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Clinical Trial Summary

Penetrating keratoplasty (PKP) is corneal transplantation performed by using round trephine blades to create matched circumferential incisions in both the diseased cornea and the donor cornea. The donor tissue graft is then secured in place with sutures which are usually removed postoperatively.The primary surgical goals are the preservation of a clear graft and improvement of vision. Surgical outcomes are limited by donor-recipient junction mismatch, astigmatism, rejection, infection and wound dehiscence.

The femtosecond laser is a focusable, infrared laser capable of cutting tissue at various depths and in a range of patterns, and is currently being used to create corneal lamellar flaps in LASIK surgery. The laser parameters can be adjusted for submicron precision in cutting desired diameters, depths and shapes in the cornea, with minimal collateral injury. This technology is now capable of creating full-thickness corneal trephinations with customized locking edges at the graft-host junction between the donor and recipient corneas in Femtosecond Laser-Assisted Keratoplasty (FLAK). This approach may allow for better wound junction of the donor and recipient corneas, which in turn may also significantly reduce astigmatism, improve wound healing and visual recovery.

This pilot study will help us determine optimal femtosecond laser spot size, separation, fluence, and energy which result in the best graft-host fit.

The specific aim is to investigate postoperative physiology and biomechanics after FLAK in human eyes.


Clinical Trial Description

Penetrating keratoplasty (PKP) or full-thickness corneal transplantation is a common and highly successful method to restore vision decreased by corneal opacification. Surgery is performed by using round trephine blades to create matched circumferential incisions in both the diseased cornea and the donor cornea. Several types of blades are currently available to create uniform corneal cuts. The donor tissue graft is then secured in place with sutures which are usually removed postoperatively after one to two years. The primary surgical goals are the preservation of a clear graft and improvement of vision. Surgical outcomes are limited by donor-recipient junction mismatch, astigmatism, rejection, infection and wound dehiscence.

The femtosecond laser is a focusable, infrared laser capable of cutting tissue at various depths and in a range of patterns, and is currently being used to create corneal lamellar flaps in LASIK surgery. The laser parameters can be adjusted for submicron precision in cutting desired diameters, depths and shapes in the cornea, with minimal collateral injury. This technology is now capable of creating full-thickness corneal trephinations with customized locking edges at the graft-host junction between the donor and recipient corneas in Femtosecond Laser-Assisted Keratoplasty (FLAK). This approach may allow for better wound junction of the donor and recipient corneas, which in turn may also significantly reduce astigmatism, improve wound healing and visual recovery.

Although the femtosecond laser has been approved by the FDA for use in corneal transplants, it has not been compared to standard corneal transplant techniques. This pilot study will help us determine optimal femtosecond laser spot size, separation, fluency, and energy which result in the best graft-host fit. Surgical eligibility criteria, including preoperative diagnoses, as well as possible associated medical and ophthalmic conditions for the eventual multi-center study will be defined. Primary outcome measures, which include corneal refractive power measurements, serial endothelial-cell counts to assess endothelial survival and vision-specific quality of life surveys, will be evaluated. The specific aim is to investigate postoperative physiology and biomechanics after FLAK in human eyes. The significance is that FLAK presents corneal surgeons with an opportunity to avoid some problems of PKP and offers a safer and more precise approach to treating visually disabling diseases secondary to corneal opacification. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT00802776
Study type Interventional
Source University of Michigan
Contact
Status Completed
Phase N/A
Start date October 2007
Completion date January 2016

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