Your search keyword '"Primary Visual Cortex physiopathology"' showing total 10 results

1. Aberrant dynamic functional and effective connectivity changes of the primary visual cortex in patients with retinal detachment via machine learning.

Author

Ji Y, Wang YY, Cheng Q, Fu WW, Shu BL, Wei B, Huang QY, and Wu XR

Subjects

Humans, Male, Female, Adult, Middle Aged, Machine Learning, Connectome methods, Nerve Net diagnostic imaging, Nerve Net physiopathology, Support Vector Machine, Young Adult, Retinal Detachment physiopathology, Retinal Detachment diagnostic imaging, Magnetic Resonance Imaging methods, Primary Visual Cortex physiopathology, Primary Visual Cortex diagnostic imaging

Abstract

Objective: Previous neuroimaging studies have identified significant alterations in brain functional activity in retinal detachment (RD) patients, these investigations predominantly concentrated on local functional activity changes. The potential directional alterations in functional connectivity within the primary visual cortex (V1) in RD patients remain to be elucidated., Methods: In this study, we employed seed-based functional connectivity analysis along with Granger causality analysis to examine the directional alterations in dynamic functional connectivity (dFC) within the V1 region of patients diagnosed with RD. Finally, a support vector machine algorithm was utilized to classify patients with RD and healthy controls (HCs)., Results: RD patients exhibited heightened dynamic functional connectivity (dFC) and dynamic effective connectivity (dEC) between the Visual Network (VN) and default mode network (DMN), as well as within the VN, compared to HCs. Conversely, dFC between VN and auditory network (AN) decreased, and dEC between VN and sensorimotor network (SMN) significantly reduced. In state 4, RD patients had higher frequency. Notably, variations in dFC originating from the left V1 region proved diagnostically effective, achieving an AUC of 0.786., Conclusion: This study reveals significant alterations in the connectivity between the VN and the default mode network in patients with RD. These changes may disrupt visual information processing and higher cognitive integration in RD patients. Additionally, alterations in the left V1 region and whole-brain dFC show promising potential in aiding the diagnosis of RD. These findings offer valuable insights into the neural mechanisms underlying visual and cognitive impairments associated with RD., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

2. Altered functional connectivity strength of primary visual cortex in subjects with thyroid-associated ophthalmopathy.

Author

Qi CX, Wen Z, and Huang X

Subjects

Humans, Male, Female, Middle Aged, Support Vector Machine, Brain Mapping methods, Adult, Neural Pathways physiopathology, Neural Pathways diagnostic imaging, Visual Cortex physiopathology, Visual Cortex diagnostic imaging, Graves Ophthalmopathy physiopathology, Graves Ophthalmopathy diagnostic imaging, Magnetic Resonance Imaging methods, Primary Visual Cortex physiopathology, Primary Visual Cortex diagnostic imaging, Primary Visual Cortex physiology

Abstract

Our objective was to explore the disparities in the intrinsic functional connectivity (FC) patterns of primary visual cortex (V1) between patients with thyroid-associated ophthalmopathy (TAO) and healthy controls (HCs) utilizing resting-state functional MRI. Twenty-one patients with TAO (14 males and 7 females; mean age: 54.17 ± 4.83 years) and 21 well-matched HCs (14 males and 7 females; mean age: 55.17 ± 5.37 years) underwent functional MRI scans in the resting-state. We assessed modifications in the intrinsic FC patterns of the V1 in TAO patients using the FC method. Subsequently, the identified alterations in FC regions in the analysis were selected as classification features to distinguish TAO patients from HCs through the support vector machine (SVM) method. The results indicated that, in comparison to HCs, patients with TAO exhibited notably reduced FC values between the left V1 and the bilateral calcarine (CAL), lingual gyrus (LING) and superior occipital gyrus, as well as between the right V1 and the bilateral CAL/LING and the right cerebellum. Furthermore, the SVM classification model based on FC maps demonstrated effective performance in distinguishing TAO patients from HCs, achieving an accuracy of 61.9% using the FC of the left V1 and 64.29% using the FC of the right V1. Our study revealed that patients with TAO manifested disruptions in FC between the V1 and higher visual regions during rest. This might indicate that TAO patients could present with impaired top-down modulations, visual imagery and vision-motor function. These insights could be valuable in understanding the underlying neurobiological mechanisms of vision impairment in individuals with TAO., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

3. Are we aware of neural activity in primary visual cortex? A neuropsychological case study.

Author

Hauw F, Sangaré A, Munoz-Musat E, Meyniel C, Di Donato N, Chokron S, Bozon F, and Naccache L

Subjects

Humans, Blindness, Cortical physiopathology, Male, Awareness physiology, Visual Perception physiology, Prefrontal Cortex physiopathology, Prefrontal Cortex physiology, Neuropsychological Tests, Female, Adult, Magnetic Resonance Imaging, Primary Visual Cortex physiology, Primary Visual Cortex physiopathology

Abstract

Objective: According to a seminal hypothesis stated by Crick and Koch in 1995, one is not aware of neural activity in primary visual cortex (V1) because this region lacks reciprocal connections with prefrontal cortex (PFC)., Methods: We provide here a neuropsychological illustration of this hypothesis in a patient with a very rare form of cortical blindness: ventral and dorsal cortical pathways were lesioned bilaterally while V1 areas were partially preserved., Results: Visual stimuli escaped conscious perception but still activated V1 regions that were functionally disconnected from PFC., Interpretation: These results are consistent with the hypothesis of a causal role of PFC in visual awareness., (© 2024 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2024

4. Single session cross-frequency bifocal tACS modulates visual motion network activity in young healthy population and stroke patients.

Author

Bevilacqua M, Feroldi S, Windel F, Menoud P, Salamanca-Giron RF, Zandvliet SB, Fleury L, Hummel FC, and Raffin E

Subjects

Humans, Male, Female, Adult, Young Adult, Middle Aged, Electroencephalography, Visual Cortex physiology, Visual Cortex physiopathology, Primary Visual Cortex physiology, Primary Visual Cortex physiopathology, Aged, Stroke physiopathology, Transcranial Direct Current Stimulation methods, Motion Perception physiology

Abstract

Background: Phase synchronization over long distances underlies inter-areal communication and importantly, modulates the flow of information processing to adjust to cognitive demands., Objective: This study investigates the impact of single-session, cross-frequency (Alpha-Gamma) bifocal transcranial alternating current stimulation (cf-tACS) to the cortical visual motion network on inter-areal coupling between the primary visual cortex (V1) and the medio-temporal area (MT) and on motion direction discrimination., Methods: Based on the well-established phase-amplitude coupling (PAC) mechanism driving information processing in the visual system, we designed a novel directionally tuned cf-tACS protocol. Directionality of information flow was inferred from the area receiving low-frequency tACS (e.g., V1) projecting onto the area receiving high-frequency tACS (e.g., MT), in this case, promoting bottom-up information flow (Forward-tACS). The control condition promoted the opposite top-down connection (from MT to V1, called Backward-tACS), both compared to a Sham-tACS condition. Task performance and EEG activity were recorded from 45 young healthy subjects. An additional cohort of 16 stroke patients with occipital lesions and impairing visual processing was measured to assess the influence of a V1 lesion on the modulation of V1-MT coupling., Results: The results indicate that Forward cf-tACS successfully modulated bottom-up PAC (V1 α -phase -MT ɣ -amplitude ) in both cohorts, while producing opposite effects on the reverse MT-to-V1 connection. Backward-tACS did not change V1-MT PAC in either direction in healthy participants but induced a slight decrease in bottom-up PAC in stroke patients. However, these changes in inter-areal coupling did not translate into cf-tACS-specific behavioural improvements., Conclusions: Single session cf-tACS can alter inter-areal coupling in intact and lesioned brains but is probably not enough to induce longer-lasting behavioural effects in these cohorts. This might suggest that a longer daily visual training protocol paired with tACS is needed to unveil the relationship between externally applied oscillatory activity and behaviourally relevant brain processing., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Swiss Federal School of Technology. Published by Elsevier Inc. All rights reserved.)

Published

2024

5. Resting-State Functional Connectivity of the Primary Visual Cortex in Children with Anisometropia Amblyopia.

Author

Yu X, Zhao F, Li X, Lu W, Zhao L, Li D, Chen D, Wang Y, and Wang B

Subjects

Humans, Female, Male, Child, Anisometropia physiopathology, Brain Mapping methods, Rest physiology, Visual Cortex physiopathology, Visual Cortex diagnostic imaging, Amblyopia physiopathology, Magnetic Resonance Imaging, Visual Acuity physiology, Primary Visual Cortex physiopathology

Abstract

Introduction: This study aimed to explore the functional connectivity of the primary visual cortex (V1) in children with anisometropic amblyopia by using the resting-state functional connectivity analysis method and determine whether anisometropic amblyopia is associated with changes in brain function., Methods: Functional magnetic resonance imaging (fMRI) data were obtained from 16 children with anisometropia amblyopia (CAA group) and 12 healthy children (HC group) during the resting state. The Brodmann area 17 (BA17) was used as the region of interest, and the functional connection (FC) of V1 was analyzed in both groups. A two-sample t test was used to analyze the FC value between the two groups. Pearson's correlation was used to analyze the correlation between the mean FC value in the brain function change area of the CAA group and the best corrected visual acuity (BCVA) of amblyopia. p < 0.05 was considered statistically significant., Results: There were no significant differences in age and sex between the CAA and HC groups (p > 0.05). Compared to the HC group, the CAA group showed lower FC values in BA17 and the left medial frontal gyrus, as well as BA17 and the left triangle inferior frontal gyrus. Conversely, the CAA group showed higher FC values in BA17 and the left central posterior gyrus. Notably, BCVA in amblyopia did not correlate with the area of change in mean FC in the brain function of the CAA group., Conclusion: Resting-state fMRI-based functional connectivity analysis indicates a significant alteration in V1 of children with anisometropic amblyopia. These findings contribute additional insights into the neuropathological mechanisms underlying visual impairment in anisometropic amblyopia., (© 2024 The Author(s). Published by S. Karger AG, Basel.)

Published

2024

6. Altered functional connectivity of primary visual cortex in adults with strabismus and amblyopia: a resting-state fMRI study.

Author

Liu LQ, Li QY, Zhang ZH, Wu SN, Shu HY, Zhang LJ, Liang RB, Pan YC, and Shao Y

Subjects

Adult, Amblyopia diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Male, Primary Visual Cortex diagnostic imaging, Strabismus diagnostic imaging, Young Adult, Amblyopia physiopathology, Connectome, Primary Visual Cortex physiopathology, Strabismus physiopathology

Abstract

Functional connectivity of the primary visual cortex was explored with resting functional magnetic resonance imaging among adults with strabismus and amblyopia and healthy controls. We used the two-sample test and receiver operating characteristic curves to investigate the differences in mean functional connectivity values between the groups with strabismus and amblyopia and healthy controls. Compared with healthy controls, functional connectivity values in the left Brodmann areas 17, including bilateral lingual/angular gyri, were reduced in groups with strabismus and amblyopia. Moreover, functional connectivity values in the right Brodmann area 17, including left cuneus, right inferior occipital gyrus, and left inferior parietal lobule, were reduced in adults with strabismus and amblyopia. Our findings indicate that functional connectivity abnormalities exist between the primary visual cortex and other regions. This may be the basis of the pathological mechanism of visual dysfunction and stereovision disorders in adults with strabismus and amblyopia., Competing Interests: The authors declare no conflict of interest., (© 2022 The Author(s). Published by IMR Press.)

Published

2022

7. Modelling the neural code in large populations of correlated neurons.

Author

Sokoloski S, Aschner A, and Coen-Cagli R

Subjects

Animals, Bayes Theorem, Models, Neurological, Primary Visual Cortex physiology, Macaca mulatta physiology, Neurons physiology, Primary Visual Cortex physiopathology

Abstract

Neurons respond selectively to stimuli, and thereby define a code that associates stimuli with population response patterns. Certain correlations within population responses (noise correlations) significantly impact the information content of the code, especially in large populations. Understanding the neural code thus necessitates response models that quantify the coding properties of modelled populations, while fitting large-scale neural recordings and capturing noise correlations. In this paper, we propose a class of response model based on mixture models and exponential families. We show how to fit our models with expectation-maximization, and that they capture diverse variability and covariability in recordings of macaque primary visual cortex. We also show how they facilitate accurate Bayesian decoding, provide a closed-form expression for the Fisher information, and are compatible with theories of probabilistic population coding. Our framework could allow researchers to quantitatively validate the predictions of neural coding theories against both large-scale neural recordings and cognitive performance., Competing Interests: SS, AA, RC No competing interests declared, (© 2021, Sokoloski et al.)

Published

2021

8. Interocular suppression in primary visual cortex in strabismus: impact of staggering the presentation of stimuli to the eyes.

Author

Economides JR, Dilbeck MD, Adams DL, and Horton JC

Subjects

Animals, Diplopia etiology, Disease Models, Animal, Macaca mulatta, Male, Photic Stimulation, Strabismus complications, Visual Fields physiology, Diplopia physiopathology, Pattern Recognition, Visual physiology, Primary Visual Cortex physiopathology, Strabismus physiopathology, Vision, Binocular physiology

Abstract

Diplopia (double vision) in strabismus is prevented by suppression of the image emanating from one eye. In a recent study conducted in two macaques raised with exotropia (an outward ocular deviation) but having normal acuity in each eye, simultaneous display of stimuli to each eye did not induce suppression in V1 neurons. Puzzled by this negative result, we have modified our protocol to display stimuli in a staggered sequence, rather than simultaneously. Additional recordings were made in the same two macaques, following two paradigms. In trial type 1 , the receptive field in one eye was stimulated with a sine-wave grating while the other eye was occluded. After 5 s, the occluder was removed and the neuron was stimulated for another 5 s. The effect of uncovering the eye, which potentially exposed the animal to diplopia, was quantified by the peripheral retinal interaction index (PRII). In trial type 2 , the receptive field in the fixating eye was stimulated with a grating during binocular viewing. After 5 s, a second grating appeared in the receptive field of the nonfixating eye. The impact of the second grating, which had the potential to generate visual confusion, was quantified by the receptive field interaction index (RFII). For 82 units, the mean PRII was 0.48 ± 0.05 (0.50 = no suppression) and the mean RFII was 0.46 ± 0.08 (0.50 = no suppression). These values suggest mild suppression, but the modest decline in spike rate registered during the second epoch of visual stimulation might have been due to neuronal adaptation, rather than interocular suppression. In a few instances neurons showed unequivocal suppression, but overall, these recordings did not support the contention that staggered stimulus presentation is more effective than simultaneous stimulus presentation at evoking interocular suppression in V1 neurons. NEW & NOTEWORTHY In strabismus, double vision is prevented by interocular suppression. It has been reported that inhibition of neuronal firing in the primary visual cortex occurs only when stimuli are presented sequentially, rather than simultaneously. However, these recordings in alert macaques raised with exotropia showed, with rare exceptions, little evidence to support the concept that staggered stimulus presentation is more effective at inducing interocular suppression of V1 neurons.

Published

2021

9. Calcarine as a bridge between brain function and structure in irritable bowel syndrome: A multiplex network analysis.

Author

Chen N, Liu G, Guo M, Li Y, Yao Z, and Hu B

Subjects

Humans, Nerve Net physiopathology, Primary Visual Cortex physiopathology, Brain physiopathology, Irritable Bowel Syndrome physiopathology

Abstract

Background and Aim: Jointly analyzing structural and functional brain networks enables a better understanding of pathological underpinnings of irritable bowel syndrome (IBS). Multiplex network analysis provides a novel framework to study complex networks consisting of different types of connectivity patterns in multimodal data., Methods: In the present work, we integrated functional and structural networks to a multiplex network. Then, the multiplex metrics and the inner-layer/inter-layer hub nodes were investigated through 34 patients with IBS and 33 healthy controls., Results: Significantly differential multiplex degree in both left and right parts of calcarine was found, and meanwhile, IBS patients lost inner-layer hub properties in these regions. In addition, the left fusiform was no longer practicing as an inner-layer hub node, while the right median cingulate acted as a new inner-layer hub node in the IBS patients. Besides, the right calcarine, which lost its inner-layer hub identity, became a new inter-layer hub node, and the multiplex degree of the left hippocampus, which lost its inter-layer hub identity in IBS patients, was significantly positively correlated with the IBS Symptom Severity Score scores., Conclusions: Inner-layer hub nodes of multiplex networks were preferentially vulnerable, and some inner-layer hub nodes would convert into inter-layer hub nodes in IBS patients. Besides, the inter-layer hub nodes might be influenced by IBS severity and therefore converted to general nodes., (© 2020 Journal of Gastroenterology and Hepatology Foundation and John Wiley & Sons Australia, Ltd.)

Published

2021

10. Color Compensation in Anomalous Trichromats Assessed with fMRI.

Author

Tregillus KEM, Isherwood ZJ, Vanston JE, Engel SA, MacLeod DIA, Kuriki I, and Webster MA

Subjects

Adult, Female, Humans, Male, Young Adult, Color Perception physiology, Color Vision Defects physiopathology, Magnetic Resonance Imaging, Primary Visual Cortex physiopathology

Abstract

Anomalous trichromacy is a common form of congenital color deficiency resulting from a genetic alteration in the photopigments of the eye's light receptors. The changes reduce sensitivity to reddish and greenish hues, yet previous work suggests that these observers may experience the world to be more colorful than their altered receptor sensitivities would predict, potentially indicating an amplification of post-receptoral signals. However, past evidence suggesting such a gain adjustment rests on subjective measures of color appearance or salience. We directly tested for neural amplification by using fMRI to measure cortical responses in color-anomalous and normal control observers. Color contrast response functions were measured in two experiments with different tasks to control for attentional factors. Both experiments showed a predictable reduction in chromatic responses for anomalous trichromats in primary visual cortex. However, in later areas V2v and V3v, chromatic responses in the two groups were indistinguishable. Our results provide direct evidence for neural plasticity that compensates for the deficiency in the initial receptor color signals and suggest that the site of this compensation is in early visual cortex., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021