使用动态双向压平分析比较近视和远视眼的眼部生物力学响应参数。
Comparison of ocular biomechanical response parameters in myopic and hyperopic eyes using dynamic bidirectional applanation analysis.
作者信息
Roberts Cynthia J, Reinstein Dan Z, Archer Timothy J, Mahmoud Ashraf M, Gobbe Marine, Lee Linden
机构信息
From the Department of Ophthalmology and the Department of Biomedical Engineering (Roberts, Mahmoud), and the College of Medicine (Lee), The Ohio State University, Columbus, Ohio; the Department of Ophthalmology (Reinstein), Columbia University Medical Center, New York, New York, USA; the London Vision Clinic (Reinstein, Archer, Gobbe), London, United Kingdom; the Centre Hospitalier National d'Ophtalmologie (Reinstein), Paris, France.
From the Department of Ophthalmology and the Department of Biomedical Engineering (Roberts, Mahmoud), and the College of Medicine (Lee), The Ohio State University, Columbus, Ohio; the Department of Ophthalmology (Reinstein), Columbia University Medical Center, New York, New York, USA; the London Vision Clinic (Reinstein, Archer, Gobbe), London, United Kingdom; the Centre Hospitalier National d'Ophtalmologie (Reinstein), Paris, France.
出版信息
J Cataract Refract Surg. 2014 Jun;40(6):929-36. doi: 10.1016/j.jcrs.2014.04.011.
PURPOSE
To compare differences in the ocular biomechanical response in myopic and hyperopic eyes.
SETTING
London Vision Clinic, London, United Kingdom, The Ohio State University, Columbus, OH, United States.
DESIGN
Retrospective study.
METHODS
The study population included myopic and hyperopic patients evaluated preoperatively for refractive surgery at the London Vision Clinic between June 2006 and May 2008. Biomechanical response parameters from the dynamic bidirectional applanation device (Ocular Response Analyzer) were analyzed using custom software for signal analysis, including corneal hysteresis (CH) and 10 other output parameters. Hyperopic eyes were compared with myopic eyes first matched for age and pachymetry and then matched for age, pachymetry, and corneal-compensated intraocular pressure (IOPcc). Nonpaired t tests were performed (P<.05) to compare parameters in the 2 groups.
RESULTS
Consecutive patients included 2608 eyes with 1623 myopic eyes and 787 hyperopic eyes that met enrollment criteria. A significant correlation (P<.0001) was shown between CH and age (negative), pachymetry (positive), and IOPcc (negative). The first match included 473 eyes in each group, and the second match included 260 eyes in each group. When matching for age and pachymetry only, certain parameters implied that hyperopic eyes were stiffer, while others implied that myopic eyes were stiffer, but IOPcc was significantly greater in the myopic group. The second match, which also controlled for IOPcc, showed that all biomechanical parameters implied that hyperopic eyes were stiffer.
CONCLUSIONS
Hyperopic eyes demonstrated stiffer response parameters than myopic eyes. Intraocular pressure was demonstrated to be a confounding factor when evaluating ocular biomechanical parameters.
FINANCIAL DISCLOSURES
Proprietary or commercial disclosures are listed after the references.
目的
比较近视和远视眼眼生物力学反应的差异。
设置
英国伦敦伦敦视力诊所、美国俄亥俄州哥伦布市俄亥俄州立大学。
设计
回顾性研究。
方法
研究人群包括2006年6月至2008年5月期间在伦敦视力诊所接受屈光手术术前评估的近视和远视患者。使用定制的信号分析软件分析动态双向压平装置(眼反应分析仪)的生物力学反应参数,包括角膜滞后(CH)和其他10个输出参数。首先将远视眼与年龄和角膜厚度匹配的近视眼进行比较,然后将远视眼与年龄、角膜厚度和角膜补偿眼压(IOPcc)匹配的近视眼进行比较。进行非配对t检验(P<0.05)以比较两组参数。
结果
连续患者包括2608只眼,其中1623只近视眼和787只远视眼符合纳入标准。CH与年龄(负相关)、角膜厚度(正相关)和IOPcc(负相关)之间存在显著相关性(P<0.0001)。第一次匹配每组包括473只眼,第二次匹配每组包括260只眼。仅在年龄和角膜厚度匹配时,某些参数表明远视眼更硬,而其他参数表明近视眼更硬,但近视眼组的IOPcc显著更高。第二次匹配也控制了IOPcc,结果显示所有生物力学参数都表明远视眼更硬。
结论
远视眼的反应参数比近视眼更硬。在评估眼生物力学参数时,眼压被证明是一个混杂因素。
财务披露
专有或商业披露列在参考文献之后。
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