中华实验眼科杂志
中華實驗眼科雜誌
중화실험안과잡지
CHINESE JOURNAL OF EXPERIMENTAL OPHTHALMOLOGY
2011年
2期
155-158
,共4页
冯旺强%陈燕%周云新%施明光
馮旺彊%陳燕%週雲新%施明光
풍왕강%진연%주운신%시명광
眼球/玻璃体腔容积/测量%磁共振成像%高度近视%眼轴长度%A型超声
眼毬/玻璃體腔容積/測量%磁共振成像%高度近視%眼軸長度%A型超聲
안구/파리체강용적/측량%자공진성상%고도근시%안축장도%A형초성
Eyeball/vitreous volume/measurement%Magnetic resonance imaging%High myopia%Axial length%A-scan ultrasonography
背景 定量评估高度近视眼玻璃体容积改变与屈光度、眼轴长度之间的关系能够为高度近视的临床研究提供有价值的依据,利用磁共振成像(MRI)技术直接进行活体眼球容积测量具有较好的临床价值.目的 应用MRI测量正视者及高度近视患者眼球内各部分空间容积,比较2组间眼球内各部分容积的差异并明确与眼球容积变化相关的因素.方法采用MRI系统(1.5-T系统)对屈光度为-0.25~+0.50 D的60例正常眼和>6.00 D的60例高度近视眼进行眼前节、晶状体、玻璃体腔容积测量并进行定量比较,采用A型超声对眼轴长度进行测量,采用线性回归法分析高度近视眼玻璃体容积及球内总容积随眼轴长度和屈光度的变化而变化的规律.结果 高度近视组的平均屈光度为(-15.62±8.27)D,A型超声测得眼轴前后径均值为(28.68±2.68)mm,二者呈明显正相关(R2=0.830,P=0.000).高度近视组的球内总容积(7.46±0.89)ml3和玻璃体腔容积(6.90±0.89)ml3明显大于正视组的球内总容积(6.00±0.35)ml3和玻璃体腔容积(5.41±0.32)ml3,差异均有统计学意义(t=-11.846,P=0.000;t=-12.100,P=0.000);而2组之间眼前节容积和晶状体容积的差异均无统计学意义(t=1.230,P=0.220,t=-0.483,P=0.630).高度近视组的玻璃体腔容积与屈光度、眼轴长度均呈高度正相关(R2=0.750,P=0.000;R2=0.850,P=0.000);高度近视组的球内总容积与屈光度、眼轴长度均呈高度正相关(R2=0.754,P=0.000;R2=0.841,P=0.000).结论 玻璃体腔容积的差异是导致不同屈光度眼球内容积差异的主要因为,高度近视眼的玻璃体腔容积与屈光度及眼轴长度呈线性关系,对玻璃体手术有较重要的参考价值.
揹景 定量評估高度近視眼玻璃體容積改變與屈光度、眼軸長度之間的關繫能夠為高度近視的臨床研究提供有價值的依據,利用磁共振成像(MRI)技術直接進行活體眼毬容積測量具有較好的臨床價值.目的 應用MRI測量正視者及高度近視患者眼毬內各部分空間容積,比較2組間眼毬內各部分容積的差異併明確與眼毬容積變化相關的因素.方法採用MRI繫統(1.5-T繫統)對屈光度為-0.25~+0.50 D的60例正常眼和>6.00 D的60例高度近視眼進行眼前節、晶狀體、玻璃體腔容積測量併進行定量比較,採用A型超聲對眼軸長度進行測量,採用線性迴歸法分析高度近視眼玻璃體容積及毬內總容積隨眼軸長度和屈光度的變化而變化的規律.結果 高度近視組的平均屈光度為(-15.62±8.27)D,A型超聲測得眼軸前後徑均值為(28.68±2.68)mm,二者呈明顯正相關(R2=0.830,P=0.000).高度近視組的毬內總容積(7.46±0.89)ml3和玻璃體腔容積(6.90±0.89)ml3明顯大于正視組的毬內總容積(6.00±0.35)ml3和玻璃體腔容積(5.41±0.32)ml3,差異均有統計學意義(t=-11.846,P=0.000;t=-12.100,P=0.000);而2組之間眼前節容積和晶狀體容積的差異均無統計學意義(t=1.230,P=0.220,t=-0.483,P=0.630).高度近視組的玻璃體腔容積與屈光度、眼軸長度均呈高度正相關(R2=0.750,P=0.000;R2=0.850,P=0.000);高度近視組的毬內總容積與屈光度、眼軸長度均呈高度正相關(R2=0.754,P=0.000;R2=0.841,P=0.000).結論 玻璃體腔容積的差異是導緻不同屈光度眼毬內容積差異的主要因為,高度近視眼的玻璃體腔容積與屈光度及眼軸長度呈線性關繫,對玻璃體手術有較重要的參攷價值.
배경 정량평고고도근시안파리체용적개변여굴광도、안축장도지간적관계능구위고도근시적림상연구제공유개치적의거,이용자공진성상(MRI)기술직접진행활체안구용적측량구유교호적림상개치.목적 응용MRI측량정시자급고도근시환자안구내각부분공간용적,비교2조간안구내각부분용적적차이병명학여안구용적변화상관적인소.방법채용MRI계통(1.5-T계통)대굴광도위-0.25~+0.50 D적60례정상안화>6.00 D적60례고도근시안진행안전절、정상체、파리체강용적측량병진행정량비교,채용A형초성대안축장도진행측량,채용선성회귀법분석고도근시안파리체용적급구내총용적수안축장도화굴광도적변화이변화적규률.결과 고도근시조적평균굴광도위(-15.62±8.27)D,A형초성측득안축전후경균치위(28.68±2.68)mm,이자정명현정상관(R2=0.830,P=0.000).고도근시조적구내총용적(7.46±0.89)ml3화파리체강용적(6.90±0.89)ml3명현대우정시조적구내총용적(6.00±0.35)ml3화파리체강용적(5.41±0.32)ml3,차이균유통계학의의(t=-11.846,P=0.000;t=-12.100,P=0.000);이2조지간안전절용적화정상체용적적차이균무통계학의의(t=1.230,P=0.220,t=-0.483,P=0.630).고도근시조적파리체강용적여굴광도、안축장도균정고도정상관(R2=0.750,P=0.000;R2=0.850,P=0.000);고도근시조적구내총용적여굴광도、안축장도균정고도정상관(R2=0.754,P=0.000;R2=0.841,P=0.000).결론 파리체강용적적차이시도치불동굴광도안구내용적차이적주요인위,고도근시안적파리체강용적여굴광도급안축장도정선성관계,대파리체수술유교중요적삼고개치.
Background The quantitative analysis of the relationship between the vitreous volume with diopter and axial length in high myopic eye can offer a valuable basis for relevant clinical research. However, how to measure the ocular volume in vivo is a problem. Objective This study was to measure the eyeball volumes with magnetic resonance imaging ( MRI) and compare the difference of ocular volume between emmetropic and high-myopic eyes in order to explore the influent factors of changes of eyeball volumes. Methods The volumes of ocular anterior segment,lens and vitreous were measured using MRI( 1.5-T) in 60 emmetropic eyes and 60 high-myopic eyes. The ocular axial lengths of the subjects were measured by A-scan ultrasonography. The alterations of vitreous volumes with the changes of axial lengths and diopters were evaluated by linear regression analysis. Written informed consent was obtained from each patient before any medical examination. Results The mean diopters of high myopic eyes was ( - 15. 62 ± 8. 27 ) D and the mean axial lengths were ( 28. 68 ± 2. 68 ) mm, showing a significantly positive correlation between them(R2=0. 830,P = 0. 000). The mean total ocular volumes were(7.46±0. 89)ml3 and those of vitreous were ( 6. 90 ± 0. 8 ) ml3 in the high-myopic eyes with a significant increase in comparison with emmetropic eyes [ ( 6. 00 ± 0. 35 ) ml3 and ( 5. 41 ±0. 32 ) ml3 ] ( t = - 11. 846, P = 0. 000; t = - 12. 1, P = 0. 000 ). However,no significant differences were found in the anterior segment volumes and lens volumes between high myopic eyes and emmetropic eyes (t = 1. 23, P = 0. 220; t = -0. 483 , P = 0. 630 ). The vitreous volumes of high myopic eyes were significantly correlated with the diopters and the axial lengths (R2 =0. 75 ,P = 0. 000 ;R2 =0. 85 ,P = 0. 000) ,and so were the total ocular volumes (R2 = 0. 7543, P = 0. 000; R2 = 0. 8413, P = 0. 000). Conclusion The alteration of vitreous volumes is a mainly cause of difference of total ocular volume in ammetropic eyes. In high myopic eye, vitreous volume has a good linear correlation with refractive error and axial length, which may offer valuable information for vitrectomy.
