OBJECTIVE:To verify the safe dose of cephradine in intravitreal injection. METHODS:After injecting different doses of cephradine(100mu;g,200mu;g,250mu;g,300mu;g,400mu;g)into vitreous cavity of different group of rabbits the activities of the retinal enzymes (SDH,LDH )on different time (Id,3d, 7d ) were determined respectively, and the histological and ultrastructural changes of retinas were also observed simuhaneously. RESULTS:The activity of rellnal SDH and LDH was found to be decreased gradually with tbe icreasing of the dosage of intravitreal cephradine. The activities of SDH and LDH were found in the lowest level on tile 3rd and lsl day,but they recover to normal levels on tile 7th day after intravitreal in}eetion in 100mu;g,200mu;g groups,and still lower tban normal in the other groups. Histologically,retinal edema was found both in 100mu;g and 200mu;g groups,but degradation of retinal cells,and loss of cones and rods were round in the 250mu;g, 300mu;g and 400mu;g groups. CONCLUSION: The safe dose of intravitreal injection of cepbradlnc is 200mu;g. (Chin J Ocul Fundus Dis,1997,13:139-142 )
PURPOSE: To probe the effect of taurine on lipid peroxidation,surperoxide dismutase(SOD) and glutathione peroxidase(GSH-Px)in retina in vitro. METHODS: The animal eye cups were put into media(divided into four groups:control,model,taurine and beta;-carotene) respectively,and incubated at 37deg;C in a humidified atmosphere of 5% CO2/95% air. After 24h or 48h ,the retinas were taken out from the media and the SOD,GSH-Px ,protein and malondialdehyde(MDA) were examined. RESULTS:Taurine could inhibite lipid peroxidation in retina ,decrease MDA level ,could not protect GSH-Px activity in retina. The effect of taurine on SOD activity in retina was also uncertain. CONCLUSION:Taurine can inhibit lipid peroxidation in retina in vitro,but the mechanism of that has nothing to do with the effect of taurine on SOD activity and GSH-Px activity. (Chin J Ocul Fundus Dis,1996,12: 183-185 )
PURPOSE:To verify existance of a-,~-,and 3'-protein kinase C(PKC)subspecies and their localization in rabbit retina. METHODS: Using an immunohistoehemical technique with mono- elonal antibodies against PKC isozymes- I (a),-I[ (13),and -~[ (Y) to characterize the distribution of PKC in rabbit retina. RESULTS:There is a positive immunostaining for a-,13-,and ~-PKC in rabbit retina. The immunoreactivity of a-PKC was observed mainly in the bipolar cells of inner nuclear layer and the outer segments of photorecptors. The positive immunostaining of 13-PKC could be seen in the ganglion cells,inner plexiform layer,inner nuclear layer,and the outer segments of photoreceptors. A diffuse and weak staining of Y-PKC is recognized in the ganglion cell layer,inner plexifrom layer,inner nuclear layer, and the outer segments of photoreceptors. CONCLUSION:The protein kinase C sub- speeies-a,-~,and-'Y are present in retina which is a part of the central nervous system