M. G. Vasiliev scite author profile

The technology for producing demineralized bone allografts (DBA) with definable degree of demineralization and sterilization by high energy electron bean was developed in the tissue bank of Central Institute of Traumatology and Orthopaedics (CITO). The authors consider the technology to be one of the ways of producing demineralized bones. The results of the experiments show that time of demineralization process as well as the absorption dose of radioactive high energy electron beam change substantially mechanical toughness and osteoinductive properties of DBA. Mechanical properties of DBA were tested by the universal testing machine 'Zwick 1464'. Quantitative assessment of DBA osteoinductive properties resulted from the investigation of DBA samples in the culture of stromal precursor bone marrow cells and in the culture of human skin fibroblasts. Cloning efficiency of fibroblasts was considered as indecies of proliferative potential of stromal bone marrow cells, i.e. osteogenic precursor cells. The growth of the cell mass after definite time as well as the index of 3H-timidin marked cells within biological inductor were considered as indecies of proliferative potential of skin fibroblasts. The obtained results showed, that inductive properties of allografts improve when the degree of their demineralization increases whereas the dose of high energy electron radiation decreases. Mechanical toughness of DBA deteriorates when both degree of their demineralization and radiation doses increase. This emphasizes the importance of optimizing technological stages in DBA producing. Since 1998 DBA have been used in Russian clinics for bone plasty in traumatology and orthopaedics, maxilla-facial surgery, ophthalmology, and neurosurgery. The resulting analysis is based on case histories of 257 patients operated from March 1998 to July 2002. The majority of patients were children and teenagers of 3-18 years old with prime tumors, tumor-like and systemic inherited diseases of skeleton, post-traumatic complications. Observation periods were from 1.5 to 5 years and 10 months. Good and satisfactory results were obtained in 93.4% cases.

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The first experience of using the biocomposite material "Osteomatrix" in the clinic of bone pathology

Lekshivili

Balberkin

Vasiliev

et al. 2022

N.N. Priorov Journal of Traumatology and Orthopedics

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At CITO Clinic of bone pathology new biocomposite material Osteomatrix was used in 15 patients (mainly with tumors and tumor-like diseases) for the plasty of post-resection bone defects. Osteomatrix is composed of bone collagen, hydroxyapatite and sulfated glycosaminoglycanes. Osteomatrix is produced at CITO together with Conectbiopharm Ltd. in the form of granules and blocks. Observation in dynamics with roentgenologic control showed good tolerance of Osteomatrix by patients and distinct accelerated bone regeneration in the zone of bone plasty.

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Radiation sterilization of demineralized bone grafts in the light of hepatitis B and C infection prevention

Lekishvili

Isaev

Ponomarev³

et al. 2022

N.N. Priorov Journal of Traumatology and Orthopedics

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Donor compact bone specimens infected by В, C hepatitis were exposed to the influence of fast electron flow in increasing doses (from 15 to 50 kGy) for the detection of minimum dose of radiation sterilization. The study of specimens on HBV and HCV markers showed that 50 and 36 kGy were close to minimum doses required for the inactivation of antigen structures of В, C hepatitis, respectively. The danger of virus hepatitis transmission by demineralized bone grafts is present if conventional normative doses of radiation sterilization (up to 35 kGy) are applied. Taking into account the side effect of radiation sterilization on the microstructure of bone grafts it is necessary to continue the search of methods for the preservation of plastic (conductive and inductive) bone properties during sterilization by fast electron flow in 50 kGy dose.

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M. G. Vasiliev

Alloplasty in Conjunction With Metalloosteosynthesis for Bone Defects Replacement in Paediatrics of Tumour-Like Pathologies of the Skeleton

Experimental and clinical study of the demineralized bone allografts manufactured in the tissue bank of CITO

The first experience of using the biocomposite material "Osteomatrix" in the clinic of bone pathology

Radiation sterilization of demineralized bone grafts in the light of hepatitis B and C infection prevention

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