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Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 247 - 247
1 Jul 2014
Charyeva O Thormann U Schmidt S Sommer U Lips K Heimann L Schnettler R
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Summary Statement

Magnesium has a number of qualities suitable for bioresorbable metallic implants. However, high corrosion rate and formation of hydrogen gas can compromise its performance. Combining magnesium with calcium phosphate improves magnesium's biocompatibility by decreasing gas formation and increasing bone remodeling.

Introduction

Clinical problems like risk of postoperative infection and increased incidence of pediatric trauma requiring surgical intervention raised the need for temporary orthopedic implants that would resorb after the bone healing is complete. This would decrease high costs associated with repeated surgeries, minimise recovery times, decrease the risk of postoperative infections, and thus promote higher quality of life to the patients. The specific requirement for orthopedic implants, aside from being bioresorbable, is the ability to bear high loads. Magnesium was suggested as a suitable material for these purposes because it is biocompatible; has excellent mechanical properties; is natural for human body, and seems to stimulate new bone formation. However, an important problem with magnesium is high corrosion rate with consistent hydrogen gas formation on contact with fluids. This in vivo study focuses on investigation of new magnesium-based implants specifically designed to minimise hydrogen gas formation.