Chun Yoong Cham scite author profile

Objective The COVID-19 pandemic poses major risks to healthcare workers in neurocritical care. Recommendations are in place to limit medical personnel attending to the neurosurgical patient as a protective measure and to conserve personal protective equipment. However, the complexity of the neurosurgical patient proves to be a challenge and an opportunity for innovation. The goal of our study was to determine if telemedicine delivered through smart glasses was feasible and effective in an alternative method of conducting ward round on neurocritical care patients during the pandemic. Methods A random pair of Neurosurgery resident and specialist conducted consecutive virtual and physical ward rounds on neurocritical patients. A virtual ward round was first conducted remotely by a specialist who received real-time audiovisual information from a resident wearing smart glasses integrated with telemedicine. Subsequently, a physical ward round was performed together by the resident and specialist on the same patient. The management plans of both ward rounds were compared and the intrarater reliability was measured. On study completion a qualitative survey was performed. Results Ten paired ward rounds were performed on 103 neurocritical care patients with excellent overall intrarater reliability. Nine out of ten showed good to excellent internal consistency and one showed acceptable internal consistency. Qualitative analysis indicated wide user acceptance and high satisfaction rate with the alternative method. Conclusions Virtual ward rounds using telemedicine via smart glasses on neurosurgical patients in critical care were feasible, effective and widely accepted as an alternative to physical ward rounds during the COVID-19 pandemic.

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Genomic Analyses of Cladophialophora bantiana, a Major Cause of Cerebral Phaeohyphomycosis Provides Insight into Its Lifestyle, Virulence and Adaption in Host

Kuan

Cham

Singh

et al. 2016

PLoS ONE

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Cladophialophora bantiana is a dematiaceous fungus with a predilection for causing central nervous system (CNS) infection manifesting as brain abscess in both immunocompetent and immunocompromised patients. In this paper, we report comprehensive genomic analyses of C. bantiana isolated from the brain abscess of an immunocompetent man, the first reported case in Malaysia and Southeast Asia. The identity of the fungus was determined using combined morphological analysis and multilocus phylogeny. The draft genome sequence of a neurotrophic fungus, C. bantiana UM 956 was generated using Illumina sequencing technology to dissect its genetic fundamental and basic biology. The assembled 37.1 Mb genome encodes 12,155 putative coding genes, of which, 1.01% are predicted transposable elements. Its genomic features support its saprophytic lifestyle, renowned for its versatility in decomposing hemicellulose and pectin components. The C. bantiana UM 956 was also found to carry some important putative genes that engaged in pathogenicity, iron uptake and homeostasis as well as adaptation to various stresses to enable the organism to survive in hostile microenvironment. This wealth of resource will further catalyse more downstream functional studies to provide better understanding on how this fungus can be a successful and persistent pathogen in human.

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3D Printing in Neurosurgery

Waran

Narayanan²,

Karrupiah³

et al. 2017

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Neural Fiber Integrity in High- Versus Low-Grade Glioma using Probabilistic Fiber Tracking

et al. 2021

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Chun Yoong Cham

Telemedicine via Smart Glasses in Critical Care of the Neurosurgical Patient—COVID-19 Pandemic Preparedness and Response in Neurosurgery

Genomic Analyses of Cladophialophora bantiana, a Major Cause of Cerebral Phaeohyphomycosis Provides Insight into Its Lifestyle, Virulence and Adaption in Host

3D Printing in Neurosurgery

Neural Fiber Integrity in High- Versus Low-Grade Glioma using Probabilistic Fiber Tracking

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