Growing prostheses have been utilised in the United Kingdom since the late 1970s. Various mechanisms have been tried, but to date all have required some form of surgical intervention. This has led to multiple hospital admissions and a large amount of resources, both in theatre time and rehabilitation. Over the last ten years the Department of Bio-Medical Engineering at University College, London, together with the Royal National Orthopaedic Hospital, Stanmore, have developed a prosthesis which does not require surgical intervention to elongate. The total cost of the development has been something in the order of £350,000.00. The design features are the power worm screw mechanism where one turn equals 1 mm of elongation, but attached to this mechanism is an epicyclic gearbox, which has been reduced in size so that it can fit in to the body of the prosthesis. The speed reduction achieved by the gear box is 13061 to 1. The mechanism is capable of withstanding an axial load of 1,350 newtons. When an external magnetic field is applied an external coil speed of 3,000 revs per minute leads to a lengthening of 0.23 mm per minute. To date the prosthesis has been inserted in three patients ages 11, 12 and 13. All were suffering from osteosarcoma of the distal femur and had previously received neo-adjuvant chemotherapy. Early elongation had been achieved in all patients without any major discomfort and without the need for either analgesia or inpatient admission. There had been no loss of range of movement in the early post-lengthening period. This new prosthesis represents a significant advance in the management of skeletal sarcomas in children.