Journal Article10.1615/CRITREVEUKARGENEEXPR.V10.I3-4.40
Osteopoiesis: The Early Development of Bone Cells
Sujata Kale,Michael W. Long +1 more
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TL;DR: This review focuses on the current understanding of bone progenitor cell development, examining the various types of precursor cells, their responses to cytokines and other extracellular influences, and recent observations on the biochemical and molecular control of lineage-specific gene expression.
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Abstract: An understanding of the disorders of bone formation clearly requires insights into the complex regulatory events occurring during the evolution of bone precursor cells into osteoblasts. Moreover, a rational approach to therapeutic interventions that might alter the clinical course of bone disorders must take into consideration the exact nature of the developmental control mechanism(s) being affected during the disease process. The process of osteopoiesis involves the proliferation and maturation of primitive precursor cells into functional osteoblasts. The bone cell lineage originates from mesenchymal stem cells that commit to the osteogenic cell lineage becoming osteoprogenitor cells, preosteoblasts, osteoblasts, and osteocytes. In order to understand how different regulatory signals coordinate bone cell development, it is important to study the responses of bone progenitor cells to different microenviromental signals. This requires that lineage markers be identified for the various populations of bone cells and their precursors, that cell separation techniques be established so that cells of the osteogenic lineage can be purified at different stages of differentiation, and that these isolated cells are studied under serum-free, chemically defined conditions. This review focuses on the current understanding of bone progenitor cell development, examining the various types of precursor cells, their responses to cytokines and other extracellular influences, and recent observations on the biochemical and molecular control of lineage-specific gene expression. Although the emphasis is on human cells, the importance of work using rodent cells goes without saying, and is addressed where relevant.
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Citations
Indications on suitable scaffold as carrier of stem cells in the alveoloplasty of cleft palate
Corrado Paganelli,P. Fontana,Fulvio Porta,Alessandra Majorana,U. E. Pazzaglia,Pierluigi Sapelli +5 more
TL;DR: The aim was to use osteoblasts from stem cells to close the residual palate cleft in association with a suitable carrier and Spongostan scaffold has the best characteristics as commercial availability, low cost, good manageability, absence of allergic reactions or other side effects on patient.
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Use of Bone Marrow Aspirate Concentrate (BMAC) Associated with Hyperbaric Oxygenation Therapy in Maxillary Appositional Bone Reconstruction. A Randomized Clinical Trial
Antonio Carlos Aloise,Paulo José Pasquali,Marcelo Sperandio,Luís Guilherme Scavone de Macedo,Marcelo Teixeira,André Antonio Pelegrine,José Luis Calvo-Guirado +6 more
TL;DR: The use of bone block xenograft associated with BMAC resulted in a significant increase of bone neoformation when compared to the Xenograft alone, though hyperbaric oxygenation did not enhance the results.
The Acropora family coral skeleton as a material for bone tissue defect replacement in patients with benign bone tumors (an experimental and clinical study)
V. V. Teplyakov,I. V. Myslivtsev,A. V. Bukharov,N. S. Sergeeva,G. A. Frank,I. K. Sviridova,V. A. Karpenko,S. A. Akhmedova,E. B. Akhmerova,N. S. Sergeyeva,V. Yu. Karpenko,V. A. Kirsanova +11 more
TL;DR: Signs of bone tissue restoration with implanted coral resorption with implanted coral resorption in the study group patients are suggestive of the rather high rate of NC resorption, which is similar to that of bone tissue restoration.