Advertisement for orthosearch.org.uk
Orthopaedic Proceedings Logo

Receive monthly Table of Contents alerts from Orthopaedic Proceedings

Comprehensive article alerts can be set up and managed through your account settings

View my account settings

Visit Orthopaedic Proceedings at:

Loading...

Loading...

Full Access

Research

BIFASIC BONE SUBSTITUTE AND BONE REGENERATION IN VIVO: CLINICAL AND HISTOLOGICAL EVIDENCE IN HUMANS

European Orthopaedic Research Society (EORS) 24th Annual Meeting, 14–16 September 2016. Part 2.



Abstract

Bone loss continues to be a clinical and therapeutic problem. Bone reconstruction of osseous defects is a challenge after fracture and traumatic injuries, infections and tumors. The common objective is to regenerate bone morphology and function. Several techniques have been developed to promote bone formation, but the advent of new biomaterials allows us to take an entirely different approach to the treatment of bone voids. However, the use of bone substitutes should be considered carefully, as not all biomaterials behave the same way in humans. Calcium phosphate ceramics are osteoconductive materials that promote bone regeneration. The aim of this study was to retrospectively evaluate the clinical, radiographic and histological results of bone loss treated with an adjunct injectable biphasic bone substitute (BBS).

We analysed the results of patients with fractures and a bone defect that were treated using an injectable BBS (calcium sulfate + hydroxyapatite) and those that were treated using the same bone substitute with antibiotic (gentamicin and/or vancomycin). Patient outcome was evaluated clinically and radiographically. In 9 cases samples for histological analysis were obtained.

From July 2009 to May 2015, 126 cases (cs) on 111 patients (pt) (calcaneus: 53 cs, 47 pt; tibia: 32 cs, 30 pt; Femur: 14 cs, 9 pt, Elbow: 5 cs, 5 pz; humerus 2 cs, 2 pz; wrist 7cs, 7pz; forearm 6 cs, 4 pz; foot 2 cs, 2 pz; Phalanx 5 cs, 5 pt) were treated at our hospital with a BBS. The mean follow-up was 15 months, and bone ingrowth was assessed at 1, 2, 3, 6 and 12 months by X-ray. In all cases, the calcium sulphate phase of the BBS dissolved within 4–6 weeks, and new bone formation was observed at 6 months. On six patients large bone was treated with a revision surgery (autologous cancellous bone graft combined with BBS and antibiotic). No complications were reported.

The 9 histological samples confirmed gradual remodeling and regeneration of the bone substitute over time.

This biomaterial is versatile, offers a good augment for hardware and bone alignment, is biocompatible and osteoconductive, and has allowed us to manage significant bone voids. Histological analysis of samples from the tibia, ulna and calcaneus have confirmed the ability of this bone substitute to remodel into bone.