第四军医大学学报
第四軍醫大學學報
제사군의대학학보
JOURNAL OF THE FOURTH MILITARY MEDICAL UNIVERSITY
2001年
2期
105-107
,共3页
高前应%高如尧%卢佩勇%蒙艳春%朱涛%李力%王培杰%郭延奎
高前應%高如堯%盧珮勇%矇豔春%硃濤%李力%王培傑%郭延奎
고전응%고여요%로패용%몽염춘%주도%리력%왕배걸%곽연규
多巴胺%形觉剥夺%兔%近视%超声处理%病理学
多巴胺%形覺剝奪%兔%近視%超聲處理%病理學
다파알%형각박탈%토%근시%초성처리%병이학
目的 研究多巴胺对实验性近视形成的影响. 方法 7 日龄幼兔52只,分A, B, C, 3组. A组20只,单纯缝合眼睑;B组16只,缝合眼睑+玻璃体内 注射多巴胺;C组16只,缝合 眼睑+玻璃体注射生理盐水. 均以右眼为实验眼,左眼为对照眼. 第60日用A超测量每组双眼 的前房深度、晶体厚度、玻璃体腔长度和眼轴长度,并计算玻璃体腔长度/眼轴长度,同 时进行病理学观察. 结果 A,C两组中实验眼的玻璃体腔长度、眼轴长度 和玻璃体腔长度 /眼轴长度分别为(7.9±0.6) mm, (15.4±0.6) mm, 0.52±0.03; (7.3±0.5) mm, (15. 1±0.7) mm , 0.49±0.02; 对照眼则为(7.2±0.8) mm, (14.5±0.7) mm, 0.48±0.02; (6.8±0.4) m m, (14.6±0.6) mm, 0.46±0.02. 两眼间的差异有高度显著的统计学意义(P< 0.001),前房深度和晶体厚度 无统计学差异,而B组均无统计学差异. 巩膜胶原纤维在A, C两组中明显变细,而在B组中改 变较轻. 结论 形觉剥夺能导致眼球的轴性延长,玻璃体腔延长和VCL/AL 增大是其 形态学原因,巩膜纤维的变细、延长是其病理学原因之一,而多巴胺能部分阻止这些改变.
目的 研究多巴胺對實驗性近視形成的影響. 方法 7 日齡幼兔52隻,分A, B, C, 3組. A組20隻,單純縫閤眼瞼;B組16隻,縫閤眼瞼+玻璃體內 註射多巴胺;C組16隻,縫閤 眼瞼+玻璃體註射生理鹽水. 均以右眼為實驗眼,左眼為對照眼. 第60日用A超測量每組雙眼 的前房深度、晶體厚度、玻璃體腔長度和眼軸長度,併計算玻璃體腔長度/眼軸長度,同 時進行病理學觀察. 結果 A,C兩組中實驗眼的玻璃體腔長度、眼軸長度 和玻璃體腔長度 /眼軸長度分彆為(7.9±0.6) mm, (15.4±0.6) mm, 0.52±0.03; (7.3±0.5) mm, (15. 1±0.7) mm , 0.49±0.02; 對照眼則為(7.2±0.8) mm, (14.5±0.7) mm, 0.48±0.02; (6.8±0.4) m m, (14.6±0.6) mm, 0.46±0.02. 兩眼間的差異有高度顯著的統計學意義(P< 0.001),前房深度和晶體厚度 無統計學差異,而B組均無統計學差異. 鞏膜膠原纖維在A, C兩組中明顯變細,而在B組中改 變較輕. 結論 形覺剝奪能導緻眼毬的軸性延長,玻璃體腔延長和VCL/AL 增大是其 形態學原因,鞏膜纖維的變細、延長是其病理學原因之一,而多巴胺能部分阻止這些改變.
목적 연구다파알대실험성근시형성적영향. 방법 7 일령유토52지,분A, B, C, 3조. A조20지,단순봉합안검;B조16지,봉합안검+파리체내 주사다파알;C조16지,봉합 안검+파리체주사생리염수. 균이우안위실험안,좌안위대조안. 제60일용A초측량매조쌍안 적전방심도、정체후도、파리체강장도화안축장도,병계산파리체강장도/안축장도,동 시진행병이학관찰. 결과 A,C량조중실험안적파리체강장도、안축장도 화파리체강장도 /안축장도분별위(7.9±0.6) mm, (15.4±0.6) mm, 0.52±0.03; (7.3±0.5) mm, (15. 1±0.7) mm , 0.49±0.02; 대조안칙위(7.2±0.8) mm, (14.5±0.7) mm, 0.48±0.02; (6.8±0.4) m m, (14.6±0.6) mm, 0.46±0.02. 량안간적차이유고도현저적통계학의의(P< 0.001),전방심도화정체후도 무통계학차이,이B조균무통계학차이. 공막효원섬유재A, C량조중명현변세,이재B조중개 변교경. 결론 형각박탈능도치안구적축성연장,파리체강연장화VCL/AL 증대시기 형태학원인,공막섬유적변세、연장시기병이학원인지일,이다파알능부분조지저사개변.
AIM To study effects of dopamine on form deprived myopia. [ WTHZ〗METHODS Fi fty-two of seven-day-old neonatal rabbits were divided into group A, B and C and monocularly deprived of pattern vision by suturation of right eyelids. I n group A (n=20), no drug was used, while rabbits in group B and C received a series of intravitreal injection of dopamine (n=16) or saline vehicle (n =16) with MD, respectively, the left eye were employed as control groups. Anterior chamb er depth (ACD), lenticular thickness (LT), vitreous chamber length (VCL) and axi al length (AL) of each eye were determined by means of A-scan ultrasonography on day 60, VCL/AL was calculated and pathologic changes were also observed. RESULTS VCL, AL and VCL/AL of deprived eyes in group A and C were ( 7.9±0.6) mm, (15.4±0.6) mm, 0.52±0.03; (7.3±0.5) mm, (15.1±0.7) mm, 0.49±0 .02; yet those of control eyes were (7.2±0.8) mm, (14.5±0.7) mm, 0.48±0.02; (6.8±0.4) mm, (14.6±0.6 ) mm, 0.46±0.02. VCL, AL and VCL/AL but not ACD and LT of deprived eyes showed a significant di fference in group A and C (P<0.001), yet these did not show any difference i n group B. Scleral collagen fibres of deprived eyes were markedly thinner in g roup A and C, but were less in group B. CONCLUSION Form depriva tion can induce axial elongation, longer vitreous chamber, higher VCL/AL and thinner scleral fib re do play a crucial role in the onset of myopia, while dopamine can partly bloc k these changes.
