Journal of biomaterials applications
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The aim of this study was to examine histological changes in bone morphology after surgical treatment of tibial plateau fractures using calcium phosphate cement as a substitute for autologous bone grafting. A total of 42 patients with tibial plateau fractures were treated with open reduction, internal fixation, and calcium phosphate cement. A further 34 control patients underwent open reduction and internal fixation. ⋯ Mean Hospital for Special Surgery knee scores were rated "good" for both the calcium phosphate cement group (82.3) and control group (79.4) in 12 months, and were not significantly different between groups. Histological examination of samples obtained during the second surgery revealed well-arranged trabeculae, in addition to new bone and blood vessel formation. These histological, radiological, and functional findings suggest that calcium phosphate cement may be an effective substitute for autologous bone grafting to treat tibial plateau fractures.
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Patients with a femoral fracture due to osteoporosis are at high risk of sustaining a secondary fracture on the contralateral side. A prophylactic mechanical reinforcement of the contralateral side during operation of the initial fracture could be of interest for such patients. This biomechanical in vitro study investigates the potential of a limited V-shaped bone cement augmentation to prevent secondary hip fractures by targeting the areas of the proximal femur with the highest stresses during a fall. ⋯ No significant differences were found between the two groups for fracture load (p = 0.5), yield load (p = 0.35) and stiffness (p = 0.5). Biomechanically, a limited V-shaped prophylactic cement augmentation carries potential to prevent secondary hip fractures indicated by increased energy absorption until fracture. Further investigations are necessary to minimize interference with the biology and to maximize the mechanical benefit of prophylactic augmentation.
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Complex fractures resulting in bone loss or impaired fracture healing remain problematic in trauma and orthopedic surgeries. Many bone graft substitutes have been developed and are commercially available. These products differ in their osteoconductive and osteoinductive properties. ⋯ However, there was an observable trend that the BioSet RT material generated higher histological and radiographic scores, although not statistically significant. This study provides evidence that both BioSet RT and ProOsteon 500R are biocompatible and able to induce new bone formation as measured in this rabbit model. In addition, this in vivo study demonstrates the ability of BioSet RT to induce new bone formation in a shorter timeframe than ProOsteon 500R.
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Currently a wide variety of polymer materials are being applied to fabricate nerve guide tubes to repair injured peripheral nerves. In this study we have examined whether collagen-chitosan nerve guides promotes nerve repair compared to chitosan nerve guides using histological analysis. ⋯ Collagen-chitosan guides improved axonal maturation measured by a significant increase in axon diameter and axon area. These findings indicate that the collagen-chitosan nerve guides can be applied to repair severed peripheral nerve ends.
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Alginates are used as haemostats in wound dressings. They act as calcium ion (Ca) donors as they contain mannuronic (M) or guluronic (G) groups with a high Ca content. ⋯ The extent of coagulation activation was affected differently by the alginate M or G group composition. It was demonstrated that alginates containing zinc ions had the greatest potentiating effect on prothrombotic coagulation and platelet activation.