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Literature DB >> 25263520

Bringing new life to damaged bone: the importance of angiogenesis in bone repair and regeneration.

Steve Stegen¹, Nick van Gastel¹, Geert Carmeliet².

Abstract

Bone has the unique capacity to heal without the formation of a fibrous scar, likely because several of the cellular and molecular processes governing bone healing recapitulate the events during skeletal development. A critical component in bone healing is the timely appearance of blood vessels in the fracture callus. Angiogenesis, the formation of new blood vessels from pre-existing ones, is stimulated after fracture by the local production of numerous angiogenic growth factors. The fracture vasculature not only supplies oxygen and nutrients, but also stem cells able to differentiate into osteoblasts and in a later phase also the ions necessary for mineralization. This review provides a concise report of the regulation of angiogenesis by bone cells, its importance during bone healing and its possible therapeutic applications in bone tissue engineering. This article is part of a Special Issue entitled "Stem Cells and Bone".

Entities: Chemical Disease

Keywords: Angiogenesis; Bone healing; Fracture; Hypoxia; Tissue engineering; VEGF

Mesh：

Substances：
Oxygen

Year: 2014 PMID： 25263520 DOI： 10.1016/j.bone.2014.09.017

Source DB: PubMed Journal: Bone ISSN： 1873-2763 Impact factor: 4.398

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Cited

87 in total

1. HIF-1α Promotes Glutamine-Mediated Redox Homeostasis and Glycogen-Dependent Bioenergetics to Support Postimplantation Bone Cell Survival.

Authors: Steve Stegen; Nick van Gastel; Guy Eelen; Bart Ghesquière; Flora D'Anna; Bernard Thienpont; Jermaine Goveia; Sophie Torrekens; Riet Van Looveren; Frank P Luyten; Patrick H Maxwell; Ben Wielockx; Diether Lambrechts; Sarah-Maria Fendt; Peter Carmeliet; Geert Carmeliet
Journal: Cell Metab Date: 2016-02-09 Impact factor: 27.287

Bringing new life to damaged bone: the importance of angiogenesis in bone repair and regeneration.

1. HIF-1α Promotes Glutamine-Mediated Redox Homeostasis and Glycogen-Dependent Bioenergetics to Support Postimplantation Bone Cell Survival.

Review 2. Stem cell-derived exosomes: A promising strategy for fracture healing.

Review 3. The Use of Adipose Tissue-Derived Progenitors in Bone Tissue Engineering - a Review.

4. Co-culture cell-derived extracellular matrix loaded electrospun microfibrous scaffolds for bone tissue engineering.

5. Osteoblast-derived paracrine factors regulate angiogenesis in response to mechanical stimulation.

6. Biocompatibility of polyetheretherketone for the treatment of orbital bone defects.

7. Vascularization in tissue engineering: fundamentals and state-of-art.

Review 8. Progress of Regenerative Therapy in Orthopedics.

9. Tethering peptides onto biomimetic and injectable nanofiber microspheres to direct cellular response.

10. Injectable mineralized microsphere-loaded composite hydrogels for bone repair in a sheep bone defect model.