The study of corneal biomechanics in vivo has been evolving fast in recent years.While an organised corneal structure is necessary for its transparency,resistance to occasional external insults and bearing the intraoc...The study of corneal biomechanics in vivo has been evolving fast in recent years.While an organised corneal structure is necessary for its transparency,resistance to occasional external insults and bearing the intraocular pressure(IOP),which several clinically relevant events can disturb.This review focuses on three techniques that are available for clinical use,namely the Ocular Response Analyzer(Reichert Ophthalmic Instruments,Buffalo,NY,USA),the Corvis ST(Oculus Optikgerate GmbH,Wetzlar,Germany)and the Brillouin Optical Scattering System(Intelon Optics Inc.,Lexington,MA,USA).The principles and the main parameters of each device are discussed along with their strategies to improve accuracy in the IOP measurement,corneal ectasia diagnosis,evaluation of corneal cross-linking procedures,and planning of corneal refractive surgeries.展开更多
The evaluation of the corneal biomechanical behaviour has important clinical applications.To name a few,the accuracy of the intraocular pressure measurement,the study of corneal ectatic diseases and the assessment and...The evaluation of the corneal biomechanical behaviour has important clinical applications.To name a few,the accuracy of the intraocular pressure measurement,the study of corneal ectatic diseases and the assessment and optimisation of corneal surgical procedures are all highly influenced by corneal biomechanics.Over the last 45 years different ex-vivo methods were developed to study corneal biomechanical behaviour.Different tissue maintenance,support,loading systems,as well as different monitoring strategies of corneal deformations were employed.In this review,the most important and commonly used methods are outlined,including strip extensiometry,inflation,compression,indentation and tissue separation testing.Their particularities,applications,pros and cons and main applications are discussed.展开更多
基金This study was supported by the Zhejiang Provincial Natural Science Foundation of China under Grant(LY20H120001)the National Natural Science Foundation of China(82001924).
文摘The study of corneal biomechanics in vivo has been evolving fast in recent years.While an organised corneal structure is necessary for its transparency,resistance to occasional external insults and bearing the intraocular pressure(IOP),which several clinically relevant events can disturb.This review focuses on three techniques that are available for clinical use,namely the Ocular Response Analyzer(Reichert Ophthalmic Instruments,Buffalo,NY,USA),the Corvis ST(Oculus Optikgerate GmbH,Wetzlar,Germany)and the Brillouin Optical Scattering System(Intelon Optics Inc.,Lexington,MA,USA).The principles and the main parameters of each device are discussed along with their strategies to improve accuracy in the IOP measurement,corneal ectasia diagnosis,evaluation of corneal cross-linking procedures,and planning of corneal refractive surgeries.
基金This study was supported by the Zhejiang Provincial Natural Science Foundation of China under Grant(LY20H120001,LQ20A020008)the National Natural Science Foundation of China(82001924).
文摘The evaluation of the corneal biomechanical behaviour has important clinical applications.To name a few,the accuracy of the intraocular pressure measurement,the study of corneal ectatic diseases and the assessment and optimisation of corneal surgical procedures are all highly influenced by corneal biomechanics.Over the last 45 years different ex-vivo methods were developed to study corneal biomechanical behaviour.Different tissue maintenance,support,loading systems,as well as different monitoring strategies of corneal deformations were employed.In this review,the most important and commonly used methods are outlined,including strip extensiometry,inflation,compression,indentation and tissue separation testing.Their particularities,applications,pros and cons and main applications are discussed.