent pending technique to produce an IOL optical surface which does not exhibit any sharp edges. It provides best optical performance in trifocal IOL design. The lens shape is derived from sinusoidal functions and results in smoothly varying surface profiles. Therefore ideal continuous vision is achieved as opposed to common traditional overlapping diffraction pattern trifocal IOLs with sharp edges. This concept also helps to reduce halos and scattered light.
AcrivaUD Trinova is designed with stepless zones. Twelve unique ridges create highest light transmission and optimum light distribution through all optical diameters. Better contrast sensitivity and dynamic visual performance at all distances! Ultra-Definition (UD) Aspheric optic and chromatic aberration free structure leading to Enhanced Depth of Focus (EDOF) provide continuous vision hence, spectacle independence at all distances. Based upon this know-how VSY Biotechnology improved EDOF optic design and now introduces Seamless Vision Technology (SVT).
Superior features of AcrivaUD Trinova
• 92% Effective Light Transmission to retina
• Excellent MTF results at all distances
• Longest distance in Depth of Focus
• Outstanding visual outcomes even at mesopic conditions
Modulation Transfer Function (MTF) is the measurement of the ability of an optical system to transfer contrast (from the object to the image) as a function of spatial frequency. The criteria of a “Good” optical system have been set by the International Standards Organization ISO 11979-2.
AcrivaUD Trinova shows greater performance in total focus area from far to near.
+3.00D near addition and +1.50D intermediate addition of AcrivaUD Trinova is precisely designed considering life quality of the patients. Up to 80 cm reading distance will cover all daily requirements in near and intermediate vision.
Unique zones of AcrivaUD Trinova guarantees similar light distribution pattern at all light conditions. Remarkable spectacles free visual performances not only in the photopic conditions but also in mesopic conditions!