Louwai Muhammed scite author profile

Independent navigation for blind individuals can be extremely difficult due to the inability to recognise and avoid obstacles. Assistive techniques such as white canes, guide dogs, and sensory substitution provide a degree of situational awareness by relying on touch or hearing but as yet there are no techniques that attempt to make use of any residual vision that the individual is likely to retain. Residual vision can restricted to the awareness of the orientation of a light source, and hence any information presented on a wearable display would have to limited and unambiguous. For improved situational awareness, i.e. for the detection of obstacles, displaying the size and position of nearby objects, rather than including finer surface details may be sufficient. To test whether a depth-based display could be used to navigate a small obstacle course, we built a real-time head-mounted display with a depth camera and software to detect the distance to nearby objects. Distance was represented as brightness on a low-resolution display positioned close to the eyes without the benefit focussing optics. A set of sighted participants were monitored as they learned to use this display to navigate the course. All were able to do so, and time and velocity rapidly improved with practise with no increase in the number of collisions. In a second experiment a cohort of severely sight-impaired individuals of varying aetiologies performed a search task using a similar low-resolution head-mounted display. The majority of participants were able to use the display to respond to objects in their central and peripheral fields at a similar rate to sighted controls. We conclude that the skill to use a depth-based display for obstacle avoidance can be rapidly acquired and the simplified nature of the display may appropriate for the development of an aid for sight-impaired individuals.

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MuSK Antibody–Associated Myasthenia Gravis With SARS-CoV-2 Infection: A Case Report

Muhammed

Baheerathan

Cao

et al. 2021

Ann Intern Med

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YouTube as a potential learning tool to help distinguish tonic–clonic seizures from nonepileptic attacks

Muhammed

Adcock

Sen

2014

Epilepsy & Behavior

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Single-cell Mendelian randomisation identifies cell-type specific genetic effects on human brain disease and behaviour

Haglund¹,

Zuber²,

Yang³

et al. 2022

Preprint

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Translating genome-wide association loci to therapies requires knowledge of the causal genes, their directionality of effect and the cell-types in which they act. To infer these relationships in the human brain, we implemented Mendelian randomisation using single cell-type expression quantitative trait loci (eQTLs) as genetic anchors. Expression QTLs were mapped across 8 major cell-types in brain tissue exclusively ascertained from donors with no history of brain disease. We report evidence for a causal association between the change in expression of 118 genes and one or more of 16 brain phenotypes, revealing candidate targets for risk mitigation and opportunities for shared preventative therapeutic strategies. We highlight key causal genes for neurodegenerative and neuropsychiatric disease and for each, we report its cellular context and the therapeutic directionality required for risk mitigation. Our use of control samples establishes a new resource for the causal interpretation of GWAS risk alleles for human brain phenotypes.

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Louwai Muhammed

A Depth-Based Head-Mounted Visual Display to Aid Navigation in Partially Sighted Individuals

MuSK Antibody–Associated Myasthenia Gravis With SARS-CoV-2 Infection: A Case Report

YouTube as a potential learning tool to help distinguish tonic–clonic seizures from nonepileptic attacks

Single-cell Mendelian randomisation identifies cell-type specific genetic effects on human brain disease and behaviour

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