Spatially-resolved Brillouin spectroscopy reveals biomechanical abnormalities in mild to advanced keratoconus in vivo

Mounting evidence connects the biomechanical properties of tissues to the development of eye diseases such as keratoconus, a disease in which the cornea thins and bulges into a conical shape. However, measuring biomechanical changes in vivo with sufficient sensitivity for disease detection has prove...

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Published in	Scientific reports Vol. 9; no. 1; p. 7467
Main Authors	Shao, Peng, Eltony, Amira M., Seiler, Theo G., Tavakol, Behrouz, Pineda, Roberto, Koller, Tobias, Seiler, Theo, Yun, Seok-Hyun
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 16.05.2019 Nature Publishing Group
Subjects	140/125 639/624/1111/55 692/699/3161 Adult Biomechanics Cornea Diagnostic Techniques, Ophthalmological Disease detection Elastic Modulus Eye diseases Eye surgery Female Humanities and Social Sciences Humans Keratoconus Keratoconus - diagnosis Male Mechanical properties Microscopy Middle Aged multidisciplinary Science Science (multidisciplinary) Spatial discrimination Spectroscopy Spectrum Analysis - methods
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Abstract	Mounting evidence connects the biomechanical properties of tissues to the development of eye diseases such as keratoconus, a disease in which the cornea thins and bulges into a conical shape. However, measuring biomechanical changes in vivo with sufficient sensitivity for disease detection has proven challenging. Here, we demonstrate the diagnostic potential of Brillouin light-scattering microscopy, a modality that measures longitudinal mechanical modulus in tissues with high measurement sensitivity and spatial resolution. We have performed a study of 85 human subjects (93 eyes), consisting of 47 healthy volunteers and 38 keratoconus patients at differing stages of disease, ranging from stage I to stage IV. The Brillouin data in vivo reveal increasing biomechanical inhomogeneity in the cornea with keratoconus progression and biomechanical asymmetry between the left and right eyes at the onset of keratoconus. The receiver operating characteristic analysis of the stage-I patient data indicates that mean Brillouin shift of the cone performs better than corneal thickness and maximum curvature respectively. In conjunction with morphological patterns, Brillouin microscopy may add value for diagnosis of keratoconus and potentially for screening subjects at risk of complications prior to laser eye surgeries.
AbstractList	Mounting evidence connects the biomechanical properties of tissues to the development of eye diseases such as keratoconus, a disease in which the cornea thins and bulges into a conical shape. However, measuring biomechanical changes in vivo with sufficient sensitivity for disease detection has proven challenging. Here, we demonstrate the diagnostic potential of Brillouin light-scattering microscopy, a modality that measures longitudinal mechanical modulus in tissues with high measurement sensitivity and spatial resolution. We have performed a study of 85 human subjects (93 eyes), consisting of 47 healthy volunteers and 38 keratoconus patients at differing stages of disease, ranging from stage I to stage IV. The Brillouin data in vivo reveal increasing biomechanical inhomogeneity in the cornea with keratoconus progression and biomechanical asymmetry between the left and right eyes at the onset of keratoconus. The receiver operating characteristic analysis of the stage-I patient data indicates that mean Brillouin shift of the cone performs better than corneal thickness and maximum curvature respectively. In conjunction with morphological patterns, Brillouin microscopy may add value for diagnosis of keratoconus and potentially for screening subjects at risk of complications prior to laser eye surgeries. Mounting evidence connects the biomechanical properties of tissues to the development of eye diseases such as keratoconus, a disease in which the cornea thins and bulges into a conical shape. However, measuring biomechanical changes in vivo with sufficient sensitivity for disease detection has proven challenging. Here, we demonstrate the diagnostic potential of Brillouin light-scattering microscopy, a modality that measures longitudinal mechanical modulus in tissues with high measurement sensitivity and spatial resolution. We have performed a study of 85 human subjects (93 eyes), consisting of 47 healthy volunteers and 38 keratoconus patients at differing stages of disease, ranging from stage I to stage IV. The Brillouin data in vivo reveal increasing biomechanical inhomogeneity in the cornea with keratoconus progression and biomechanical asymmetry between the left and right eyes at the onset of keratoconus. The receiver operating characteristic analysis of the stage-I patient data indicates that mean Brillouin shift of the cone performs better than corneal thickness and maximum curvature respectively. In conjunction with morphological patterns, Brillouin microscopy may add value for diagnosis of keratoconus and potentially for screening subjects at risk of complications prior to laser eye surgeries. Mounting evidence connects the biomechanical properties of tissues to the development of eye diseases such as keratoconus, a disease in which the cornea thins and bulges into a conical shape. However, measuring biomechanical changes in vivo with sufficient sensitivity for disease detection has proven challenging. Here, we demonstrate the diagnostic potential of Brillouin light-scattering microscopy, a modality that measures longitudinal mechanical modulus in tissues with high measurement sensitivity and spatial resolution. We have performed a study of 85 human subjects (93 eyes), consisting of 47 healthy volunteers and 38 keratoconus patients at differing stages of disease, ranging from stage I to stage IV. The Brillouin data in vivo reveal increasing biomechanical inhomogeneity in the cornea with keratoconus progression and biomechanical asymmetry between the left and right eyes at the onset of keratoconus. The receiver operating characteristic analysis of the stage-I patient data indicates that mean Brillouin shift of the cone performs better than corneal thickness and maximum curvature respectively. In conjunction with morphological patterns, Brillouin microscopy may add value for diagnosis of keratoconus and potentially for screening subjects at risk of complications prior to laser eye surgeries.Mounting evidence connects the biomechanical properties of tissues to the development of eye diseases such as keratoconus, a disease in which the cornea thins and bulges into a conical shape. However, measuring biomechanical changes in vivo with sufficient sensitivity for disease detection has proven challenging. Here, we demonstrate the diagnostic potential of Brillouin light-scattering microscopy, a modality that measures longitudinal mechanical modulus in tissues with high measurement sensitivity and spatial resolution. We have performed a study of 85 human subjects (93 eyes), consisting of 47 healthy volunteers and 38 keratoconus patients at differing stages of disease, ranging from stage I to stage IV. The Brillouin data in vivo reveal increasing biomechanical inhomogeneity in the cornea with keratoconus progression and biomechanical asymmetry between the left and right eyes at the onset of keratoconus. The receiver operating characteristic analysis of the stage-I patient data indicates that mean Brillouin shift of the cone performs better than corneal thickness and maximum curvature respectively. In conjunction with morphological patterns, Brillouin microscopy may add value for diagnosis of keratoconus and potentially for screening subjects at risk of complications prior to laser eye surgeries.
ArticleNumber	7467
Author	Tavakol, Behrouz Seiler, Theo G. Shao, Peng Pineda, Roberto Eltony, Amira M. Seiler, Theo Koller, Tobias Yun, Seok-Hyun
Author_xml	– sequence: 1 givenname: Peng surname: Shao fullname: Shao, Peng organization: Harvard Medical School and Wellman Center for Photomedicine, Massachusetts General Hospital – sequence: 2 givenname: Amira M. orcidid: 0000-0002-4136-1393 surname: Eltony fullname: Eltony, Amira M. organization: Harvard Medical School and Wellman Center for Photomedicine, Massachusetts General Hospital – sequence: 3 givenname: Theo G. surname: Seiler fullname: Seiler, Theo G. organization: Harvard Medical School and Wellman Center for Photomedicine, Massachusetts General Hospital, Institute for Refractive and Ophthalmic Surgery (IROC), Universitätsklinik für Augenheilkunde, Inselspital – sequence: 4 givenname: Behrouz surname: Tavakol fullname: Tavakol, Behrouz organization: Harvard Medical School and Wellman Center for Photomedicine, Massachusetts General Hospital – sequence: 5 givenname: Roberto surname: Pineda fullname: Pineda, Roberto organization: Massachusetts Eye and Ear Infirmary – sequence: 6 givenname: Tobias surname: Koller fullname: Koller, Tobias organization: Institute for Refractive and Ophthalmic Surgery (IROC) – sequence: 7 givenname: Theo surname: Seiler fullname: Seiler, Theo email: theo@seiler.tv organization: Institute for Refractive and Ophthalmic Surgery (IROC) – sequence: 8 givenname: Seok-Hyun surname: Yun fullname: Yun, Seok-Hyun email: syun@hms.harvard.edu organization: Harvard Medical School and Wellman Center for Photomedicine, Massachusetts General Hospital, Harvard-MIT Health Sciences and Technology
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/31097778$$D View this record in MEDLINE/PubMed
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Snippet	Mounting evidence connects the biomechanical properties of tissues to the development of eye diseases such as keratoconus, a disease in which the cornea thins...
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SubjectTerms	140/125 639/624/1111/55 692/699/3161 Adult Biomechanics Cornea Diagnostic Techniques, Ophthalmological Disease detection Elastic Modulus Eye diseases Eye surgery Female Humanities and Social Sciences Humans Keratoconus Keratoconus - diagnosis Male Mechanical properties Microscopy Middle Aged multidisciplinary Science Science (multidisciplinary) Spatial discrimination Spectroscopy Spectrum Analysis - methods
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Title	Spatially-resolved Brillouin spectroscopy reveals biomechanical abnormalities in mild to advanced keratoconus in vivo
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