Optical coherence elastography detects increased corneal stiffness in nonhuman primates with experimental glaucoma

Glaucoma is a leading cause of irreversible blindness, characterized by progressive optic nerve damage. Early detection of glaucoma is key to effective intervention, but an incomplete clinical understanding of the development of glaucoma complicates the selection of diagnostic criteria. Prolonged oc...

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Vydáno v:	Journal of biomedical optics Ročník 30; číslo 12; s. 124508
Hlavní autoři:	Singh, Amandeep, Nair, Achuth, She, Zhihui, Dehshiri, Mohammed, Singh, Manmohan, Aglyamov, Salavat, Patel, Nimesh, Larin, Kirill
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	United States 01.12.2025
Témata:	Animals Biomechanical Phenomena Cornea - diagnostic imaging Cornea - physiopathology Disease Models, Animal Elasticity Imaging Techniques - methods Glaucoma - diagnostic imaging Glaucoma - physiopathology Intraocular Pressure Macaca mulatta Tomography, Optical Coherence - methods shear wave imaging experimental glaucoma optical coherence elastography cornea
ISSN:	1083-3668, 1560-2281, 1560-2281
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Abstract	Glaucoma is a leading cause of irreversible blindness, characterized by progressive optic nerve damage. Early detection of glaucoma is key to effective intervention, but an incomplete clinical understanding of the development of glaucoma complicates the selection of diagnostic criteria. Prolonged ocular hypertension due to glaucoma can impact the biomechanical properties of ocular tissues, including the cornea. We examine whether experimental glaucoma causes changes in the biomechanical properties of the cornea. We determined the biomechanical properties of the cornea in a nonhuman primate model of unilateral experimental glaucoma and compared them with the fellow, untreated control eyes using optical coherence elastography (OCE) to determine if prolonged intraocular pressure (IOP) elevation causes changes in corneal stiffness. Experimental glaucoma was induced in one eye ( , ) by lasering the trabecular meshwork, whereas the fellow eye was used as a control. Both eyes were imaged with wave-based OCE to investigate the inter-ocular difference in stiffness. Measurements were taken at three different frequencies with quasi-harmonic excitation, and central corneal thickness was measured along with IOP in each eye. Our results show a significant ( ) increase in wave speed in the experimental glaucoma eye compared with the control eye for both subjects. These results show the potential of wave-based OCE methods for assessing stiffness changes in the cornea caused by remodeling due to chronic pressure elevation.
AbstractList	Glaucoma is a leading cause of irreversible blindness, characterized by progressive optic nerve damage. Early detection of glaucoma is key to effective intervention, but an incomplete clinical understanding of the development of glaucoma complicates the selection of diagnostic criteria. Prolonged ocular hypertension due to glaucoma can impact the biomechanical properties of ocular tissues, including the cornea. We examine whether experimental glaucoma causes changes in the biomechanical properties of the cornea. We determined the biomechanical properties of the cornea in a nonhuman primate model of unilateral experimental glaucoma and compared them with the fellow, untreated control eyes using optical coherence elastography (OCE) to determine if prolonged intraocular pressure (IOP) elevation causes changes in corneal stiffness. Experimental glaucoma was induced in one eye ( , ) by lasering the trabecular meshwork, whereas the fellow eye was used as a control. Both eyes were imaged with wave-based OCE to investigate the inter-ocular difference in stiffness. Measurements were taken at three different frequencies with quasi-harmonic excitation, and central corneal thickness was measured along with IOP in each eye. Our results show a significant ( ) increase in wave speed in the experimental glaucoma eye compared with the control eye for both subjects. These results show the potential of wave-based OCE methods for assessing stiffness changes in the cornea caused by remodeling due to chronic pressure elevation. Glaucoma is a leading cause of irreversible blindness, characterized by progressive optic nerve damage. Early detection of glaucoma is key to effective intervention, but an incomplete clinical understanding of the development of glaucoma complicates the selection of diagnostic criteria. Prolonged ocular hypertension due to glaucoma can impact the biomechanical properties of ocular tissues, including the cornea. We examine whether experimental glaucoma causes changes in the biomechanical properties of the cornea.SignificanceGlaucoma is a leading cause of irreversible blindness, characterized by progressive optic nerve damage. Early detection of glaucoma is key to effective intervention, but an incomplete clinical understanding of the development of glaucoma complicates the selection of diagnostic criteria. Prolonged ocular hypertension due to glaucoma can impact the biomechanical properties of ocular tissues, including the cornea. We examine whether experimental glaucoma causes changes in the biomechanical properties of the cornea.We determined the biomechanical properties of the cornea in a nonhuman primate model of unilateral experimental glaucoma and compared them with the fellow, untreated control eyes using optical coherence elastography (OCE) to determine if prolonged intraocular pressure (IOP) elevation causes changes in corneal stiffness.AimWe determined the biomechanical properties of the cornea in a nonhuman primate model of unilateral experimental glaucoma and compared them with the fellow, untreated control eyes using optical coherence elastography (OCE) to determine if prolonged intraocular pressure (IOP) elevation causes changes in corneal stiffness.Experimental glaucoma was induced in one eye (Macaca mulatta, N = 2 ) by lasering the trabecular meshwork, whereas the fellow eye was used as a control. Both eyes were imaged with wave-based OCE to investigate the inter-ocular difference in stiffness. Measurements were taken at three different frequencies with quasi-harmonic excitation, and central corneal thickness was measured along with IOP in each eye.ApproachExperimental glaucoma was induced in one eye (Macaca mulatta, N = 2 ) by lasering the trabecular meshwork, whereas the fellow eye was used as a control. Both eyes were imaged with wave-based OCE to investigate the inter-ocular difference in stiffness. Measurements were taken at three different frequencies with quasi-harmonic excitation, and central corneal thickness was measured along with IOP in each eye.Our results show a significant ( p < 0.01 ) increase in wave speed in the experimental glaucoma eye compared with the control eye for both subjects.ResultsOur results show a significant ( p < 0.01 ) increase in wave speed in the experimental glaucoma eye compared with the control eye for both subjects.These results show the potential of wave-based OCE methods for assessing stiffness changes in the cornea caused by remodeling due to chronic pressure elevation.ConclusionsThese results show the potential of wave-based OCE methods for assessing stiffness changes in the cornea caused by remodeling due to chronic pressure elevation.
Author	She, Zhihui Singh, Manmohan Dehshiri, Mohammed Nair, Achuth Aglyamov, Salavat Singh, Amandeep Patel, Nimesh Larin, Kirill
Author_xml	– sequence: 1 givenname: Amandeep surname: Singh fullname: Singh, Amandeep organization: University of Houston, Department of Biomedical Engineering, Houston, Texas, United States – sequence: 2 givenname: Achuth surname: Nair fullname: Nair, Achuth organization: University of Houston, Department of Biomedical Engineering, Houston, Texas, United States – sequence: 3 givenname: Zhihui surname: She fullname: She, Zhihui organization: University of Houston, College of Optometry, Houston, Texas, United States – sequence: 4 givenname: Mohammed surname: Dehshiri fullname: Dehshiri, Mohammed organization: University of Houston, Department of Biomedical Engineering, Houston, Texas, United States – sequence: 5 givenname: Manmohan surname: Singh fullname: Singh, Manmohan organization: University of Houston, Department of Biomedical Engineering, Houston, Texas, United States – sequence: 6 givenname: Salavat surname: Aglyamov fullname: Aglyamov, Salavat organization: University of Houston, Department of Biomedical Engineering, Houston, Texas, United States – sequence: 7 givenname: Nimesh surname: Patel fullname: Patel, Nimesh organization: University of Houston, College of Optometry, Houston, Texas, United States – sequence: 8 givenname: Kirill surname: Larin fullname: Larin, Kirill organization: University of Houston, Department of Biomedical Engineering, Houston, Texas, United States
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SubjectTerms	Animals Biomechanical Phenomena Cornea - diagnostic imaging Cornea - physiopathology Disease Models, Animal Elasticity Imaging Techniques - methods Glaucoma - diagnostic imaging Glaucoma - physiopathology Intraocular Pressure Macaca mulatta Tomography, Optical Coherence - methods
Title	Optical coherence elastography detects increased corneal stiffness in nonhuman primates with experimental glaucoma
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