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Autonomously vascularized cellular constructs in tissue engineering: opening a new perspective for biomedical science.

Polykandriotis E, Arkudas A, Horch RE, Stürzl M, Kneser U - J. Cell. Mol. Med. (2007 Jan-Feb)

Bottom Line: The cell itself is situated at the cross-roads leading to different orders of scale, from molecule to organism and different levels of function, from biochemistry to macrophysiology.Extensive in vitro investigations have dissected a vast amount of cellular phenomena and the role of a number of bioactive substances has been elucidated in the past.Further, recombinant DNA technologies allow modulation of the expression profiles of virtually all kinds of cells.

View Article: PubMed Central - PubMed

Affiliation: Department of Plastic and Hand Surgery, University of Erlangen Medical Center, Erlangen, Germany.

ABSTRACT
In tissue engineering cell cultures play a crucial role besides the matrix materials for the end of substituting lost tissue functions. The cell itself is situated at the cross-roads leading to different orders of scale, from molecule to organism and different levels of function, from biochemistry to macrophysiology. Extensive in vitro investigations have dissected a vast amount of cellular phenomena and the role of a number of bioactive substances has been elucidated in the past. Further, recombinant DNA technologies allow modulation of the expression profiles of virtually all kinds of cells. However, issues of vascularization in vivo limit transferability of these observations and restrict upscaling into clinical applications. Novel in vivo models of vascularization have evolved inspired from reconstructive microsurgical concepts and they encompass axial neovascularization by means of vascular induction. This work represents a brief description of latest developments and potential applications of neovascularization and angiogenesis in tissue engineering.

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Related in: MedlinePlus

The process of neovascularization as induced by the AV loop.
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fig10: The process of neovascularization as induced by the AV loop.

Mentions: Long-term studies have shown that although initial shunting has the form of an arteriovenous fistula, as affected by the venous graft, arteriovenous exchange after 6 weeks is partially taken over by the newly formed vascular network. The pattern of blood flow within the construct resembles that of an organoid with afferent artery, an efferent vein and a well vascularized parenchyma in between (Fig. 10).


Autonomously vascularized cellular constructs in tissue engineering: opening a new perspective for biomedical science.

Polykandriotis E, Arkudas A, Horch RE, Stürzl M, Kneser U - J. Cell. Mol. Med. (2007 Jan-Feb)

The process of neovascularization as induced by the AV loop.
© Copyright Policy
Related In: Results  -  Collection

Show All Figures
getmorefigures.php?uid=PMC4401217&req=5

fig10: The process of neovascularization as induced by the AV loop.
Mentions: Long-term studies have shown that although initial shunting has the form of an arteriovenous fistula, as affected by the venous graft, arteriovenous exchange after 6 weeks is partially taken over by the newly formed vascular network. The pattern of blood flow within the construct resembles that of an organoid with afferent artery, an efferent vein and a well vascularized parenchyma in between (Fig. 10).

Bottom Line: The cell itself is situated at the cross-roads leading to different orders of scale, from molecule to organism and different levels of function, from biochemistry to macrophysiology.Extensive in vitro investigations have dissected a vast amount of cellular phenomena and the role of a number of bioactive substances has been elucidated in the past.Further, recombinant DNA technologies allow modulation of the expression profiles of virtually all kinds of cells.

View Article: PubMed Central - PubMed

Affiliation: Department of Plastic and Hand Surgery, University of Erlangen Medical Center, Erlangen, Germany.

ABSTRACT
In tissue engineering cell cultures play a crucial role besides the matrix materials for the end of substituting lost tissue functions. The cell itself is situated at the cross-roads leading to different orders of scale, from molecule to organism and different levels of function, from biochemistry to macrophysiology. Extensive in vitro investigations have dissected a vast amount of cellular phenomena and the role of a number of bioactive substances has been elucidated in the past. Further, recombinant DNA technologies allow modulation of the expression profiles of virtually all kinds of cells. However, issues of vascularization in vivo limit transferability of these observations and restrict upscaling into clinical applications. Novel in vivo models of vascularization have evolved inspired from reconstructive microsurgical concepts and they encompass axial neovascularization by means of vascular induction. This work represents a brief description of latest developments and potential applications of neovascularization and angiogenesis in tissue engineering.

Show MeSH
Related in: MedlinePlus