CAJ | 학술논문

背景脉络膜新生血管(CNV)是导致眼部多种视力严重损伤疾病的病理改变之一.频域光学相干断层扫描(SD-OCT)检查可实现在眼部组织的连续观察、测量和分析. 目的采用SD-OCT对激光诱导的大鼠CNV进行量化检测,评估SD-OCT对CNV进行活体定量检测的可行性及应用价值. 方法摘取30只BN大鼠的左眼,采用532 nm激光进行视网膜光凝的方法建立CNV模型,激光功率为200 mW,光斑直径为100 μm,曝光时间为50 ms,以光凝后产生气泡或伴有轻度出血为击破Brunch膜和造模成功的标志.分别于光凝后3、7、14、21d采用荧光素眼底血管造影(FFA)检查法判断造模成功与否并进行评分,同时采用SD-OCT对CNV形成过程进行活体实时测量,CNV膜厚度(CMT)为视网膜内界膜至视网膜色素上皮(RPE)-脉络膜血管层之间的最大距离,结合光凝后14d的组织病理学检查结果对CNV测量结果进行评估和验证.BN大鼠的右眼作为对照眼.结果 FFA检查结果表明,光凝后7d开始出现视网膜的盘状荧光素渗漏,14 d渗漏区扩大.光凝后7、14、21 d,CNV的渗漏评分分别为(1.6±0.4)、(2.5±0.6)、(2.4±0.5)分,3个时间点渗漏评分的比较差异有统计学意义(F=13.11,P＜0.01);光凝后14 d、21d,CNV渗漏评分明显高于光凝后7d,差异均有统计学意义(P＜0.05).光凝后7、14、21d,SD-OCT测量的CMT分别为(76.33 ±10.09)、(102.03 ±14.21)、(98.03 ±13.76) μm,3个时间点CMT的差异有统计学意义(F=23.25,P＜0.01);光凝后14d和21d,CMT与7d相比明显增加,差异均有统计学意义(P＜0.05).SD-OCT检查结果与FFA结果相比,随着时间的延长CNV的发展趋势具有一致性.光凝后14 d,组织病理学检查证实CNV形成,进一步证实上述改变.结论 532 nm激光能成功诱导BN大鼠形成CNV,具有模型稳定、成模率高的优点.SD-OCT可在CNV的形成过程中进行实时、活体、无创和动态的定量观察,为客观评价CNV及其变化提供依据,还可用于对CNV的转归和药物对CNV治疗效果的定量动态检测. 揹景脈絡膜新生血管(CNV)是導緻眼部多種視力嚴重損傷疾病的病理改變之一.頻域光學相榦斷層掃描(SD-OCT)檢查可實現在眼部組織的連續觀察、測量和分析. 目的採用SD-OCT對激光誘導的大鼠CNV進行量化檢測,評估SD-OCT對CNV進行活體定量檢測的可行性及應用價值. 方法摘取30隻BN大鼠的左眼,採用532 nm激光進行視網膜光凝的方法建立CNV模型,激光功率為200 mW,光斑直徑為100 μm,曝光時間為50 ms,以光凝後產生氣泡或伴有輕度齣血為擊破Brunch膜和造模成功的標誌.分彆于光凝後3、7、14、21d採用熒光素眼底血管造影(FFA)檢查法判斷造模成功與否併進行評分,同時採用SD-OCT對CNV形成過程進行活體實時測量,CNV膜厚度(CMT)為視網膜內界膜至視網膜色素上皮(RPE)-脈絡膜血管層之間的最大距離,結閤光凝後14d的組織病理學檢查結果對CNV測量結果進行評估和驗證.BN大鼠的右眼作為對照眼.結果 FFA檢查結果錶明,光凝後7d開始齣現視網膜的盤狀熒光素滲漏,14 d滲漏區擴大.光凝後7、14、21 d,CNV的滲漏評分分彆為(1.6±0.4)、(2.5±0.6)、(2.4±0.5)分,3箇時間點滲漏評分的比較差異有統計學意義(F=13.11,P＜0.01);光凝後14 d、21d,CNV滲漏評分明顯高于光凝後7d,差異均有統計學意義(P＜0.05).光凝後7、14、21d,SD-OCT測量的CMT分彆為(76.33 ±10.09)、(102.03 ±14.21)、(98.03 ±13.76) μm,3箇時間點CMT的差異有統計學意義(F=23.25,P＜0.01);光凝後14d和21d,CMT與7d相比明顯增加,差異均有統計學意義(P＜0.05).SD-OCT檢查結果與FFA結果相比,隨著時間的延長CNV的髮展趨勢具有一緻性.光凝後14 d,組織病理學檢查證實CNV形成,進一步證實上述改變.結論 532 nm激光能成功誘導BN大鼠形成CNV,具有模型穩定、成模率高的優點.SD-OCT可在CNV的形成過程中進行實時、活體、無創和動態的定量觀察,為客觀評價CNV及其變化提供依據,還可用于對CNV的轉歸和藥物對CNV治療效果的定量動態檢測.
배경 맥락막신생혈관(CNV)시도치안부다충시력엄중손상질병적병리개변지일.빈역광학상간단층소묘(SD-OCT)검사가실현재안부조직적련속관찰、측량화분석. 목적 채용SD-OCT대격광유도적대서CNV진행양화검측,평고SD-OCT대CNV진행활체정량검측적가행성급응용개치. 방법 적취30지BN대서적좌안,채용532 nm격광진행시망막광응적방법건립CNV모형,격광공솔위200 mW,광반직경위100 μm,폭광시간위50 ms,이광응후산생기포혹반유경도출혈위격파Brunch막화조모성공적표지.분별우광응후3、7、14、21d채용형광소안저혈관조영(FFA)검사법판단조모성공여부병진행평분,동시채용SD-OCT대CNV형성과정진행활체실시측량,CNV막후도(CMT)위시망막내계막지시망막색소상피(RPE)-맥락막혈관층지간적최대거리,결합광응후14d적조직병이학검사결과대CNV측량결과진행평고화험증.BN대서적우안작위대조안.결과 FFA검사결과표명,광응후7d개시출현시망막적반상형광소삼루,14 d삼루구확대.광응후7、14、21 d,CNV적삼루평분분별위(1.6±0.4)、(2.5±0.6)、(2.4±0.5)분,3개시간점삼루평분적비교차이유통계학의의(F=13.11,P＜0.01);광응후14 d、21d,CNV삼루평분명현고우광응후7d,차이균유통계학의의(P＜0.05).광응후7、14、21d,SD-OCT측량적CMT분별위(76.33 ±10.09)、(102.03 ±14.21)、(98.03 ±13.76) μm,3개시간점CMT적차이유통계학의의(F=23.25,P＜0.01);광응후14d화21d,CMT여7d상비명현증가,차이균유통계학의의(P＜0.05).SD-OCT검사결과여FFA결과상비,수착시간적연장CNV적발전추세구유일치성.광응후14 d,조직병이학검사증실CNV형성,진일보증실상술개변.결론 532 nm격광능성공유도BN대서형성CNV,구유모형은정、성모솔고적우점.SD-OCT가재CNV적형성과정중진행실시、활체、무창화동태적정량관찰,위객관평개CNV급기변화제공의거,환가용우대CNV적전귀화약물대CNV치료효과적정량동태검측.
Background The neovascular form of the disease usually causes severe vision loss in a number of eye diseases.Special-domain optical coherence tomography (SD-OCT) provides high-quality in retinal imaging and the possibility of the measurement in vivo.Objective This study aimed to investigate the feasibility of SD-OCT dynamically measuring choroidal neovascularization (CNV).Methods CNV was induced in 30 left eyes of 30 clean Brown Norway(BN)rats by retinal photocoagulation with the laser parameter as follows: wavelength 532 nm,exciting power 200 mW,spot diameter 100 μm and irradiating time 50 ms.Bubble or less retinal bleeding was thought as Brunch membrane breakage and CNV model establishment.Fundus fluorescein angiography(FFA) was performed to determine the establishment of CNV model and scored based on the fluorescein leakage on 3,7,14,21 days after photocoagulation.Meanwhile,CNV memberane thickness (CMT) was dynamically measured in vivo as the maxiume value from retinal inner limiting membrane through choroidal vessel layer in various time points.Histopathologic examination was used in the 14th day to evaluate and verify the result of SD-OCT.The right eyes were as controls.Results FFA examination showed that disc-like leakage of fluorescein appeared in 7 days and extended in 14 days after photocoagulation with the scores of 1.6±0.4,2.5±0.6 and 2.4±0.5 in 7,14 and 21 days,showing a significant difference among them(F=13.11,P＜0.01).The fluorescein leakage score was significantly higher in 14 and 21 days than that of 7 days(both P＜0.05).CMT measured by SD-OCT was(76.33±10.09),(102.03±14.21)and(98.03±13.76) μm in 7,14 and 21 days after photocoagulation respectively,with a significant difference among 3 time points (F=23.25,P＜0.01),and that in 14 and 21 days was significantly declined in comparison with 7 days(both P＜0.05).The results of SD-OCT showed a consistent tendency with that of FFA.Histopathological examination showed CNV formation in 14 days after photocoagulation.Conclusions Experimental CNV model was successfully induced by laser photography.SD-OCT technology allows excellent visualization of CNV in vivo.