Objective To investigate the therapeutic effects of throm bolytic drug infusion via carotid artery on experimental central retinal artery occlusion (CRAO), and observe the changes of fibrinolytic activity in the system ic circulation. Methods To dissolve the thrombi in 15 cats (30 eyes) with CRAO established by laser irradiating a branch of central retinal a rtery after intravenous injection of photochemical drugs, urokinase (UK) was dir ectly infused via carotid artery in 5 cats (10 eyes) in group A or intravenously injected in 5 cats (10 eyes) in group B, and isotonic saline solution was intra venously injected in 5 cats (10 eyes) in group C respectively. The patency of the artery was evaluated by fundus fluorescein angiography. Moreover, the changes of fibrinolitic activity in the blood were observed by blood biochemical examination. Results Four hours after UK infusion, the complete repatency proportion was 80% (5 cats 8 eyes) in group A, and 50% (4 cats 5 eyes) in group B. There was significant difference between the two groups. Besides, after the infusion, the indexes of coagulation, fibrinolysis, and anti-fibrinolysis in group A were better than those in group B and C (Plt;0.01). Conclusion In the treatment of experimental CRAO, thrombolytic drug infusion via carotid artery is better and more effective than via intravenous injection, which may provide a new method of thrombolytic drug delivery and animal models. (Chin J Ocul Fundus Dis,2004,20:186-188)
Objective To set up a new animal model of branch retinal vein occlusion (BRVO), which was quite similar to the clinical features and pathogenesis of this disease. Methods The animal model was set up by laser (krypton green 90 ~150 mW) irradiating a branch of central retinal vein after intravenous injection of photochemical drug (3% rose bengal) to 5 pigmented rabbits, and the model was confirmed by fundus fluorescein angiography (FFA) and pathological examination. Results The model of BRVO was successfully set up, which was confirmed by clinical examination and FFA. Pathological examination showed that the occlusion was caused by intra-venousthrombosis. Conclusion An experimental BRVO model, which has the similar pathological processes of occlusion of central retinal vein and intra-venous thrombosis as those in clinic can be set up by using photochemical method. The method is quite simple, and it offers a better animal model for clinical therapeutic research. (Chin J Ocul Fundus Dis,2002,18:23-25)
Objective To detect and analyse the mutations in rhodopsin gene of members in a family affected by autosomal dominant retinitis pigmentosa (ADRP). Methods Using the polymerase chain reaction (PCR), we amplified exon 1-5 of rhodopsin gene in patients with ADRP,and analyzed it with direct sequence measuement. Results The Gly-182-Asp mutation in the rhodopsin gene was detected in most of affected members of this ADRP family, but no mutation was detected in two affected members and the control ones. Conclusion We cannot regard the Gly-182-Asp mutation in the rhodopsin gene as the pathagenic factor of the ADRP family. It is likely there is a new gene next to the rhodopsin gene. (Chin J Ocul Fundus Dis, 2002, 18: 256-258)
Objective To inspect the effects of recombinant staphylokinase (r-Sak) and the changes of fibrinolytic activity in the systemic circulation in the treatment of experimental central retinal artery occlusion (CRAO). Methods The animal model of CRAO in 15 cats (30 eyes) was set up by laser irradiating a branch of central retinal artery after intravenous injection of 3% rose bengal,and then the arterial thrombi were dissolved by intravenous injection of r-Sak and urokinase (UK).The pat ency of the arteries was evaluated by FFA.Moreover,the changes of fibrinolitic activity in the blood were examined by phlebotomizing. Results The model of CRAO was successfully set up.Four hours after injection of thrombolysis drugs,the completely reopened proportion in r-Sak group was 100%,while in UK group the proportion was 60%.At the same time, no significant systemic fibinnolytic activation was observed in r-Sak group. Conclusions An experimental CRAO model,which has the similar pathological processes of occlusion of central retinal artery and intra arterial thrombosis as those in clinic,can be set up by using photochemical method,and r-rak is capable of lysing thrombus without significant activation of circulating plasminogen. (Chin J Ocul Fundus Dis,2000,16:71-138)