2.8mm

Showing 1–28 of 52 results

Crystalens Advanced Optics Accommodating IOL (Bausch+Lomb)

Based on the Crystalens Platform -Embedded Polymide haptics into the hinged Silicone Plate of the IOL. with Aspheric Optics.  B+L will supply AO1UV (11,5mm) and AO2UV (12,0) for smaller/hyperopic and larger/myopic eyes respectively  (From +17 0 to +27.0 in 0,25D steps!)

EYECRYL Lens for Phakic Eyes (Biotech)

Hydrophilic acrylic aspheric IOL with central hole plus peripheral holes in 3 sizes , 12.00 mm,12.50 mm and 13.00 mm

Optic Size 4.65mm to 5.5mm according to dioptric correction

Range -3D to -23.0 D

EYECRYL Toric Lens for Phakic Eyes (Biotech)

Hydrophilic acrylic aspheric IOL with central hole plus peripheral holes in 3 sizes , 12.00 mm,12.50 mm and 13.00 mm

Optic Size 4.65mm to 5.5mm according to dioptric correction

Range -3D to -23.0 D

IPCL V2.0 for Phakic Eyes (Care Group)

Hydrophilic six haptic IOL to be placed in the sulcus of the phakic Eye. With central and peripheral ventilation holes. Central hole is 380μ. Incision <2.8mm. Optic Size is huge: 6.60 up to 7.5 possible Customized.  Length from 11.00 to 14.00 in 0,25mm steps. Range -30.0 D to +15.0D

on line Calculator   http:/www.ipciol.com/calc

IPCLD Presbyopic V2.0 for phakic Eyes(Care Group)

Hydrophilic six haptic IOL to be placed in the sulcus of the phakic Eye. With central and peripheral ventilation holes. Central hole is 380μ. Incision <2.8mm. Optic Size is huge: 6.60 up to 7.5 possible Customized.  Length from 11.00 to 14.00 in 0,25mm steps. Range -30.0 D to +15.0D. This model corrects presbyopia adding “up to 4.0D”

on line Calculator   http:/www.ipciol.com/calc

IPCLDT Presbyopic Toric V2.0 for phakic Eyes (Care Group)

Hydrophilic six haptic IOL to be placed in the sulcus of the phakic Eye. With central and peripheral ventilation holes. Central hole is 380μ. Incision <2.8mm. Optic Size is huge: 6.60 up to 7.5 possible Customized.  Length from 11.00 to 14.00 in 0,25mm steps. Range -30.0 D to +15.0D. This model corrects presbyopia adding “up to 4.0D” and astigmatism up to +10.0 D.

on line Calculator   http:/www.ipciol.com/calc

IPCLT V2.0 for Phakic Eyes (Care Group)

Hydrophilic six haptic IOL to be placed in the sulcus of the phakic Eye. With central and peripheral ventilation holes. Central hole is 380μ. Incision <2.8mm. Optic Size is huge: 6.60 up to 7.5 possible Customized.  Length from 11.00 to 14.00 in 0,25mm steps. Range -30.0 D to +15.0D

on line Calculator   http:/www.ipciol.com/calc

Lentis LU-814 T -Oculentis

One piece hydrophilic Acrylic lens with 4 open loop haptics with aspherical surface fror Capsular, sulcus and Sulcus-Sclera fixation. Enlarged Haptics for possible Suture Fixation

Lentis-LU 814 MF30 -Oculentis

One piece plate hydrophilic Acrylic lens with segmented Aspheric Optic offering +3.0 Add that may be placed in the eye in cases of inadequate capsular support

Lentis-LU 814 MF30T -Oculentis

One piece plate hydrophilic Acrylic lens with segmented Aspheric Optic offering +3.0 Add that may be placed in the eye in cases of inadequate capsular support. Individualized Sphere and Astigmatism correction (up to +12.0D)

Lumina Dual Optic IOL (Akkolens International)

The Lumina AIOL (AkkoLens International, Breda, The Netherlands) consists of 2 optical elements, capable of moving one on top of the other, and is implanted in the ciliary sulcus The lens is manufactured with an acrylic hydrophilic polymer material. The optics provides a fixed optical power: the anterior element is designed to provide 5 D while the posterior provides between 10 to 25 D, depending on the correction needed for the patient after the lens removal. Each one of the optics has an internal aspheric surface where its power increases linearly when the lens moves. Therefore, when the eye accommodates and the ciliary muscle contracts, the optics of the lens change their longitudinal position, passing one over the other thereby resulting in an increase of the dioptric power of the lens, focusing the light for the near distance and providing accommodation to the patient. J Alio et al, 2017