The Arteriovenous (AV) Loop in a Small Animal Model to Study Angiogenesis and Vascularized Tissue Engineering

Weigand, Annika; Beier, Justus P.; Arkudas, Andreas; Al‐Abboodi, Majida; Polykandriotis, Elias; Horch, Raymund E.; Boos, Anja M.

doi:10.3791/54676

Cited by 25 publications

(36 citation statements)

References 59 publications

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“…Methods of tissue engineering and regenerative medicine [37][38][39][40][41][42][43][44][45][46][47][48][49][50][51] to circumvent the use of autologous tissue and their inherent donor site morbidity seem promising but are not clinically available for these problems yet. Although a considerable number of local or free flaps has been successfully described to surgically reconstruct these defects [7,[52][53][54][55][56][57][58] each individual case needs the optimal indication for the most suitable flap procedure.…”

Section: Discussionmentioning

confidence: 99%

When free flaps are not the first choice: is the distally based peroneus brevis still an option for foot and ankle reconstruction in the era of microsurgery?

Horch¹,

Ludolph²,

Schmitz³

et al. 2018

PAR

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Section: Discussionmentioning

confidence: 99%

When free flaps are not the first choice: is the distally based peroneus brevis still an option for foot and ankle reconstruction in the era of microsurgery?

Horch¹,

Ludolph²,

Schmitz³

et al. 2018

PAR

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“…An often mentioned disadvantage of this technique is the multiple surgeries required, as well as the possible necessity of reseeding prior to the final implantation due to tissue necrosis caused by nutrient and oxygen deprivation at the initial implantation site (Laschke et al, 2009). Nevertheless, these in vivo vascularization approaches are promising as there have already been examples of successful clinical application, such as augmenting the angiogenic response, implantation of a pre-existing artery into the tissue graft prior to graft implantation (Koepple, Kneser, & Schmidt, 2017), or prevascularization at a secondary site, for example, using the flap technique or the arteriovenous (AV) loop technique (Eweida et al, 2015;Kokemueller et al, 2010;Polykandriotis et al, 2007;Weigand et al, 2016).…”

Section: In Vivo Prevascularizationmentioning

confidence: 99%

“…This is due to the intrinsic properties of the prefabricated AV loop technique that does not require embedding of the tissue graft into the surrounding tissue. In contrast, the tissue construct is contained within a growth chamber that is placed around the AV loop, which is only connected to the host's vascular system (Eweida et al, 2015;Polykandriotis et al, 2007;Weigand et al, 2016). This growth chamber, usually made from polycarbonate, may be either empty or supplemented with ECM components.…”

Section: Prevascularization At a Secondary Implantation Sitementioning

confidence: 99%

Oxygen and nutrient delivery in tissue engineering: Approaches to graft vascularization

Rademakers

Horvath

Blitterswijk

et al. 2019

J Tissue Eng Regen Med

117

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The field of tissue engineering is making great strides in developing replacement tissue grafts for clinical use, marked by the rapid development of novel biomaterials, their improved integration with cells, better‐directed growth and differentiation of cells, and improved three‐dimensional tissue mass culturing. One major obstacle that remains, however, is the lack of graft vascularization, which in turn renders many grafts to fail upon clinical application. With that, graft vascularization has turned into one of the holy grails of tissue engineering, and for the majority of tissues, it will be imperative to achieve adequate vascularization if tissue graft implantation is to succeed. Many different approaches have been developed to induce or augment graft vascularization, both in vitro and in vivo. In this review, we highlight the importance of vascularization in tissue engineering and outline various approaches inspired by both biology and engineering to achieve and augment graft vascularization.

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“…Diese werden zur Ver vielfältigung meist im Labor kultiviert, um sie dann in den Emp fängerorganismus zu implantieren [6][7][8][9][10][11][12]. In vitro unter Laborbe dingungen und im Kleintiermodell [13] hat diese Methode teils erstaunliche Ergebnisse gezeigt [14][15][16]. U.a.…”

Section: Warum Biofabrikation Und Nicht Tissue Engineering?unclassified

Biofabrikation – neue Ansätze für den artifiziellen Gewebeersatz

Horch

Weigand

Wajant

et al. 2018

Handchir Mikrochir plast Chir

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This review details the evolution of the classical methods of TE in Regenerative Medicine into the evolving field of biofabrication by bioprinting. The advantages of 3D bioprinting over traditional tissue engineering techniques are based on the assembling of cells, biomaterials and biomolecules in a spatially controlled manner to reproduce native tissue macro-, micro- and nanoarchitectures, that can be utilized not only to potentially produce functional replacement tissues or organs but also to serve as new models for basic research. Mimicking the stromal microenvironment of tumor cells to study the process of tumor formation and progression, metastasis, angiogenesis and modulation of the associated processes is one of these applications under research. To this end a close collaboration of specialists from the fields of engineering, biomaterial science, cell biology and reconstructive microsurgery will be necessary to develop future strategies that can overcome current limitations of tissue generation.

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The Arteriovenous (AV) Loop in a Small Animal Model to Study Angiogenesis and Vascularized Tissue Engineering

Cited by 25 publications

References 59 publications

When free flaps are not the first choice: is the distally based peroneus brevis still an option for foot and ankle reconstruction in the era of microsurgery?

When free flaps are not the first choice: is the distally based peroneus brevis still an option for foot and ankle reconstruction in the era of microsurgery?

Oxygen and nutrient delivery in tissue engineering: Approaches to graft vascularization

Biofabrikation – neue Ansätze für den artifiziellen Gewebeersatz

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