RT Journal Article SR Electronic T1 Medical lessons learnt from the US and Canadian experience of treating combat casualties from Afghanistan and Iraq JF Journal of the Royal Army Medical Corps JO J R Army Med Corps FD British Medical Journal Publishing Group SP 102 OP 109 DO 10.1136/jramc-2013-000032 VO 159 IS 2 A1 Dharm-Datta, Shreshth A1 McLenaghan, J YR 2013 UL http://militaryhealth.bmj.com/content/159/2/102.abstract AB The Winston Churchill Memorial Trust, established in 1965, funds Travelling Fellowships and both authors visited hospitals in Germany, Canada and the USA regarded as centres of excellence with expertise in the early care, reconstruction and rehabilitation of the combat casualties of our NATO Allies, as recipients of these Fellowships. This article presents some of the lessons learnt in the field of musculoskeletal trauma and rehabilitation from the Canadian and US military medical systems. In trauma, there were significant differences in wound debridement policy, use of external fixators for fractures, primary use of circular frames for open tibial fractures and a far more liberal use of bone morphogenetic protein in fracture treatment. Differences in soft tissue reconstruction policy regarding flaps for soft tissue cover over exposed bone, near-universal usage of topical negative pressure dressings and use of Allgöwer-Donati suture pattern to close all wounds were noted. Ertl amputation osteoplasty, a modified form of transtibial amputation, had also been reintroduced. In rehabilitation, the management of heterotopic ossification, in particular with imaging techniques and excision surgery, was identified. For the upper limb, we observed the patient training required to use a myoelectric hand and the future possibility of targeted muscle re-innervation to make controlling these myoelectric prostheses more natural using innate motor patterns. For the lower limb, we found we used identical above knee prostheses. For patients who have had limb reconstruction and have poor function, an energy-storing orthosis was demonstrated to compensate for the loss of range of motion and muscle power.