Nephropathic cystinosis is an autosomal, recessively inherited storage disease in which nonprotein cystine accumulates within cellular lysosomes due to a defect in lysosomal cystine transport. Ocular manifestations include photophobia; crystal deposits in the cornea, conjunctiva, and iris; and depigmentation of the retina. Ten years ago, cysteamine, a free thiol that depletes cystine from cells, w introduced in the therapy of cystinotic patients. Although patients had improved growth and stabilized renal function, there was no noticeable effect on the accumulation of corneal crystals. Recent studies showed that corneal cells in tissue culture are readily depleted of cystine by the introduction of cysteamine, making feasible the use of topical ophthalmic cysteamine to circumvent the humoral route. After appropriate animal studies to test for complications revealed none, we began a double-masked clinical trial to test the efficacy of topical cysteamine (0.1 percent and 5 percent) in humans. To date, in 15 of 29 young patients the code was successfully broken; of th 14 remaining, 2 died, 5 discontinued medication, and 7 are still in the tri with poor compliance and have not been seen for followup. Because of the success in the younger patients, this study was expanded to include older patients, 3 to 31 years of age. The findings have been most exciting: Twenty-four patients have shown a significant decrease in crystals in treated eyes as well as improvements in comfort, i.e., relief of pain and photophobia. This study has resulted in significantly improved quality of life for the successfully treated patients. Because of the success of this clinical trial and evidence from the cysteamine-benzalkonium trial (Protoco Number 93 EI-0230), the Food and Drug Administration has requested that all patients in this protocol be switched to cysteamine plus benzalkonium and receive medication in both eyes. Each patient then will be judged by a comparison with his or her own natural history. There is an extreme scarcity of properly documented and classified human cataract material because of an abrupt shift of cataract surgical technique from intracapsular (intact lens) to extracapsular (fragmented lens) with th advent of the use of intraocular lens. We are exploring ways by which fragmented lens materials can be maximally used in cataract basic research through close collaboration with cataract surgeons and basic researchers and through modification of techniques by both groups. We are now carefully documenting the cataracts preoperatively, using clinic and photographic LOCS II grading and Zeiss Scheimpflug and Oxford retroillumination video photography and image analysis. Cataracts are extracted extracapsularly with implantation of an intraocular lens. Specimens obtained are examined histologically, using light and electron microscopy, and biochemically, using two-dimensional gel electrophoresis (PHAST and LSB systems). Cataractous specimens are compared with normal tissues obtained from eye bank eyes. Abnormal proteins are identified usin immunoblotting techniques as well as protein sequencing.
