ResearcherPage View Count

Geo Map
Region#
AS - Asia4852
EU - Europe2538
NA - North America2179
AF - Africa557
OC - Oceania232
HKU - The University of Hong Kong67
SA - South America1
UND - Undefined71
Total10497
Country#
CN - China2348
US - United States2149
GB - United Kingdom964
IE - Ireland845
SG - Singapore774
KR - Republic of Korea763
HK - Hong Kong434
ZA - South Africa430
JP - Japan427
NL - Netherlands413
OTH - Others950
Total10497
City#
Dublin845
Beijing843
Singapore758
Ashburn463
Johannesburg429
Amsterdam315
Busan290
London280
Tokyo222
Boydton215
Others5837
Total10497
Nano neuro knitting: Peptide nanofiber scaffold for brain repair and axon regeneration with functional return of vision212
骨关节的生和生101
Nanotechnology and CNS repair100
Erratum: Nano neuro knitting: Peptide nanofiber scaffold for brain repair and axon regeneration with functional return of vision (Proceedings of the National Academy of Sciences of the United States of America (March 28, 2006) 103, 13 (5054-5059) doi 10.1073/pnas.0600559103)149
Chronic injury visualization of regenerating axons in vivo in hamster optic tract transection utilizing a 7 tesla FMRI and a nano contrast agent118
Beyond nano neuro knitting: creating of a more permissive environment using SAPNS with chondroitinase ABC for brain lesion repair and functional return of vision143
A self‐assembling peptide nanofiber scaffold reduces acute brain injury and improves functional recovery in a hypertensive rat model of intracerebral hemorrhage plus clot aspiration50
Specialized Vasculature in the Rostral Migratory Stream as a Neurogenic Niche and Scaffold for Neuroblast Migration59
Redefining tissue engineering for nanomedicine: Visualizing the progress of regenerating axons in the mammalian visual system after complete transection and treatment with self-assembling nanomaterial118
Promotion of axonal growth by CNTF in a permissive environment of self-assembling peptide nanofiber scaffold for brain lesion repair and functional return of vision in adult hamsters136
Neuroprotective effects of self-assembling peptide nanofiber scaffold in a hypertension rat model of intracerebral haemorrhage113
A Self-assembling Nanomaterial Reduces Acute Brain Injury and Enhances Functional Recovery in a Rat Model of Hypertensive Intracerebral Hemorrhage154
COMPOSITIONS AND METHODS FOR AFFECTING MOVEMENT OF CONTAMINANTS, BODILY FLUIDS OR OTHER ENTITIES AND/OR AFFECTING OTHER PHYSIOLOGICAL CONDITIONS127
Nanomachines that help repair the brain107
Self-assembling peptide nano fiber scaffold for brain lesion repair and functional repair of vision in vivo experiment on developing and adult brain146
Uptake of Retrograde Tracers by Intact Optic Nerve Axons: A New Way to Label Retinal Ganglion Cells75
CNS regeneration after chronic injury using a self-assembled nanomaterial and MEMRI for real-time in vivo monitoring211
Trans-Scleral Electrical Stimulation Enhances the Survival of Axotomized Retinal Ganglion Cells163
Creation of a more permissive environment using self-assembling peptide nanofiber scaffold in combination with chondroitinase ABC for brain lesion repair and functional return of vision153
Intravitreal administration of ciliary neurotrophic factor promotes axonal regeneration of retinocollicular fibres following transection of the superior colliculus in adult golden hamsters132
Compositions and methods for promoting hemostasis and other physiological activities113
Using a 7 Tesla fMRI and a nano contrast agent to visualize axon regeneration in vivo after chronic optic tract injury in hamsters101
Bridge the injured spinal cord and promote functional recovery by self-assembling peptide nanofiber scaffolds seeded with Schwann cells or neural stem cells126
Nano hemostat solution: immediate hemostasis at the nanoscale151
Combinations of self-assembling peptide nanofiber scaffold and chondroitinase-ABC appear to create a more permissive environment in optic tract brain lesion repair resulting in return of vision102
Nanoparticles in optic nerve trauma: nanoscaffolding, visualization and regeneration77
The effects of self-assembling peptide nanofiber scaffold in a rat model of intracerebral hemorrhage plus clot aspiration149
Nano neuro knitting nanotechnology for hemostasis, brain and organ repair136
Self-assembling nano material for brain-lesion repair and functional return of vision: in vivo experiments on developing and adult brain111
Controlling the growth and differentiation of cells with physical interaction92
Local proliferation is the main source of rod microglia after optic nerve transection103
Using nanotechnology to control the elongation, differentiation and proliferation of cells122
Behavioral testing and preliminary analysis of the hamster visual system203
Occurrence of new neurons in the piriform cortex51
Crystal clear surgery using self-assembling molecules that act as a bio barrier in the brain and spinal cord144
Brain resting-state functional MRI connectivity: Morphological foundation and plasticity64
Nanoscale technologies: nano-knitting, healing powers and hemostasis104
Neonatal disassociated hippocampal neural stem cells in self-assembled peptide scaffold without serum85
Skin and brain: common origins and common cures after trauma. In vivo experiment in mammals117
Reknitting the injured spinal cord by self-assembling peptide nanofiber scaffold100
Repairing of damaged brain tissues with self-assembling nanofiber scaffold105
Study on the culture and induced differentiation of bone marrow mesenchymal stem cells110
Response: New neurons from old beliefs in the adult piriform cortex? A Commentary on: 'Occurrence of new neurons in the piriform cortex'40
Resting-state functional connectivity altered by complete and partial corpus callosotomy in rats50
Nano neuro knitting: using nanotechnology to repair the brain and spinal cord138
Cyclosporine affects the proliferation and differentiation of neural stem cells in culture150
Using a 7 tesla FMRI and a nono contrast agent to visualize regenerating axons in vivo in hamster optic tract transection92
Intracerebral hemorrhage in a hypertensive rat model148
CNS Repair117
Self-assembled nanomaterial, chondroitinase ABC and CNTF combination treatment provides a permissive environment for optic-tract regeneration in hamster111
Immediate Hemostasis120
Olfactory tract transection enhances adult neurogenesis in piriform cortex107
Neuroprotective effect of delayed trans-scleral electrical stimulation on axotomized damage in the rat retina86
Nano Repair Using Self-assembling Peptides103
Nanohealing in hamster vision: nanomedicine for functional recovery of central nervous system96
Self assembling peptide nano-fibre hydrogel scaffold for brain lesion repair: In-vivo experiment on damaged brain113
Longitudinal 1H MRS of hamster superior colliculus following retinotectal deafferentation106
Assessing the progression of functional regeneration of the visual system132
Using a self-assembling nanopeptide to achieve ocular hemostasis without causing clotting or secondary inflammation133
Clot aspiration plus intrastriatal administration of a self-assembling peptide in a rat model of intracerebral hemorrhage121
Using nanotechnology for tissue bioengineering in ophthalmology92
The spider effect: Morphological and orienting classification of microglia in response to stimuli in vivo149
Reknitting the spinal cord using a self-assembling peptide nanofiber scaffold to promote functional recovery110
Compositions and methods for affecting movement of contaminants, bodily fluids or other entities, and/or affecting other physiological conditions108
Nanomedicine: the new frontier of medicine155
Lycium Barbarum (wolfberry) reduces secondary degeneration and oxidative stress, and inhibits JNK pathway in retina after partial optic nerve transection56
Reknitting the injured spinal cord by self-assembling peptide nanofiber scaffold193
Evaluation of a self-assembling peptide nanofiber scaffold (SAPNS) in normotensive and hypertensive models of intracerebral hemorrhage (ICH) in the rat102
CNS regeneration after chronic injury using a self-assembled nano material177
A revisit of rod microglia in preclinical studies107
Crystal clear surgery85
Nanobiotechnology for the functional recovery of the nervous system127
Using nanotechnology to repair the CNS: from the 4 PS of regeneration to crystal clear surgery to in vivo non-invasive imaging of regenerating axons91
Self-assembling peptides for promoting hemostasis146
Compositions and methods for promoting hemostasis and other physiological activities132
Nanoscale image contrast agents to enhance the visualization of regenerating CNS axons78
A rat model of intracerebral hemorrhage permitting hematoma aspiration plus intralesional injection161
The control of stem cells in the brain and spinal cord by extracellular nanomatrix system100
Nanomedicine for CNS regeneration and instant hemostasis96
Using nanotechnology to repair the body101
Nano contrast enhancement agents used in the eye for tracing axons: trauma or illumination?123
COMPOSITIONS AND METHODS FOR PROMOTING HEMOSTASIS AND OTHER PHYSIOLOGICAL ACTIVITIES175
The impact of nanotechnology on eye treatments111
Restoration of Interhemispheric resting-state fMRI connectivity after partial corpus callosotomy via intrahemispheric reorganization102
Forever young: How to control the elongation, differentiation, and proliferation of cells using nanotechnology138
Nanohealing80
Lycium barbarum L.: A neuroprotective drug for glaucoma195
Regenerative medicine in vision102
Nanomedicine and nanotechnology applied to neurosciences109


TotJulAugSepOctNovDecJanFebMarAprMayJun
2017/20181187103715967711855874126123143107
2018/20191954136749637225245139222102126341211
2019/20201479267137441128412618730450384288
2020/202148091226151036410170515388477840729101
2021/2022103416781224937013954181654235
2022/20233413129000000000
Ever10497