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Number of items: 8.

Article

Coy, RH; Kennedy, G; Kayal, C; O'Rourke, C; Kingham, PJ; Phillips, JB; Shipley, RJ; (2016) A joint theoretical-experimental approach to investigate the effects of low oxygen environments upon therapeutic cell viability and VEGF production. European Cells and Materials , 31 (S1) p. 174. Green open access

Kayal, C; Moeendarbary, E; Shipley, R; Phillips, J; (2020) Mechanical response of neural cells to physiologically relevant stiffness gradients. Advanced Healthcare Materials , 9 (8) , Article 1901036. 10.1002/adhm.201901036. Green open access

Kayal, C; Shipley, RJ; Phillips, JB; (2019) Physical and mechanical properties of RAFT-stabilised collagen gels for tissue engineering applications. Journal of the Mechanical Behavior of Biomedical Materials , 99 pp. 216-224. 10.1016/j.jmbbm.2019.07.011. Green open access

Muangsanit, P; Day, A; Dimiou, S; Ataç, AF; Kayal, C; Park, H; Nazhat, SN; (2020) Rapidly formed stable and aligned dense collagen gels seeded with Schwann cells support peripheral nerve regeneration. Journal of Neural Engineering 10.1088/1741-2552/abaa9c. (In press). Green open access

Proceedings paper

Coy, R; Kennedy, G; Kayal, C; O'Rourke, C; Kingham, P; Phillips, J; Shipley, RJ; (2016) A mathematical model informed by in vitro experiments to advance engineered nerve repair construct design. In: (Proceedings) Tissue and Cell Engineering Society. (pp. p. 36). European Cells & Materials Ltd Green open access

Kayal, C; Shipley, RJ; Phillips, J; (2016) Effect of collagen gel concentration gradients on neurite elongation. In: European Cells and Materials - Volume No 32 - Supplement 4. (pp. p. 83). European Cells & Materials Ltd Green open access

Kennedy, G; Coy, R; Kayal, C; O'Rourke, C; Kingham, P; Shipley, RJ; Phillips, J; (2016) In vitro experiments to inform cell seeding strategies and parameterize a mathematical model for peripheral nerve repair. In: European Cells and Materials - Volume No 32 - Supplement 4. (pp. p. 21). European Cells & Materials Ltd Green open access

Thesis

Kayal, Celine; (2019) Spatial Control of Mechanical Factors: a New Design Rationale for Nerve Tissue Engineering. Doctoral thesis (Ph.D), UCL (University College London). Green open access

This list was generated on Wed Jan 28 20:39:53 2026 GMT.