Yu-Xiang Liang

Affiliations: 
University of Hong Kong Faculty of Medicine, Downingtown, Hong Kong Island, Hong Kong 
Area:
Anatomy
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"Yu-Xiang Liang"
Mean distance: 16.73 (cluster 17)
 		SNBCP
Cross-listing: Anatomy Tree

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Rutledge G. Ellis-Behnke research scientist 2004- University of Hong Kong Faculty of Medicine

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Publications

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Huang Y, Xu Z, Xiong S, et al. (2018) Dual extra-retinal origins of microglia in the model of retinal microglia repopulation. Cell Discovery. 4: 9
Huang Y, Xu Z, Xiong S, et al. (2018) Repopulated microglia are solely derived from the proliferation of residual microglia after acute depletion. Nature Neuroscience
Yuan TF, Liang YX, Peng B, et al. (2015) Local proliferation is the main source of rod microglia after optic nerve transection. Scientific Reports. 5: 10788
Yuan TF, Liang YX, Tay D, et al. (2015) Specialized vasculature in the rostral migratory stream as a neurogenic niche and scaffold for neuroblast migration. Cell Transplantation. 24: 377-90
Sang LY, Liang YX, Li Y, et al. (2015) A self-assembling nanomaterial reduces acute brain injury and enhances functional recovery in a rat model of intracerebral hemorrhage. Nanomedicine : Nanotechnology, Biology, and Medicine. 11: 611-20
Zhou IY, Liang YX, Chan RW, et al. (2014) Brain resting-state functional MRI connectivity: morphological foundation and plasticity. Neuroimage. 84: 1-10
Sang YH, Liang YX, Liu LG, et al. (2013) Rat model of intracerebral hemorrhage permitting hematoma aspiration plus intralesional injection. Experimental Animals / Japanese Association For Laboratory Animal Science. 62: 63-9
Jonas RA, Yuan TF, Liang YX, et al. (2012) The spider effect: morphological and orienting classification of microglia in response to stimuli in vivo. Plos One. 7: e30763
Liang YX, Cheung SW, Chan KC, et al. (2011) CNS regeneration after chronic injury using a self-assembled nanomaterial and MEMRI for real-time in vivo monitoring. Nanomedicine : Nanotechnology, Biology, and Medicine. 7: 351-9
Ellis-Behnke RG, Liang YX, Guo J, et al. (2009) Forever young: how to control the elongation, differentiation, and proliferation of cells using nanotechnology. Cell Transplantation. 18: 1047-58
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