Review of the literature and our own investigations describe structure, synthesis and participati... more Review of the literature and our own investigations describe structure, synthesis and participation in biomineralisation of bone of synthetic bone scaffold tricalcium phosphate with original surface.
The development and studies of calcium phosphate cements (CPCs) for medical purposes aimed for re... more The development and studies of calcium phosphate cements (CPCs) for medical purposes aimed for replacing damaged bone tissue have been developed since the 1980s [1–3]. These materials should possess a set of properties such as biocompatibility, osteocon� ductivity, and the biodegradation rate coordinated with the processes of osteogenesis. The merits of these materials include, first, their ability to fill defects
Abstract Despite having a long history of bone-grafting materials for a treatment of patients, sk... more Abstract Despite having a long history of bone-grafting materials for a treatment of patients, skeletal bone pathology still remains a challenge, especially, in the case of critical bone defects. The urgency of the problem is emphasized by the high prevalence of diseases and pathological conditions in traumatology, orthopedics, oral and maxillofacial surgery that result in the formation of bone defects. The specific group of indications for bone-grafting materials in traumatology and orthopedics consists of degenerative diseases of spine and major joints and, in dental and maxillofacial surgery, the atrophy of the alveolar ridges of the upper and lower jaws. In the most recent research, efforts were aimed at creation of materials from biological precursors of apatite formation in humans. One possible precursor is octacalcium phosphate (OCP), which is believed not only to exhibit osteoconductivity, but possesses osteoinductive quality—the ability to induce bone formation. In this chapter we have been reported a recent achievement in the development of OCP base materials.
Review of the literature and our own investigations describe structure, synthesis and participati... more Review of the literature and our own investigations describe structure, synthesis and participation in biomineralisation of bone of synthetic bone scaffold tricalcium phosphate with original surface.
The development and studies of calcium phosphate cements (CPCs) for medical purposes aimed for re... more The development and studies of calcium phosphate cements (CPCs) for medical purposes aimed for replacing damaged bone tissue have been developed since the 1980s [1–3]. These materials should possess a set of properties such as biocompatibility, osteocon� ductivity, and the biodegradation rate coordinated with the processes of osteogenesis. The merits of these materials include, first, their ability to fill defects
Abstract Despite having a long history of bone-grafting materials for a treatment of patients, sk... more Abstract Despite having a long history of bone-grafting materials for a treatment of patients, skeletal bone pathology still remains a challenge, especially, in the case of critical bone defects. The urgency of the problem is emphasized by the high prevalence of diseases and pathological conditions in traumatology, orthopedics, oral and maxillofacial surgery that result in the formation of bone defects. The specific group of indications for bone-grafting materials in traumatology and orthopedics consists of degenerative diseases of spine and major joints and, in dental and maxillofacial surgery, the atrophy of the alveolar ridges of the upper and lower jaws. In the most recent research, efforts were aimed at creation of materials from biological precursors of apatite formation in humans. One possible precursor is octacalcium phosphate (OCP), which is believed not only to exhibit osteoconductivity, but possesses osteoinductive quality—the ability to induce bone formation. In this chapter we have been reported a recent achievement in the development of OCP base materials.
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