Considerations for the use of biomaterials to support cell therapy in neurodegenerative disease
Considerations for the use of biomaterials to support cell therapy in neurodegenerative disease
VH Roberton & JB Phillips (2022). Considerations for the use of biomaterials to support cell therapy in neurodegenerative disease. International Review of Neurobiology https://doi.org/10.1016/bs.irn.2022.09.009
Read more »A combined experimental and computational framework to evaluate the behavior of therapeutic cells for peripheral nerve regeneration
D Eleftheriadou, M Berg, JB Phillips & RJ Shipley (2022). A combined experimental and computational framework to evaluate the behavior of therapeutic cells for peripheral nerve regeneration. Biotechnology & Bioengineering https://doi.org/10.1002/bit.28105
Read more »Novel inhibitors of AChE and Aβaggregation with neuroprotective properties as lead compounds for the treatment of Alzheimer’s disease
Y Liu, G Uras, I Onuwaje, W Li, H Yao, S Xu, X Li, X Li, J Phillips, S Allen, Q Gong, H Zhang, Z Zhu, J Liu & J Xu (2022). Novel inhibitors of AChE and Aβaggregation with neuroprotective properties as lead compounds for the treatment of Alzheimer’s disease. European Journal of Medicinal Chemistry, […]
Read more »In silico framework to inform the design of repair constructs for peripheral nerve injury repair
S Laranjeira, G Pellegrino, KS Bhangra, JB Phillips & RJ Shipley (2022). In silico framework to inform the design of repair constructs for peripheral nerve injury repair. J R Soc Interface, 19, 20210824
Read more »An alginate-based encapsulation system for delivery of therapeutic cells to the CNS
D. Eleftheriadou, R.E. Evans, E. Atkinson, A. Abdalla, F.K.H. Gavins, A.S. Boyd, G.R. Williams, J.C. Knowles, V.H. Roberton & J.B. Phillips (2022). An alginate-based encapsulation system for delivery of therapeutic cells to the CNS. RSC Adv. 12, 4005-4015
Read more »A shock to the (nervous) system: Bioelectricity within peripheral nerve tissue engineering
R.P. Trueman, A. S. Ahlawat & J. B. Phillips (2021). A shock to the (nervous) system: Bioelectricity within peripheral nerve tissue engineering. Tissue Engineering Part B: Reviews http://doi.org/10.1089/ten.TEB.2021.0159
Read more »Volumetric MRI is a promising outcome measure of muscle reinnervation
M Wilcox, L Dos Santos Canas, R Hargunani, T Tidswell, H Brown, M Modat, J Phillips, S Ourselin & T Quick (2021). Volumetric MRI is a promising outcome measure of muscle reinnervation. Sci Rep 11, 22433 (2021). https://doi.org/10.1038/s41598-021-01342-y
Read more »Engineered neural tissue made using clinical-grade human neural stem cells supports regeneration in a long gap peripheral nerve injury model
M.L.D. Rayner, A.G.E. Day, K.S. Bhangra, J. Sinden & J.B. Phillips (2021). Engineered neural tissue made using clinical-grade human neural stem cells supports regeneration in a long gap peripheral nerve injury model. Acta Biomaterialia https://doi.org/10.1016/j.actbio.2021.08.030
Read more »Repurposing Small Molecules to Target PPAR-γ as New Therapies for Peripheral Nerve Injuries
M.L.D. Rayner, J. Healy & J.B. Phillips (2021). Repurposing Small Molecules to Target PPAR-γ as New Therapies for Peripheral Nerve Injuries. Biomolecules 2021, 11, 1301
Read more »‘EngNT’ — Engineering live neural tissue for nerve replacement
J.B. Phillips (2021) ‘EngNT’ — Engineering live neural tissue for nerve replacement. Emerging Topics in Life Sciences ETLS20210085
Read more »