Improving vascularization of engineered bone through the generation of pro-angiogenic effects in co-culture systems

Ronald E. Unger, Eva Dohle, C. James Kirkpatrick

Research output: Contribution to journalReview articlepeer-review

95 Scopus citations

Abstract

One of the major problems with bone tissue engineering is the development of a rapid vascularization after implantation to supply the growing osteoblast cells with the nutrients to grow and survive as well as to remove waste products. It has been demonstrated that capillary-like structures produced in vitro will anastomose rapidly after implantation and become functioning blood vessels. For this reason, in recent years many studies have examined a variety of human osteoblast and endothelial cell co-culture systems in order to distribute osteoblasts on all parts of the bone scaffold and at the same time provide conditions for the endothelial cells to migrate to form a network of capillary-like structures throughout the osteoblast-colonized scaffold. The movement and proliferation of endothelial cells to form capillary-like structures is known as angiogenesis and is dependent on a variety of pro-angiogenic factors. This review summarizes human 2- and 3-D co-culture models to date, the types and origins of cells used in the co-cultures and the proangiogenic factors that have been identified in the co-culture models.

Original languageEnglish
Pages (from-to)116-125
Number of pages10
JournalAdvanced Drug Delivery Reviews
Volume94
DOIs
StatePublished - 1 Nov 2015
Externally publishedYes

Bibliographical note

Publisher Copyright:
© 2015 Elsevier B.V.

Funding

Parts of this research was generously supported by the BMBF (German Federal Ministry of Education and Research), Grant no. 0315771B AnCaBoR, Grant no. 0315689C IK-TE and the DFG (German Research Foundation) Grant no. KI 601/9-2 .

FundersFunder number
Deutsche ForschungsgemeinschaftKI 601/9-2
Bundesministerium für Bildung und Forschung0315771B AnCaBoR, 0315689C IK-TE

    Keywords

    • Angiogenesis
    • Bone tissue engineering
    • Co-cultures
    • Endothelial cells
    • Osteoblasts
    • Pro-angiogenic factors
    • Vascularization

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