Direct and transsynaptic retrograde degeneration and optic nerve head microvascular changes in patients with hemianopia

Büyüktepe, Tuna Çelik; Kızıltunç, Pınar Bingöl; Büyüktepe, Murat; Atilla, Hüban

doi:10.1177/1120672120951731

Cited by 5 publications

(10 citation statements)

References 30 publications

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“…Previous research showed the chiasmal lesion caused more prominent optic nerve head vessel density decrease than postgeniculate lesion, which indicated the direct retrograde degeneration might be more prominent than TRD [22]. And our study shows the RNFL thinning is less prominent than glaucoma' RGCs' degeneration, both of the direct and trans-synaptic retrograde induced by the intracranial tumor.…”

Section: Discussionsupporting

confidence: 48%

“…Whereas, tumors arising post lateral geniculate body cause damage to the optic radiation after the tertiary neurons in the visual pathway and lead to the trans-synaptic retrograde retinal degeneration (TRD). It also causes the RNFL thinning and the optic nerve head vessel density decrease [18,21,22]. This is mechanically different from the damage of RGCs and axons in glaucoma.…”

Section: Discussionmentioning

confidence: 99%

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The different structure-function correlation as measured by OCT and Octopus perimetry cluster analysis in intracranial tumor and glaucoma patients

Li¹,

Qin²,

Cao³

et al. 2021

Preprint

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BackgroundTo explore the correlation of visual field (VF) defect values and retinal nerve fiber layer (RNFL) thickness for the intracranial tumor and glaucoma patients. MethodsRetrospective analysis is performed for the intracranial and glaucoma patients, whose VF defect values measured with Octopus perimeter cluster analysis, and RNFL thickness and optic disk parameters measured with swept source OCT. The differences between VF and RNFL (included the data of optic disc) are calculated. The correlation between VF defect values and RNFL thickness are explored.Results43 eyes of 29 patients with the intracranial tumor and 39 eyes of 23 patients with the glaucoma are enrolled. Thickness of RNFL not only for the whole (360°), but also for the four quadrants are thinner in the glaucoma group than those of the intracranial tumor group (p<0.05). There is no significant difference of VF for those two groups. Stronger correlation for mean deviations (MD)s of VF ten clusters and RNFL thickness of OCT twelve sectors is found in the glaucoma patients, but few in the intracranial tumor patients. Logistic regression also shows the RNFL loss tending to the diagnosis of glaucoma, and the VF damage is inclined to the diagnosis of intracranial tumor.ConclusionsIntracranial tumor has a weak correlation between the RNFL thickness and Octopus VF MD, compared with that of glaucoma. OCT and Octopus VF might provide more helpful information for the antidiastole of intracranial tumor and glaucoma.

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Section: Discussionsupporting

confidence: 48%

Section: Discussionmentioning

confidence: 99%

The different structure-function correlation as measured by OCT and Octopus perimetry cluster analysis in intracranial tumor and glaucoma patients

Li¹,

Qin²,

Cao³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…Chronic cord compression progression led to axonal destruction at the site of compression and cranial compression (Huber et al, 2018 ; Martin et al, 2018 ). Transsynaptic degeneration (TSD)may be related to the decreased excitability of α motoneurons in the spinal cord (Zheng et al, 2017 ), microangiopathy (Celik Buyuktepe et al, 2021 ), and pathological nerve remodeling (Lawlor et al, 2018 ). All of these factors may lead to apoptosis, inflammation, or ischemia, which ultimately mediate neuron damage and are responsible for remote degeneration in spinal cord tracts.…”

Section: Discussionmentioning

confidence: 99%

Degeneration of the Sensorimotor Tract in Degenerative Cervical Myelopathy and Compensatory Structural Changes in the Brain

Chen

Wang

et al. 2022

Front. Aging Neurosci.

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Degenerative cervical myelopathy is a progressive neurodegenerative disease, that has become increasingly prevalent in the aging population worldwide. The current study determined the factors affecting degeneration in the sensorimotor tract with degenerative cervical myelopathy and its relationship with brain structure. We divided patients into hyperintensity (HS) and non-hyperintensity (nHS) groups and measured the fractional anisotropy and apparent diffusion coefficients of the lateral corticospinal tract (CST), fasciculus gracilis and fasciculus cuneatus (FGC). Voxel-based morphometry (VBM) and tract-based spatial statistics (TBSS) techniques were used to estimate brain structure changes. Correlation of the modified Japanese Orthopaedic Association (mJOA) score, light touch, pinprick, motor score, and fractional anisotropy (FA) ratios of the CST at different levels were analyzed. Compared to healthy controls, the FA ratios of CST in the HS and nHS groups were decreased at all levels, and the apparent diffusion coefficient (ADC) ratio was increased only at C4/5 levels in the HS group. The FA ratio of FGC was decreased at the C3/4 and C4/5 levels in the HS group and only decreased at the C4/5 level in the nHS group. The ADC ratio was decreased only at the C4/5 level in the HS group. VBM analysis revealed that the volume of the precentral gyrus, postcentral gyrus, and paracentral lobule increased in patients compared to controls. TBSS analysis found no statistical significance between the sensory and motor tracts in white matter. The volume of clusters in HS and nHS groups negatively correlated with the C1/2 FA ratio of the CST. The results showed that the degeneration distance of the CST was longer than the FGC, and the degeneration distance was related to the degree of compression and spinal cord damage. Structural compensation and the neurotrophin family may lead to enlargement of the brain.

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“…Whereas, tumors arising in the post lateral geniculate body cause damage to the optic radiation after the tertiary neurons in the visual pathway and lead to trans-synaptic retrograde retinal degeneration (TRD). It also causes the RNFL thinning and the optic nerve head vessel density to decrease ( 16 , 19 , 20 ). This is mechanically different from the damage to RGCs and axons in glaucoma.…”

Section: Discussionmentioning

confidence: 99%

The different structure-function correlation as measured by OCT and octopus perimetry cluster analysis in intracranial tumor and glaucoma patients

Qin

Cao

et al. 2022

Front. Endocrinol.

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BackgroundTo explore the correlation between visual field (VF) defect values and retinal nerve fiber layer (RNFL) thickness for intracranial tumor and glaucoma patients.MethodsRetrospective analysis is performed for the intracranial and glaucoma patients, whose VF defect values were measured with Octopus perimeter cluster analysis, RNFL thickness, ganglion cell layer (GCL) thickness, and optic disk parameters measured with swept-source OCT. The differences between VF and RNFL (including the data of optic disc) are calculated. The correlation between VF defect values and RNFL and GCL thickness are explored.ResultsIn total 43 eyes of 29 patients with intracranial tumor and 31 eyes of 19 patients with glaucoma were enrolled. The thickness of RNFL not only for the whole (360°), but also for the four quadrants was thinner in the glaucoma group than those of the intracranial tumor group (p<0.05), and similar to the thickness of GCL without significance (p>). There is no significant difference in VF for those two groups except glaucoma having lower sLV (p<0.05). A stronger correlation for mean deviations (MD)s of VF ten clusters and RNFL thickness of OCT twelve sectors is found in the glaucoma patients, but few in the intracranial tumor patients. Logistic regression also shows the loss of RNFL or increasing of vertical CDR and cup volume tending to the diagnosis of glaucoma and the irregular VF damage is inclined to the diagnosis of intracranial tumor.ConclusionsIntracranial tumor has a weak correlation between the RNFL thickness and Octopus VF MD, compared with that of glaucoma. OCT and Octopus VF might provide more helpful information for the differential diagnosis of intracranial tumor and glaucoma.

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Direct and transsynaptic retrograde degeneration and optic nerve head microvascular changes in patients with hemianopia

Cited by 5 publications

References 30 publications

The different structure-function correlation as measured by OCT and Octopus perimetry cluster analysis in intracranial tumor and glaucoma patients

The different structure-function correlation as measured by OCT and Octopus perimetry cluster analysis in intracranial tumor and glaucoma patients

Degeneration of the Sensorimotor Tract in Degenerative Cervical Myelopathy and Compensatory Structural Changes in the Brain

The different structure-function correlation as measured by OCT and octopus perimetry cluster analysis in intracranial tumor and glaucoma patients

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