A list of relevant papers published by the CellTran research group:

  
Simplifying the delivery of melanocytes and keratinocytes for the treatment of vitiligo using a chemically defined carrier dressing. Eves P, Bullet NA, Haddow DB, Beck AJ, Way L, Shard AG and MacNeil S. (2007) Journal of Investigative Dermatology (In Press).
A randomised controlled single blind prospective pilot study on the use of autologous keratinocytes on a transfer dressing (Myskin) in the treatment of non-healing diabetic ulcers. Moustafa M, Bullock AJ, Creagh FM, Heller S, Jeffcoate W, Game F, Amery C, Tesfaye S, Ince Z, Haddow DB, MacNeil S. (2007) Regenerative Medicine (In Press). (View)
Use of a rabbit cornea model for the development of a cell transfer system for limbal epithelial cells. Deshpande P, Bullett NA, Notara M, Daniels JT, Haddow DB, MacNeil S. Tissue Engineering (2007) 13(7): 1733 (View)
Improved technologies for translating culture of human melanocytes to the clinic. Eves P, Bullett NA, Haddow DB, Gawkrodger D, MacNeil S. Tissue Engineering (2007) 13(7): 1711 (View)
Development of biocompatible, biodegradable electrospun scaffolds for tissue engineering of human skin. Blackwood K, Freeman CO, McKean R, Farthing P, Haycock JW, Ryan AJ, Brook I, MacNeil S. Tissue Engineering (2007) 13(7): 1670-1671 (View)
Plasma polymer coated surfaces for serum-free culture of limbal epithelium for ocular surface disease. Notara M, Bullett NA, Deshpande P, Haddow DB, MacNeil S, Daniels JT. J. Mater Sci: Mater Med (2007) 18: 329-388  (View)
Progress and opportunities for tissue-engineered skin. S. MacNeil. Nature (2007) 445: 874-880 (View)
A cell therapy for chronic wounds based upon a plasma polymer delivery service. Haddow DB, MacNeil S, Short RD. Plasma Processes and Polymers (2006) 3: 419-430 (View)
Treatment of burns and chronic wounds using a new cell transfer dressing for delivery of autologous keratinocytes. Zhu N, Warner RM, Simpson C, Glover M, Hernon CA, Kelly J, Fraser S, Brotherston TM, Ralston DR, MacNeil S. European Journal of Plastic Surgery (2005) 28: 319–330 (View)
Use of human fibroblasts in the development of a xenobiotic free culture and delivery system for human keratinocytes. Bullock AJ, Higham MC, MacNeil, S. Tissue Engineering (2006) 12: 245-255 (View)
A new autologous keratinocyte dressing treatment for non-healing diabetic neuropathic foot ulcers. Moustafa M, Simpson C, Glover M, Dawson RA, Tesfaye S, Creagh FM, Haddow D, Short R, Heller S, MacNeil S. Diab. Medicine (2004) 21: 786-789 (View)
Plasma-polymerized surfaces for culture of human keratinocytes and transfer of cells to an in vitro wound-bed model. Haddow DB, Steele DA, Short RD, Dawson RA, Macneil S. Journal of Biomedical Materials Research Part A (2003) 64A(1): 80-87 (View)
Development of a Stable Chemically Defined Surface for the Culture of Human Keratinocytes under Serum-Free Conditions for Clinical Use. Higham MC, Dawson R, Szabo M, Short R, Haddow DB, MacNeil S.  Tissue Engineering (2003) 9(5): 919-930 (View)
Comparison of proliferation and growth of human keratinocytes on plasma copolymers of acrylic acid/1,7-octadiene and self-assembled monolayers. Haddow DB, France RM, Short RD, Macneil S, Dawson RA, Leggett GJ, Cooper E.  Journal of Biomedical Materials Research Part A (1999) 47(3): 379-387 (View)
Attachment of human keratinocytes to plasma co-polymers of acrylic acid/octa-1,7-diene and allyl amine/octa-1,7-diene. France RM, Short RD, Dawson RA, MacNeil S. J. Mater. Chem. (1998) 8(1): 37-42 (View)
Plasma Copolymerization of Allyl Alcohol/1,7-Octadiene: Surface Characterization and Attachment of Human Keratinocytes. France RM, Short RD, Duval E, Jones FR, Dawson RA, MacNeil S. Chem. Mater. (1998) 10 1176-1183 (View)