角膜生物力学测量方法及临床应用
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摘要
角膜是人眼球屈光系统的重要组成部分,角膜的生物材料性质确定了其在角膜扩张和相关疾病中发挥重要作用。本文对角膜生物力学的离体测量、在体测量方法进行了总结,并对角膜生物力学在系统性疾病、扩张性角膜病、青光眼、近视等眼科疾病中的特点与临床应用进行了回顾。
Cornea is an important part ofhuman's refractive system. Corneal biomechanics plays an important role in corneal ectasia and related diseases. The corneal biomechanics measured in vitro and in vivo and its clinical application in system diseases and elastic corneal disease,glaucoma,myopic are reviewed in this literature summary.
Cornea is an important part ofhuman's refractive system. Corneal biomechanics plays an important role in corneal ectasia and related diseases. The corneal biomechanics measured in vitro and in vivo and its clinical application in system diseases and elastic corneal disease,glaucoma,myopic are reviewed in this literature summary.
引文
1曹雪倩,张章,王林农.角膜生物力学测量及其临床应用新进展.医学研究生学报2016;29(3):319-322
2吴东芳,邓应平.角膜生物力学应用研究进展.国际眼科杂志2012;12(9):1680-1682
3 Vellara HR,Patel DV.Biomechanical properties of the keratoconic cornea:a review.Clin Exp Optom 2015;98(1):31-38
4 Litwin KL,Moreira H,Ohadi C,et al.Changes in corneal curvature at different excimer laser ablative depths.Am J Ophthalmol 1991;111(3):382-384
5 Komai Y,Ushiki T.The three-dimensional organization of collagen fibrils in the human cornea and sclera.Invest Ophthalmol Vis Sci 1991;32(8):2244-2258
6 Roberts CJ,Dupps WJ Jr.Biomechanics of corneal ectasia and biomechanical treatments.J Cataract Refract Surg 2014;40(6):991-998
7周海松,柴玉明,赵安利,等.眼轴长度与角膜屈光力、近视度的相关分析.现代诊断与治疗2003;14(4):224-225
8 Kling S,Ginis H,Marcos S.Corneal biomechanical properties from two-dimensional corneal flap extensiometry:application to UV-riboflavin cross-linking.Invest Ophthalmol Vis Sci 2012;53(8):5010-5015
9 Whitford C,Elsheikh A,包芳军.角膜生物力学检测方法介绍.中华眼视光学与视觉科学杂志2014;16(5):257-262
10 Luce DA.Determining in vivo biomechanical properties of the cornea with an ocular response analyzer.J Cataract Refract Surg 2005;31(1):156-162
11李从谊,段宣初.ORA眼反应分析仪的临床应用价值.国际眼科杂志2009;9(5):934-937
12汪倩,王琳琳,张妍,等.角膜生物力学特性的测量方法研究现状.国际眼科杂志2016;16(10):1840-1846
13 Mc Monnies CW.Assessing corneal hysteresis using the ocular response analyzer.Optom Vis Sci 2012;89(3):E343-349
14田磊,王丽强,孟晓丽,等.应用可视化角膜生物力学分析仪评估不同阶段圆锥角膜生物力学特征.中华眼视光学与视觉科学杂志2014;16(5):268-273
15窦瑞,王雁,李华,等.单纯近视患者Corvis ST测定的角膜形变参数与角膜形态学参数的相关性.中华实验眼科杂志2016;34(9):829-836
16宋沙沙,李军,宋慧.角膜生物力学测量研究进展.中国实用眼科杂志2015;33(11):1193-1196
17 Shih PJ,Cao HJ,Huang CJ,et al.A corneal elastic dynamic model derived from Scheimpflug imaging technology.Ophthalmic Physiol Opt2015;35(6):663-672
18 Hon Y,Lam AK.Corneal deformation measurement using Scheimpflug noncontact tonometry.Optom Vis Sci 2013;90(1):1-8
19 Krueger R,Esteban JR.How might corneal elasticity help us understand diabetes and intraocular pressure?J Refract Surg 2007;23(1):85-88
20 Seiler T,Huhle S,Spoerl E,et al.Manifest diabetes and keratoconus:a retrospective case-control study.Graefes Arch Clin Exp Ophthalmol2000;238(10):822-825
21 Wolffsohn J,Safeen S,Shah S,et al.Changes of corneal biomechanics with keratoconus.Cornea 2012;31(8):849-854
22 Seymeno?lu G,Baser EF,Zerdeci N,et al.Corneal Biomechanical Properties during the Menstrual Cycle.Curr Eye Res 2011;36(5):399-403
23 Gatinel D,Chaabouni S,Adam P,et al.Corneal hysteresis,resistance factor,topography,and pachymetry after corneal lamellar flap.J Refract Surg 2007;23(1):76-84
24 Spoerl E,Huhle M,Seiler T.Induction of cross-links in corneal tissue.Exp Eye Res 1998;66(1):97-103
25 Kymionis GD,Tsoulnaras KI,Grentzelos MA,et al.Evaluation of corneal stromal demarcation line depth following standard and a modified-accelerated collagen cross-linking protocol.Am JOphthalmol 2014;158(4):671-675
26 Forbes M,Pico G Jr,Grolman B.A noncontact applanation tonometer.Description and clinical evaluation.Arch Ophthalmol 1974;91(2):134-140
27 Broman A,Congdon N,Roche KB,et al.Influence of corneal structure,corneal responsiveness,and other ocular parameters on tonometric measurement of intraocular pressure.J Glaucoma 2007;16(7):581-588
28 Congdon NG,Broman AT,Bandeen-Roche K,et al.Central corneal thickness and corneal hysteresis associated with glaucoma damage.Am JOphthalmol 2006;141(5):868-875
29 Chansangpetch S,Panpruk R,Manassakorn A,et al.Impact of Myopia on Corneal Biomechanics in Glaucoma and Nonglaucoma Patients.Invest Ophthalmol Vis Sci 2017;58(12):4990-4996
30林琳,宋宗明,游逸安.近视屈光度与眼轴长度的相关性分析.浙江临床医学杂志2007;9(2):173-174
31胡文政,褚仁远.近视眼巩膜的变化及其发生机制.眼视光学杂志2001;3(1):56-59
32 Xu S,Xu A,Tao A,et al.Corneal biomechanical properties and intraocular pressure in high myopic anisometropia.Eye Contact Lens.2010;36(4):204-209
33 Lim L,Gazzard G,Chan YH,et al.Cornea biomechanical characteristics and their correlates with refractive error in Singaporean children.Invest Ophthalmol Vis Sci 2008;49(9):3852-3857
34杨铮,雷方,周瑞雅,等.眼压在儿童不同程度近视和眼轴变化中的作用.中华实验眼科杂志2016;34(7):635-638
35孙倩,周跃华.远视眼与近视眼角膜生物力学研究及眼压的比较.眼科新进展2014;34(10):971-974
36邓铮铮,张晶,周跃华.近视性屈光参差患者双眼角膜生物力学及眼压特点的研究.眼科2011;20(2):116-120
37 Nomura H,Ando F,Niino N,et al.The relationship between intraocular pressure and refractive error adjusting for age and central corneal thickness.Ophthalmic Physiol Opt 2004;24(1):41-45
38 Song SS,Li J,Song H.Effects of axial length and corneal curvature on corneal biomechanics in elderly population.Guoji Yanke Zazhi(Int Eye Sci)2017;17(5):802-808
39 Binder PS,May CH,Grant SC.An evaluation of orthokeratology.Ophthalmology 1980;87(8):729-744
40 Swarbrick HA,Wong G,O'Leary DJ.Corneal response to orthokeratology.Optom Vis Sci 1998;75(11):791-799
41高韶晖,方梦园,李士清,等.角膜生物力学与角巩膜物理特性及眼前段结构的相关研究.中国实用眼科杂志2015;33(12):1341-1344
42 Mcbrien N,Jobling A,Gentle A.Biomechanics of the sclera in myopia:extracellular and cellular factors.Optom Vis Sci 2009;86(1):E23-30
43 Pi1ero D,Alio J,Barraquer R,et al.Corneal biomechanics,refraction,and corneal aberrometry in keratoconus:an integrated study.Invest Ophthalmol Vis Sci 2010;51(4):1948-1955
44 Tian L,Huang Y,Wang L,et al.Corneal biomechanical assessment using corneal visualization scheimpflug technology in keratoconic and normal eyes.J Ophthalmol 2014;2014:147516
45 Prata T,Sousa A,Filho CG,et al.Assessment of corneal biomechanical properties and intraocular pressure in patients with rheumatoid arthritis.Can J Ophthalmol 2009;44(5):602
46 Bueno-Gimeno I,Espa1a-Gregori E,Gene-Sampedro A,et al.Relationship among corneal biomechanics,refractive error,and axial length.Optom Vis Sci 2014;91(5):507-513
47许爱琴,方海珍.近视性高度屈光参差眼屈光参数和角膜生物学参数的研究.中国实用眼科杂志2011;29(10):1014-1017
48邓铮铮,李仕明,周跃华,等.近视人群角膜生物力学特性的变化及其影响因素.中华实验眼科杂志2016;34(9):842-846
2吴东芳,邓应平.角膜生物力学应用研究进展.国际眼科杂志2012;12(9):1680-1682
3 Vellara HR,Patel DV.Biomechanical properties of the keratoconic cornea:a review.Clin Exp Optom 2015;98(1):31-38
4 Litwin KL,Moreira H,Ohadi C,et al.Changes in corneal curvature at different excimer laser ablative depths.Am J Ophthalmol 1991;111(3):382-384
5 Komai Y,Ushiki T.The three-dimensional organization of collagen fibrils in the human cornea and sclera.Invest Ophthalmol Vis Sci 1991;32(8):2244-2258
6 Roberts CJ,Dupps WJ Jr.Biomechanics of corneal ectasia and biomechanical treatments.J Cataract Refract Surg 2014;40(6):991-998
7周海松,柴玉明,赵安利,等.眼轴长度与角膜屈光力、近视度的相关分析.现代诊断与治疗2003;14(4):224-225
8 Kling S,Ginis H,Marcos S.Corneal biomechanical properties from two-dimensional corneal flap extensiometry:application to UV-riboflavin cross-linking.Invest Ophthalmol Vis Sci 2012;53(8):5010-5015
9 Whitford C,Elsheikh A,包芳军.角膜生物力学检测方法介绍.中华眼视光学与视觉科学杂志2014;16(5):257-262
10 Luce DA.Determining in vivo biomechanical properties of the cornea with an ocular response analyzer.J Cataract Refract Surg 2005;31(1):156-162
11李从谊,段宣初.ORA眼反应分析仪的临床应用价值.国际眼科杂志2009;9(5):934-937
12汪倩,王琳琳,张妍,等.角膜生物力学特性的测量方法研究现状.国际眼科杂志2016;16(10):1840-1846
13 Mc Monnies CW.Assessing corneal hysteresis using the ocular response analyzer.Optom Vis Sci 2012;89(3):E343-349
14田磊,王丽强,孟晓丽,等.应用可视化角膜生物力学分析仪评估不同阶段圆锥角膜生物力学特征.中华眼视光学与视觉科学杂志2014;16(5):268-273
15窦瑞,王雁,李华,等.单纯近视患者Corvis ST测定的角膜形变参数与角膜形态学参数的相关性.中华实验眼科杂志2016;34(9):829-836
16宋沙沙,李军,宋慧.角膜生物力学测量研究进展.中国实用眼科杂志2015;33(11):1193-1196
17 Shih PJ,Cao HJ,Huang CJ,et al.A corneal elastic dynamic model derived from Scheimpflug imaging technology.Ophthalmic Physiol Opt2015;35(6):663-672
18 Hon Y,Lam AK.Corneal deformation measurement using Scheimpflug noncontact tonometry.Optom Vis Sci 2013;90(1):1-8
19 Krueger R,Esteban JR.How might corneal elasticity help us understand diabetes and intraocular pressure?J Refract Surg 2007;23(1):85-88
20 Seiler T,Huhle S,Spoerl E,et al.Manifest diabetes and keratoconus:a retrospective case-control study.Graefes Arch Clin Exp Ophthalmol2000;238(10):822-825
21 Wolffsohn J,Safeen S,Shah S,et al.Changes of corneal biomechanics with keratoconus.Cornea 2012;31(8):849-854
22 Seymeno?lu G,Baser EF,Zerdeci N,et al.Corneal Biomechanical Properties during the Menstrual Cycle.Curr Eye Res 2011;36(5):399-403
23 Gatinel D,Chaabouni S,Adam P,et al.Corneal hysteresis,resistance factor,topography,and pachymetry after corneal lamellar flap.J Refract Surg 2007;23(1):76-84
24 Spoerl E,Huhle M,Seiler T.Induction of cross-links in corneal tissue.Exp Eye Res 1998;66(1):97-103
25 Kymionis GD,Tsoulnaras KI,Grentzelos MA,et al.Evaluation of corneal stromal demarcation line depth following standard and a modified-accelerated collagen cross-linking protocol.Am JOphthalmol 2014;158(4):671-675
26 Forbes M,Pico G Jr,Grolman B.A noncontact applanation tonometer.Description and clinical evaluation.Arch Ophthalmol 1974;91(2):134-140
27 Broman A,Congdon N,Roche KB,et al.Influence of corneal structure,corneal responsiveness,and other ocular parameters on tonometric measurement of intraocular pressure.J Glaucoma 2007;16(7):581-588
28 Congdon NG,Broman AT,Bandeen-Roche K,et al.Central corneal thickness and corneal hysteresis associated with glaucoma damage.Am JOphthalmol 2006;141(5):868-875
29 Chansangpetch S,Panpruk R,Manassakorn A,et al.Impact of Myopia on Corneal Biomechanics in Glaucoma and Nonglaucoma Patients.Invest Ophthalmol Vis Sci 2017;58(12):4990-4996
30林琳,宋宗明,游逸安.近视屈光度与眼轴长度的相关性分析.浙江临床医学杂志2007;9(2):173-174
31胡文政,褚仁远.近视眼巩膜的变化及其发生机制.眼视光学杂志2001;3(1):56-59
32 Xu S,Xu A,Tao A,et al.Corneal biomechanical properties and intraocular pressure in high myopic anisometropia.Eye Contact Lens.2010;36(4):204-209
33 Lim L,Gazzard G,Chan YH,et al.Cornea biomechanical characteristics and their correlates with refractive error in Singaporean children.Invest Ophthalmol Vis Sci 2008;49(9):3852-3857
34杨铮,雷方,周瑞雅,等.眼压在儿童不同程度近视和眼轴变化中的作用.中华实验眼科杂志2016;34(7):635-638
35孙倩,周跃华.远视眼与近视眼角膜生物力学研究及眼压的比较.眼科新进展2014;34(10):971-974
36邓铮铮,张晶,周跃华.近视性屈光参差患者双眼角膜生物力学及眼压特点的研究.眼科2011;20(2):116-120
37 Nomura H,Ando F,Niino N,et al.The relationship between intraocular pressure and refractive error adjusting for age and central corneal thickness.Ophthalmic Physiol Opt 2004;24(1):41-45
38 Song SS,Li J,Song H.Effects of axial length and corneal curvature on corneal biomechanics in elderly population.Guoji Yanke Zazhi(Int Eye Sci)2017;17(5):802-808
39 Binder PS,May CH,Grant SC.An evaluation of orthokeratology.Ophthalmology 1980;87(8):729-744
40 Swarbrick HA,Wong G,O'Leary DJ.Corneal response to orthokeratology.Optom Vis Sci 1998;75(11):791-799
41高韶晖,方梦园,李士清,等.角膜生物力学与角巩膜物理特性及眼前段结构的相关研究.中国实用眼科杂志2015;33(12):1341-1344
42 Mcbrien N,Jobling A,Gentle A.Biomechanics of the sclera in myopia:extracellular and cellular factors.Optom Vis Sci 2009;86(1):E23-30
43 Pi1ero D,Alio J,Barraquer R,et al.Corneal biomechanics,refraction,and corneal aberrometry in keratoconus:an integrated study.Invest Ophthalmol Vis Sci 2010;51(4):1948-1955
44 Tian L,Huang Y,Wang L,et al.Corneal biomechanical assessment using corneal visualization scheimpflug technology in keratoconic and normal eyes.J Ophthalmol 2014;2014:147516
45 Prata T,Sousa A,Filho CG,et al.Assessment of corneal biomechanical properties and intraocular pressure in patients with rheumatoid arthritis.Can J Ophthalmol 2009;44(5):602
46 Bueno-Gimeno I,Espa1a-Gregori E,Gene-Sampedro A,et al.Relationship among corneal biomechanics,refractive error,and axial length.Optom Vis Sci 2014;91(5):507-513
47许爱琴,方海珍.近视性高度屈光参差眼屈光参数和角膜生物学参数的研究.中国实用眼科杂志2011;29(10):1014-1017
48邓铮铮,李仕明,周跃华,等.近视人群角膜生物力学特性的变化及其影响因素.中华实验眼科杂志2016;34(9):842-846