Allogeneic osteoplastic materials for reconstructive surgery of combat injuries

Хоминец, В. В.; Vorobev, Konstantin A.; Sokolova, Margarita O.; Ivanova, Anastasia K.; Komarov, Artem V.

doi:10.17816/rmmar109090

Cited by 7 publications

(1 citation statement)

References 12 publications

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“…Such construct design is able to fully imitate autogenous bone tissue in the required volume [7]. Currently, according to literature data, the most suitable in terms of its properties as the basis (or matrix) for such constructs is bone allograft [3,8,9]. Nevertheless, allogeneic bone cannot unleash the stimulation of the osteogenesis processes [3].…”

Section: Introductionmentioning

confidence: 99%

Bone defect management with tissue-engineered constructs based on deproteinized cancellous bone: an experimental study

Anastasieva,

Cherdantseva,

Tolstikova

et al. 2023

jour

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Background Management of bone defects with autologous bone grafting has always been the "gold standard" but it is not always possible to use it for a number of reasons. Preprocessed materials of biological and non-biological origin were developed as an alternative. A new branch of these materials is tissue-engineered constructs that fully imitate autologous bone in required volume.Aim is to study in vivo the possibility of using deproteinized human cancellous bone tissue as a matrix for creating tissue-engineered constructs.Methods The study was carried out on 24 NZW line rabbits, since this line has a fully characterized stromal-vascular fraction formula (SVF). The study design included 3 groups. First group (control) had surgical modeling of bone defects in the diaphysis of the contralateral femur without reconstruction; Group 2 had bone defect reconstruction using fragments of a deproteinized cancellous bone graft; group 3 underwent bone defect reconstruction using fragments of deproteinized cancellous bone matrix along with the autologous adipose tissue SVF (obtained according to ACP SVF technology). Animals were sacrificed with ether anesthesia at 2, 4 and 6 weeks after the operation and subsequent histological study followed.Result During all periods of the study, the newly formed bone tissue volume density in the 3rd group (reconstruction with deproteinized human cancellous bone + stromal-vascular fraction) was 1.78 times higher (p < 0.001) than in the first group (bone defect without reconstruction), 1.21 times higher (p < 0.001) than in the 2nd group (reconstruction with deproteinized cancellous bone alone). The dynamics of changes in the mature bone tissue volume density was similar to those of the newly formed bone tissue.Discussion The comparative analysis of reparative processes using a tissue engeneered construst based on deproteinized cancellous human bone with adipose tissue stromal vascular fraction revealed that the use of these bone substitute materials contributes not only to the early activation of reparative regeneration of the main structural elements of bone tissue at the site of bone defect, but also their timely differentiation.Conclusion The use of deproteinized cancellous bone matrix combined with stromal-vascular fraction to create a tissue-engineered construct could unleash several regeneration mechanisms and accelerate the process of bone defect site repair, compared with 1st and 2nd group of study.

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Section: Introductionmentioning

confidence: 99%

Bone defect management with tissue-engineered constructs based on deproteinized cancellous bone: an experimental study

Anastasieva,

Cherdantseva,

Tolstikova

et al. 2023

jour

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Terminology and conceptual apparatus of tissue donation and tissue banking: interdisciplinary expert consensus (Part 1)

Kirilova,

Aleynik,

Basankin

et al. 2023

Hir. pozvonoč.

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An interdisciplinary consensus of experts has been formed in the area of medical activity such as tissue banking. An analysis and attempt was made to systematize some of the terms and definitions used by tissue bank specialists in the process of their work and presented in the Federal laws and orders of the Ministry of Health of the Russian Federation regulating medical activities in the field of tissue donation and their clinical use.

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Terminology and conceptual apparatus of tissue donation and tissue banking: interdisciplinary expert consensus (Part 2)

Kirilova,

Aleynik,

Basankin

et al. 2024

Hir. pozvonoč.

Self Cite

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The second part of an interdisciplinary expert consensus on tissue banking is presented. An analysis and attempt was made to systematize some of the terms and definitions used by tissue bank specialists in the process of their work and presented in the Federal laws and orders of the Ministry of Health of the Russian Federation regulating medical activities in the field of tissue donation and their clinical use.

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Allogeneic osteoplastic materials for reconstructive surgery of combat injuries

Cited by 7 publications

References 12 publications

Bone defect management with tissue-engineered constructs based on deproteinized cancellous bone: an experimental study

Bone defect management with tissue-engineered constructs based on deproteinized cancellous bone: an experimental study

Terminology and conceptual apparatus of tissue donation and tissue banking: interdisciplinary expert consensus (Part 1)

Terminology and conceptual apparatus of tissue donation and tissue banking: interdisciplinary expert consensus (Part 2)

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