Negative Pressure Wound Therapy
Strugala, V., & Martin, R. (2017). Meta-Analysis of Comparative Trials Evaluating a Prophylactic Single-Use Negative Pressure Wound Therapy System for the Prevention of Surgical Site Complications., 18(7), 810–819. https://doi.org/10.1089/sur.2017.156
Loveluck, J., Copeland, T., Hill, J., Hunt, A., & Martin, R. (2016). Biomechanical Modeling of the Forces Applied to Closed Incisions During Single-Use Negative Pressure Wound Therapy.. Eplasty, 16, e20.
Malmsjö, M., Huddleston, E., & Martin, R. (2014). Biological effects of a disposable, canisterless negative pressure wound therapy system.. Eplasty, 14, e15.
Karlakki, S., Brem, M., Giannini, S., Khanduja, V., Stannard, J., & Martin, R. (2013). Negative pressure wound therapy for managementof the surgical incision in orthopaedic surgery: A review of evidence and mechanisms for an emerging indication.. Bone & Joint Research, 2(12), 276–84. doi:10.1302/2046-3758.212.2000190
Young SR, Hampton S, Martin R. (2013) Non-invasive assessment of negative pressure wound therapy using high frequency diagnostic ultrasound: oedema reduction and new tissue accumulation. Int Wound J. 2013 Aug;10(4):383-8. doi: 10.1111/j.1742-481X.2012.00994.x. Epub 2012 Jun 4
Hudson DA, Adams KG, Huyssteen AV, Martin R, Huddleston EM. (2013) Simplified negative pressure wound therapy: clinical evaluation of an ultraportable, no-canister system. Int Wound J. 2013 May 7. doi: 10.1111/iwj.12080.
Birke-Sorensen, H., Malmsjo, M., Rome, P., Hudson, D., Krug, E., Berg, L., Bruhin, A., et al. (2011). Evidence-based recommendations for negative pressure wound therapy: treatment variables (pressure levels, wound filler and contact layer)--steps towards an international consensus.. Journal of plastic, reconstructive & aesthetic surgery: JPRAS, 64 Suppl S1-S16. doi:10.1016/j.bjps.2011.06.001
Vig S, Dowsett C, Berg L, Caravaggi C, Rome P, Birke-Sorensen H, Bruhin A, Chariker et al (2011) Evidence-based recommendations for the use of negative pressure wound therapy in chronic wounds: steps towards an international consensus. J Tissue Viability. Dec;20 Suppl 1:S1-18. doi: 10.1016/j.jtv.2011.07.002.
Christine Moffatt, Robin Martin (2011) Letter to Editor: Quality of life during NPWT Journal of Wound Technology NPWT II: N° 11 JANUARY
Krug E, Berg L, Lee C, Hudson D, Birke-Sorensen H, Depoorter M, Dunn R, Jeffery S, et al (2010) Evidence-based recommendations for the use of Negative Pressure Wound Therapy in traumatic wounds and reconstructive surgery: steps towards an international consensus. Injury, 42 Suppl 1, S1-12. doi:10.1016/S0020-1383(11)00041-6
Malmsjö M, Ingemansson R, Martin R, Huddleston E (2009) Wound edge microvascular blood flow: effects of negative pressure wound therapy using gauze or polyurethane foam. Annals Plast. Surg. Dec;63(6):676-81.
Malmsjö M, Ingemansson R, Martin R, Huddleston E, (2009) Negative-pressure wound therapy using gauze or open-cell polyurethane foam: similar early effects on pressure transduction and tissue contraction in an experimental porcine wound model. Wound Repair & Regeneration: 2009 Mar-Apr;17(2):200-5.
Surgical debridement
Oosthuizen, B., Mole, T., Martin, R., & Myburgh, J. G. (2014). Comparison of standard surgical debridement versus the VERSAJET Plus™ Hydrosurgery system in the treatment of open tibia fractures: a prospective open label randomized controlled trial. International Journal of Burns and Trauma, 4(2), 53–8.
Matsumura H, Nozaki M, Watanabe K, Sakurai H, Kawakami S, Nakazawa et al., (2012) The estimation of tissue loss during tangential hydrosurgical debridement. Ann Plast Surg. Nov;69(5):521-5.
Allan N, Olson M, Nagel D Martin R (2010). The impact of Versajet hydrosurgical debridement on wounds containing bacterial biofilms. 20th Meeting of the European Tissue Repair Society, Gent, Belgium, September 15–17, 2010 Wound Rep Reg 18: A88
Skin & corneal epithelial cell and chondrocyte delivery
Sharpe JR, Daya S, Dimitriadi M, Martin R, James SE (2007) Survival of cultured allogeneic limbal epithelial cells following corneal repair. Tissue Engineering. 13:123-32.
Daya SM, Watson A, Sharpe JR, Giledi O, Rowe A, Martin R, James SE (2005) Outcomes and DNA analysis of ex vivo expanded stem cell allograft for ocular surface reconstruction. Ophthalmology.112(3):470-7.
Sharpe JR, Ahmed SU, Fleetcroft JP, Martin R (2005). A three-year follow-up of patients receiving a combination of osteochondral autograft transfer and autologous chondrocyte implantation. J. Bone Joint Surg (Br.) 87(5):730-5
Jones I, James SE, Rubin P, Martin R (2003). Upward migration of cultured autologous keratinocytes in Integra TM artificial skin: a preliminary report. Wound Repair Regen. 11:132-138.
Currie LJ, Martin R, Sharpe JR, James SE (2003). A comparison of keratinocyte cell sprays with and without fibrin glue. Burns. 29: 677-85.
Sandeman SR, Lloyd AW, Tighe BJ, Franklin V, Li J, Lydon F, Liu CS, Mann DJ, James SE, Martin R. (2003) A model for the preliminary biological screening of potential keratoprosthetic biomaterials. Biomaterials. (26):4729-39.
Grant,I., Ng,R.L.H., Woodward,B.M., Bevan,S., Green,C.J., and Martin,R. (2002). Reply to Lam et al: Regarding Burns, 2001 27:1-8. Burns 28, 99.
Harper,R., Martin, R. (2002). Letter to the Editor Regarding Onuoha G, Alpar K, Jones I, Burns 27; 17-21. Burns:28, 288.
Grant,I., Warwick,K., Marshall,J., Green,C., and Martin,R. (2002). The co-application of sprayed cultured autologous keratinocytes and autologous fibrin sealant in a porcine wound model. British Journal of Plastic Surgery 55, 219-227.
Jones,I., Currie,L., and Martin,R. (2002). A guide to biological skin substitutes. British Journal of Plastic Surgery 55, 185-193.
Grant,I., Ng,R.L.H., Woodward,B.M., Bevan,S., Green,C.J., and Martin,R. (2001). Demonstration of epidermal transfer from a polymer membrane using genetically marked keratinocytes. Burns 27, 1-8.
Martin,R., Bevan,S., Boorman,J., Grant,I., James,S.E., Jones,I., Parkhouse,N., Ng,R., Rubin,P., and Woodward,B. (2001). Cultured keratinocytes: experimental and clinical directions in the quest for tissue engineering new skin. In: Cultured Human Keratinocytes and Tissue Engineered Skin Substitutes, A.M.Munster, B.M.Achauer, and R.E.Horch, eds. Thieme Intl. p107-116.
James,S.E., Rowe,A., Ilari,L., Daya,S., and Martin,R. (2001). The potential for Eye-Bank limbal rings to generate cultured corneal epithelial allografts. Cornea. 20, 488-494
Grant,I., Green,C., and Martin,R. (2001). Strategies to improve the take of a commercially available collagen/glycosaminoglycan wound repair material investigated in an animal model. Burns 27, 699-707.
Mosahebi,A., Woodward,B., Wiberg,M., Martin,R., and Terenghi,G. (2001). Retroviral labeling of Schwann cells: in vitro characterisation and in vivo transplantation to improve peripheral nerve regeneration. Glia 34, 8-17.
Currie,L.J., Sharpe,J.R., and Martin,R. (2001). The use of fibrin glue in skin grafts and tissue engineered skin replacements: a review. Plastic & Reconstructive Surgery 108, 1713-1726.
Mosahebi, A., Woodward, B., Green, C., Martin, R., and Terenghi, G. (2000). Long-term effect of vital labelling on mixed Schwann cell cultures. The Histochemical Journal 32, 337-343.
Bevan, S., Martin, R., and McKay, I.A. (1999). The production and application of genetically modified skin cells. In Biotechnology and Genetic Engineering Reviews. S.E. Harding, ed. (Intercept), Vol 16, Chapter 9: 231-256 Martin,R. (1995). b1-integrin-bright stem cells in human skin. Molecular Medicine Today 1, 5-6. (News article).
Ng,R.L.H., Woodward,B., Bevan,S., and Martin,R. (1997). Another support for the location of epidermal stem cells residing adjacent to the tips of dermal papillae in the interfollicular epidermis. J. Invest. Dermatol 109, 697-697. (Published reply to comments on J. Invest. Dermatol 108, 457-462).
Ng, R.L.H., Woodward, B., Bevan, S., Green, C., and Martin, R. (1997). Retroviral marking identifies grafted autologous keratinocytes in porcine wounds receiving cultured epithelium. J. Invest. Dermatol 108, 457-462.
Harper, R., Parkhouse, N., Green, C., and Martin, R. (1997). Nitric oxide production in burns: plasma nitrate levels are not increased in patients with minor thermal injuries. J. Trauma 43, 467-474
Bevan,S., Woodward,B., Ng,R.L.H., Green,C., and Martin,R. (1997). Retroviral gene transfer into porcine keratinocytes following improved methods of cultivation. Burns 23, 525-532.