Paul Dan Sîrbu scite author profile

Biocompatibility is one of the mandatory requirements for the clinical use of biomaterials in orthopedics. It refers to the ability of a biomaterial to perform its function without eliciting toxic or injurious effects on biological systems but producing an appropriate host response in a specific case. Today, the biocompatibility concept includes not only bio-inertia, but also biofunctionality and biostability. High biocompatibility and functional properties are highly desirable for new biomaterials. The chemical, mechanical, structural properties of biomaterials, their interaction with biological environment or even the methodology of assessment can influence the biocompatibility. The biological evaluation of biomaterials includes a broad spectrum of in vitro and in vivo tests related to the cytocompatibility, genotoxicity, sensitization, irritation, acute and chronic toxicity, hemocompatibility, reproductive and developmental toxicitity, carcinogenicity, implantation and degradation as specified in different international standards. A brief review of the main assays used in the biocompatibility testing of orthopedic biomaterials is presented. In addition, their main biocompatibility issues are overviewed.

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Clinical Experience with a Macroporous Synthetic Bone Substitute (Eurocer®) in the Treatment of the Patients with Bone Defects

Sîrbu

Petreuş

Munteanu

et al. 2011

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Application of a biphasic macroporous synthetic bone substitutes CERAFORM®: clinical and histological results

Botez

Sîrbu

Simion

et al. 2009

Eur J Orthop Surg Traumatol

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Paul Dan Sîrbu

Adult multifocal pigmented villonodular synovitis—clinical review

Biocompatibility assessment of biomaterials used in orthopedic devices: An overview (Review)

Clinical Experience with a Macroporous Synthetic Bone Substitute (Eurocer®) in the Treatment of the Patients with Bone Defects

Application of a biphasic macroporous synthetic bone substitutes CERAFORM®: clinical and histological results

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