Journal
AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY
Volume 324, Issue 2, Pages C517-C531Publisher
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajpcell.00482.2022
Keywords
autograft; bone marrow; cell therapy; fracture; nonunion
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The use of autografts is the current gold standard approach for treating critical size bone defects and nonunion defects. Bone marrow mononuclear cells (BM-MNCs) from autografts provide an abundant and readily available cell source for bone healing, without the need for time-consuming and regulatory challenging cell expansion. However, the exact anatomy and cellularity of BM-MNCs in humans, as well as their limitations in isolation and characterization procedures, still require further research.
The use of autografts, as primary cell and tissue source, is the current gold standard approach to treat critical size bone defects and nonunion defects. The unique mixture of the autografts, containing bony compartments and bone marrow (BM), delivers promising results. Although BM mesenchymal stromal cells (BM-MSCs) still represent a major target for various healing approaches in current preclinical research and respective clinical trials, their occurrence in the human BM is typically low. In vitro expansion of this cell type is regulatory challenging as well as time and cost intensive. Compared with marginal percentages of resident BM-MSCs in BM, BM mononuclear cells (BM-MNCs) contained in BM aspirates, concentrates, and bone autografts represent a readily available abundant cell source, applicable within hours during surgical procedures without the need for time-consuming and regulatory challenging cell expansion. This benefit is one reason why autografting has become a clinical standard procedure. However, the exact anatomy and cellularity of BM-MNCs in humans, which is strongly correlated to their unique mode of action and wide application range remains to be elucidated. The aim of this review was to present an overview of the current knowledge on these specific cell types found in human BM, emphasize the contribution of BM-MNCs in bone healing, highlight donor site dependence, and discuss limitations in the current isolation and subsequent characterization procedures. Hereby, the most recent and relevant examples of human BM-MNC cell characterization, flow cytometric analyses, and findings are summarized, with a strong focus on bone therapy.
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