Biomechanical Simulation of Stress Concentration and Intraocular Pressure in Corneas Subjected to Myopic Refractive Surgical Procedures

Recent advances in the analysis of corneal biomechanical properties remain difficult to predict the structural stability before and after refractive surgery. In this regard, we applied the finite element method (FEM) to determine the roles of the Bowman’s membrane, stroma, and Descemet’s membrane in...

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Published in	Scientific reports Vol. 7; no. 1; pp. 13906 - 15
Main Authors	Shih, Po-Jen, Wang, I-Jong, Cai, Wen-Feng, Yen, Jia-Yush
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 24.10.2017 Nature Publishing Group
Subjects	119/118 639/166/985 692/499 692/699/3161/3163 Biomechanical Phenomena Biomechanics Cornea Cornea - pathology Cornea - physiopathology Cornea - surgery Corneal Surgery, Laser Finite Element Analysis Finite element method Humanities and Social Sciences Intraocular Pressure Lasers Mathematical models Mechanical properties Membranes multidisciplinary Myopia - pathology Myopia - physiopathology Myopia - surgery Pressure Rigidity Science Science (multidisciplinary) Stress concentration Stress, Mechanical Stroma Surgery
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Abstract	Recent advances in the analysis of corneal biomechanical properties remain difficult to predict the structural stability before and after refractive surgery. In this regard, we applied the finite element method (FEM) to determine the roles of the Bowman’s membrane, stroma, and Descemet’s membrane in the hoop stresses of cornea, under tension (physiological) and bending (nonphysiological), for patients who undergo radial keratotomy (RK), photorefractive keratectomy (PRK), laser-assisted in situ keratomileusis (LASIK), or small incision lenticule extraction (SMILE). The stress concentration maps, potential creak zones, and potential errors in intraocular pressure (IOP) measurements were further determined. Our results confirmed that the Bowman’s membrane and Descemet’s membrane accounted for 20% of the bending rigidity of the cornea, and became the force pair dominating the bending behaviour of the cornea, the high stress in the distribution map, and a stretch to avoid structural failure. In addition, PRK broke the central linking of hoop stresses and concentrated stress on the edge of the Bowman’s membrane around ablation, which posed considerable risk of potential creaks. Compared with SMILE, LASIK had a higher risk of developing creaks around the ablation in the stroma layer. Our FEM models also predicted the postoperative IOPs precisely in a conditional manner.
AbstractList	Recent advances in the analysis of corneal biomechanical properties remain difficult to predict the structural stability before and after refractive surgery. In this regard, we applied the finite element method (FEM) to determine the roles of the Bowman's membrane, stroma, and Descemet's membrane in the hoop stresses of cornea, under tension (physiological) and bending (nonphysiological), for patients who undergo radial keratotomy (RK), photorefractive keratectomy (PRK), laser-assisted in situ keratomileusis (LASIK), or small incision lenticule extraction (SMILE). The stress concentration maps, potential creak zones, and potential errors in intraocular pressure (IOP) measurements were further determined. Our results confirmed that the Bowman's membrane and Descemet's membrane accounted for 20% of the bending rigidity of the cornea, and became the force pair dominating the bending behaviour of the cornea, the high stress in the distribution map, and a stretch to avoid structural failure. In addition, PRK broke the central linking of hoop stresses and concentrated stress on the edge of the Bowman's membrane around ablation, which posed considerable risk of potential creaks. Compared with SMILE, LASIK had a higher risk of developing creaks around the ablation in the stroma layer. Our FEM models also predicted the postoperative IOPs precisely in a conditional manner.Recent advances in the analysis of corneal biomechanical properties remain difficult to predict the structural stability before and after refractive surgery. In this regard, we applied the finite element method (FEM) to determine the roles of the Bowman's membrane, stroma, and Descemet's membrane in the hoop stresses of cornea, under tension (physiological) and bending (nonphysiological), for patients who undergo radial keratotomy (RK), photorefractive keratectomy (PRK), laser-assisted in situ keratomileusis (LASIK), or small incision lenticule extraction (SMILE). The stress concentration maps, potential creak zones, and potential errors in intraocular pressure (IOP) measurements were further determined. Our results confirmed that the Bowman's membrane and Descemet's membrane accounted for 20% of the bending rigidity of the cornea, and became the force pair dominating the bending behaviour of the cornea, the high stress in the distribution map, and a stretch to avoid structural failure. In addition, PRK broke the central linking of hoop stresses and concentrated stress on the edge of the Bowman's membrane around ablation, which posed considerable risk of potential creaks. Compared with SMILE, LASIK had a higher risk of developing creaks around the ablation in the stroma layer. Our FEM models also predicted the postoperative IOPs precisely in a conditional manner. Recent advances in the analysis of corneal biomechanical properties remain difficult to predict the structural stability before and after refractive surgery. In this regard, we applied the finite element method (FEM) to determine the roles of the Bowman’s membrane, stroma, and Descemet’s membrane in the hoop stresses of cornea, under tension (physiological) and bending (nonphysiological), for patients who undergo radial keratotomy (RK), photorefractive keratectomy (PRK), laser-assisted in situ keratomileusis (LASIK), or small incision lenticule extraction (SMILE). The stress concentration maps, potential creak zones, and potential errors in intraocular pressure (IOP) measurements were further determined. Our results confirmed that the Bowman’s membrane and Descemet’s membrane accounted for 20% of the bending rigidity of the cornea, and became the force pair dominating the bending behaviour of the cornea, the high stress in the distribution map, and a stretch to avoid structural failure. In addition, PRK broke the central linking of hoop stresses and concentrated stress on the edge of the Bowman’s membrane around ablation, which posed considerable risk of potential creaks. Compared with SMILE, LASIK had a higher risk of developing creaks around the ablation in the stroma layer. Our FEM models also predicted the postoperative IOPs precisely in a conditional manner. Recent advances in the analysis of corneal biomechanical properties remain difficult to predict the structural stability before and after refractive surgery. In this regard, we applied the finite element method (FEM) to determine the roles of the Bowman’s membrane, stroma, and Descemet’s membrane in the hoop stresses of cornea, under tension (physiological) and bending (nonphysiological), for patients who undergo radial keratotomy (RK), photorefractive keratectomy (PRK), laser-assisted in situ keratomileusis (LASIK), or small incision lenticule extraction (SMILE). The stress concentration maps, potential creak zones, and potential errors in intraocular pressure (IOP) measurements were further determined. Our results confirmed that the Bowman’s membrane and Descemet’s membrane accounted for 20% of the bending rigidity of the cornea, and became the force pair dominating the bending behaviour of the cornea, the high stress in the distribution map, and a stretch to avoid structural failure. In addition, PRK broke the central linking of hoop stresses and concentrated stress on the edge of the Bowman’s membrane around ablation, which posed considerable risk of potential creaks. Compared with SMILE, LASIK had a higher risk of developing creaks around the ablation in the stroma layer. Our FEM models also predicted the postoperative IOPs precisely in a conditional manner.
ArticleNumber	13906
Author	Wang, I-Jong Shih, Po-Jen Cai, Wen-Feng Yen, Jia-Yush
Author_xml	– sequence: 1 givenname: Po-Jen surname: Shih fullname: Shih, Po-Jen organization: Department of Civil and Environmental Engineering, National University of Kaohsiung – sequence: 2 givenname: I-Jong surname: Wang fullname: Wang, I-Jong email: ijong@ms8.hinet.net organization: Department of Ophthalmology, College of Medicine, National Taiwan University – sequence: 3 givenname: Wen-Feng surname: Cai fullname: Cai, Wen-Feng organization: Department of Civil and Environmental Engineering, National University of Kaohsiung – sequence: 4 givenname: Jia-Yush surname: Yen fullname: Yen, Jia-Yush organization: Department of Mechanical Engineering, National Taiwan University
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Snippet	Recent advances in the analysis of corneal biomechanical properties remain difficult to predict the structural stability before and after refractive surgery....
SourceID	pubmedcentral proquest pubmed crossref springer
SourceType	Open Access Repository Aggregation Database Index Database Enrichment Source Publisher
StartPage	13906
SubjectTerms	119/118 639/166/985 692/499 692/699/3161/3163 Biomechanical Phenomena Biomechanics Cornea Cornea - pathology Cornea - physiopathology Cornea - surgery Corneal Surgery, Laser Finite Element Analysis Finite element method Humanities and Social Sciences Intraocular Pressure Lasers Mathematical models Mechanical properties Membranes multidisciplinary Myopia - pathology Myopia - physiopathology Myopia - surgery Pressure Rigidity Science Science (multidisciplinary) Stress concentration Stress, Mechanical Stroma Surgery
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Title	Biomechanical Simulation of Stress Concentration and Intraocular Pressure in Corneas Subjected to Myopic Refractive Surgical Procedures
URI	https://link.springer.com/article/10.1038/s41598-017-14293-0 https://www.ncbi.nlm.nih.gov/pubmed/29066773 https://www.proquest.com/docview/1955033683 https://www.proquest.com/docview/1955626896 https://pubmed.ncbi.nlm.nih.gov/PMC5655007
Volume	7
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