The Biomechanics of Diabetic Foot Amputation

Abstract

According to the International Diabetes Federation, approximately 463 million adults live with diabetes mellitus (DM), a number projected to increase to 700 million by 2045; a diabetic foot ulcer (DFU) will occur in about 15% of that population. Multiple factors contribute to the development of those wounds including diabetic peripheral neuropathy, biomechanical imbalances, trauma, and peripheral vascular disease. In addition, 85% of all lower limb amputations in patients with diabetes are preceded by a DFU resulting in significant biomechanical challenges for these patients, many of who never become ambulatory again. Prior to surgical intervention, patients come with inherited and acquired biomechanical imbalances or weaknesses such as equinus, severe pronation/supination, mid and forefoot deformities, and muscle weakness unrelated to their other diseases. Surgeons may not take these into consideration when making decisions about amputation level. Choosing the wrong level of amputation in an attempt to "preserve the foot" often sets up the patient to future failure and multiple amputations until a final resolution of the problem. The purpose of this review is to discuss specific biomechanical and quality of life issues associated with lower extremity amputations and identify the most functional levels for lower extremity amputation in compromised patients with a DFU. By reviewing recent data on these amputations, the authors hope to help surgeons choose the appropriate level for intervention and highlight areas of weakness in the literature requiring further investigation.