Morphometric, Hemodynamic, and Biomechanical Factors Influencing Blood Flow and Oxygen Concentration in the Human Lamina Cribrosa

Chuangsuwanich, Thanadet; Hung, Pham Tan; Wang, Xiaofei; Leo, Hwa Liang; Schmetterer, Leopold; Boote, Craig; Girard, M

doi:10.1167/iovs.61.4.3

Cited by 13 publications

(9 citation statements)

References 67 publications

(82 reference statements)

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“…Interestingly, significant negative associations were found for any given tissue, whether neural or connective (Figure 3). According to the biomechanical theory of glaucoma, 21 IOP-induced strain could potentially: (1) directly induce mechanical damage to the RGCs, 22 (2) disrupt the microcapillary blood flow at the LC, choroid and the retina [23][24][25] and (3) disrupt the axoplasmic flow. 26 Therefore, it would be plausible that eyes with structurally weaker ONHs (and thus higher strains) would be more susceptible to visual field loss.…”

Section: Discussionmentioning

confidence: 99%

Differing Associations between Optic Nerve Head Strains and Visual Field Loss in Patients with Normal- and High-Tension Glaucoma

et al. 2023

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Section: Discussionmentioning

confidence: 99%

Differing Associations between Optic Nerve Head Strains and Visual Field Loss in Patients with Normal- and High-Tension Glaucoma

et al. 2023

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“…Lee et al 38 reported that the microvascular dropout in the parapapillary choroid has a strong relationship with initial PFS in POAG patients. Furthermore, Chuangsuwanich et al 39 investigated the link between the morphologic parameters and the hemodynamic changes of LC using finite-element analysis, and reported that the average oxygen concentration was lower in the central region than in the peripheral region of LC. In addition, when IOP was elevated, the oxygen concentration of LC declined and, notably, a greater cup depth and a weaker LC produced a lower oxygen concentration in LC.…”

Section: Discussionmentioning

confidence: 99%

Lamina Cribrosa Morphology in Normal Tension Glaucoma According to the Location of Visual Field Defects

Kang

Zhang

Sung

et al. 2023

Journal of Glaucoma

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The morphologic alterations in lamina cribrosa (LC) may be related to the location of visual field (VF) defects.Purpose: The aim of this study was to investigate morphologic differences in the LC in normal tension glaucoma (NTG) according to the location of VF defects.Design: This study was a retrospective, cross-sectional study.Methods: Ninety-six eyes of 96 patients with NTG were included in this study. The patients were divided into 2 groups according to the location of VF defects [parafoveal scotoma (PFS) and peripheral nasal step (PNS)]. All patients underwent an optical coherence tomography of the optic disc and macula using swept-source optical coherence tomography (DRI-OCT Triton; Topcon, Tokyo, Japan). The parameters of the optic disc, macula, LC, and connective tissues were compared between the groups. The relationships between the LC parameters and other structures were analyzed. Results:The temporal peripapillary retinal nerve fiber layer, average macular ganglion cell-inner plexiform layer, and average macular ganglion cell complex were significantly thinner in the PFS than in the PNS group (P < 0.001, P < 0.001, and P = 0.012, respectively). The PFS group showed a more glaucomatous LC morphology with a smaller lamina cribrosa-global shape index (LC-GSI, P = 0.047), more LC defects (P = 0.034), and thinner LC (P = 0.021) than the PNS group. LC-GSI was significantly correlated with LC thickness (P = 0.011) but not with LC depth (P = 0.149). Conclusions:In patients with NTG, those with initial PFS showed a more glaucomatous LC morphology than those with initial PNS. The morphologic differences in LC may be related to the location of the VF defects.

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“…On the contrary, OCT, and its derivative elastography technique (optical coherence elastography [OCE]) [123,124], has superior spatial resolution, and in combination with biomechanical modeling, is a potent alternative for investigating ONH biomechanical properties in vivo [61 ▪▪ ,125 ▪ ,126]. Interestingly, OCT-driven morphologic reconstructions of the ONH can be used to generate patient-specific computer models to study ONH biomechanics [127] and hemodynamics [128], which may eventually be used as new tools for assessing progression of ONH pathological remodeling in glaucoma.…”

Section: The Role Of the Optic Nerve Head And Optic Nerve Sheath Biom...mentioning

confidence: 99%

Glaucoma and biomechanics

Safa

Wong

et al. 2021

Current Opinion in Ophthalmology

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Purpose of reviewBiomechanics is an important aspect of the complex family of diseases known as the glaucomas. Here, we review recent studies of biomechanics in glaucoma. Recent findingsSeveral tissues have direct and/or indirect biomechanical roles in various forms of glaucoma, including the trabecular meshwork, cornea, peripapillary sclera, optic nerve head/sheath, and iris. Multiple mechanosensory mechanisms and signaling pathways continue to be identified in both the trabecular meshwork and optic nerve head. Further, the recent literature describes a variety of approaches for investigating the role of tissue biomechanics as a risk factor for glaucoma, including pathological stiffening of the trabecular meshwork, peripapillary scleral structural changes, and remodeling of the optic nerve head. Finally, there have been advances in incorporating biomechanical information in glaucoma prognoses, including corneal biomechanical parameters and iridial mechanical properties in angle-closure glaucoma.

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Morphometric, Hemodynamic, and Biomechanical Factors Influencing Blood Flow and Oxygen Concentration in the Human Lamina Cribrosa

Cited by 13 publications

References 67 publications

Differing Associations between Optic Nerve Head Strains and Visual Field Loss in Patients with Normal- and High-Tension Glaucoma

Differing Associations between Optic Nerve Head Strains and Visual Field Loss in Patients with Normal- and High-Tension Glaucoma

Lamina Cribrosa Morphology in Normal Tension Glaucoma According to the Location of Visual Field Defects

Glaucoma and biomechanics

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