Modeling the origin of the ocular pulse and its impact on the optic nerve head
Purpose: To use finite element (FE) analysis to understand the origin of the ocular pulse and predict its biomechanical impact on the optic nerve head (ONH). Methods: An FE model of a healthy eye was reconstructed. The choroid was biphasic and consisted of a solid phase (connective tissues) and a fl...
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sg-ntu-dr.10356-898332020-11-01T05:16:39Z Modeling the origin of the ocular pulse and its impact on the optic nerve head Jin, Yuejiao Wang, Xiaofei Zhang, Liang Jonas, Jost B. Aung, Tin Schmetterer, Leopold Girard, Michaël J. A. Lee Kong Chian School of Medicine (LKCMedicine) Ocular Biomechanics Ocular Pulse DRNTU::Science::Medicine Purpose: To use finite element (FE) analysis to understand the origin of the ocular pulse and predict its biomechanical impact on the optic nerve head (ONH). Methods: An FE model of a healthy eye was reconstructed. The choroid was biphasic and consisted of a solid phase (connective tissues) and a fluid phase (blood). We applied arterial blood pressure at 18 entry sites (posterior ciliary arteries) and venous blood pressure at 4 exit sites (vortex veins). For one cardiac cycle, we reported the resulting pulse volume, the ocular pulse amplitude (OPA), and diastole-to-systole ONH deformations. We also studied the effect of a change in scleral stiffness, in arterial pressure, and in baseline IOP. Results: During the cardiac cycle, a change in arterial pressure resulted in choroidal expansion, which in turn induced a change in IOP (the OPA) and ONH deformations. From diastole to systole, we found that choroidal expansion made the peripapillary retina move anteriorly, but both choroidal expansion and the OPA made the prelamina and LC move posteriorly. The net result was shearing of neural tissues in the neuroretinal rim. Both a stiffer sclera and a higher IOP resulted in a higher OPA, smaller pulse volume, larger diastole-to-systole ONH strains, and neural tissue shear in the neuroretinal rim. Increasing the arterial pressure had the same effect, except that it increased the pulse volume. Conclusions: Our models indicate that, during the cardiac cycle, the OPA and choroidal expansion can deform the ONH with a net shearing of neural tissues within the neuroretinal rim. MOE (Min. of Education, S’pore) Published version 2018-10-18T08:11:16Z 2019-12-06T17:34:31Z 2018-10-18T08:11:16Z 2019-12-06T17:34:31Z 2018 Journal Article Jin, Y., Wang, X., Zhang, L., Jonas, J. B., Aung, T., Schmetterer, L., & Girard, M. J. A. (2018). Modeling the origin of the ocular pulse and its impact on the optic nerve head. Investigative Opthalmology & Visual Science, 59(10), 3997-4010. doi:10.1167/iovs.17-23454 1552-5783 https://hdl.handle.net/10356/89833 http://hdl.handle.net/10220/46369 10.1167/iovs.17-23454 en Investigative Opthalmology & Visual Science © 2018 The Authors. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. 14 p. application/pdf |
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Ocular Biomechanics Ocular Pulse DRNTU::Science::Medicine Jin, Yuejiao Wang, Xiaofei Zhang, Liang Jonas, Jost B. Aung, Tin Schmetterer, Leopold Girard, Michaël J. A. Modeling the origin of the ocular pulse and its impact on the optic nerve head |
| description |
Purpose: To use finite element (FE) analysis to understand the origin of the ocular pulse and predict its biomechanical impact on the optic nerve head (ONH). Methods: An FE model of a healthy eye was reconstructed. The choroid was biphasic and consisted of a solid phase (connective tissues) and a fluid phase (blood). We applied arterial blood pressure at 18 entry sites (posterior ciliary arteries) and venous blood pressure at 4 exit sites (vortex veins). For one cardiac cycle, we reported the resulting pulse volume, the ocular pulse amplitude (OPA), and diastole-to-systole ONH deformations. We also studied the effect of a change in scleral stiffness, in arterial pressure, and in baseline IOP. Results: During the cardiac cycle, a change in arterial pressure resulted in choroidal expansion, which in turn induced a change in IOP (the OPA) and ONH deformations. From diastole to systole, we found that choroidal expansion made the peripapillary retina move anteriorly, but both choroidal expansion and the OPA made the prelamina and LC move posteriorly. The net result was shearing of neural tissues in the neuroretinal rim. Both a stiffer sclera and a higher IOP resulted in a higher OPA, smaller pulse volume, larger diastole-to-systole ONH strains, and neural tissue shear in the neuroretinal rim. Increasing the arterial pressure had the same effect, except that it increased the pulse volume. Conclusions: Our models indicate that, during the cardiac cycle, the OPA and choroidal expansion can deform the ONH with a net shearing of neural tissues within the neuroretinal rim. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Jin, Yuejiao Wang, Xiaofei Zhang, Liang Jonas, Jost B. Aung, Tin Schmetterer, Leopold Girard, Michaël J. A. |
| format |
Article |
| author |
Jin, Yuejiao Wang, Xiaofei Zhang, Liang Jonas, Jost B. Aung, Tin Schmetterer, Leopold Girard, Michaël J. A. |
| author_sort |
Jin, Yuejiao |
| title |
Modeling the origin of the ocular pulse and its impact on the optic nerve head |
| title_short |
Modeling the origin of the ocular pulse and its impact on the optic nerve head |
| title_full |
Modeling the origin of the ocular pulse and its impact on the optic nerve head |
| title_fullStr |
Modeling the origin of the ocular pulse and its impact on the optic nerve head |
| title_full_unstemmed |
Modeling the origin of the ocular pulse and its impact on the optic nerve head |
| title_sort |
modeling the origin of the ocular pulse and its impact on the optic nerve head |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/89833 http://hdl.handle.net/10220/46369 |
| _version_ |
1683493441007255552 |