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Left Ventricular Wall Reconstruction with Autologous Vascularized Tunica Muscularis of Stomach in a Porcine Pilot Model

Schilling, Tobias ; Meyer, Tanja ; Brandes, Gudrun ; [et al.]

S. Karger AG ; 2023

In: European Surgical Research Vol. 64, No. 2 ( 2023), p. 177-184

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In: European Surgical Research, S. Karger AG, Vol. 64, No. 2 ( 2023), p. 177-184

Abstract: 〈 b 〉 〈 i 〉 Introduction: 〈 /i 〉 〈 /b 〉 Surgical replacement of dysfunctional cardiac muscle with regenerative tissue is an important option to combat heart failure. But, current available myocardial prostheses like a Dacron or a pericardium patch neither have a regenerative capacity nor do they actively contribute to the heart’s pump function. This study aimed to show the feasibility of utilizing a vascularized stomach patch for transmural left ventricular wall reconstruction. 〈 b 〉 〈 i 〉 Methods: 〈 /i 〉 〈 /b 〉 A left ventricular transmural myocardial defect was reconstructed by performing transdiaphragmatic autologous transplantation of a vascularized stomach segment in six Lewe minipigs. Three further animals received a conventional Dacron patch as a control treatment. The first 3 animals were followed up for 3 months until planned euthanasia, whereas the observation period for the remaining 3 animals was scheduled 6 months following surgery. Functional assessment of the grafts was carried out via cardiac magnetic resonance tomography and angiography. Physiological remodeling was evaluated histologically and immunohistochemically after heart explantation. 〈 b 〉 〈 i 〉 Results: 〈 /i 〉 〈 /b 〉 Five out of six test animals and all control animals survived the complex surgery and completed the follow-up without clinical complications. One animal died intraoperatively due to excessive bleeding. No animal experienced rupture of the stomach graft. Functional integration of the heterotopically transplanted stomach into the surrounding myocardium was observed. Angiography showed development of connections between the gastric graft vasculature and the coronary system of the host cardiac tissue. 〈 b 〉 〈 i 〉 Conclusions: 〈 /i 〉 〈 /b 〉 The clinical results and the observed physiological integration of gastric grafts into the cardiac structure demonstrate the feasibility of vascularized stomach tissue as myocardial prosthesis. The physiological remodeling indicates a regenerative potential of the graft. Above all, the connection of the gastric vessels with the coronary system constitutes a rationale for the use of vascularized and, therefore, viable stomach tissue for versatile tissue engineering applications.

Type of Medium: Online Resource

ISSN: 0014-312X , 1421-9921

URL: Article

DOI: 10.1159/000522478

Language: English

Publisher: S. Karger AG

Publication Date: 2023

detail.hit.zdb_id: 1468505-X

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Tissue Engineering of Vein Valves Based on Decellularized Natural Matrices

Mogaldea, Alexandru ; Goecke, Tobias ; Theodoridis, Karolina ; [et al.]

S. Karger AG ; 2017

In: Cells Tissues Organs Vol. 204, No. 3-4 ( 2017), p. 199-209

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In: Cells Tissues Organs, S. Karger AG, Vol. 204, No. 3-4 ( 2017), p. 199-209

Abstract: Valvular repair or transplantation, designed to restore the venous valve function of the legs, has been proposed as treatment in chronic venous insufficiency. Available grafts or surgeries have provided limited durability so far. Generating venous valve substitutes by means of tissue engineering could be a solution. We generated decellularized jugular ovine vein conduits containing valves (oVVC) after reseeding with ovine endothelial cells differentiated from peripheral blood-derived endothelial cells (oPBEC), cultivated in vitro corresponding to the circulatory situation in the lower leg at rest and under exertion 〈 i 〉 . 〈 /i 〉 oVVC were decellularized by detergent treatment. GFP-labeled oPBEC were seeded onto the luminal side of the decellularized oVVC and cultivated under static-rotational conditions for 6 h (group I) and 12 h (group II), respectively. Reseeded matrices of group I were exposed to continuous low flow conditions (“leg at rest”). The tissues of group II were exposed to a gradually increasing flow (“leg under effort”). After 5 days, the grafts of group I revealed a uniform luminal endothelial cell coverage of the examined areas of the venous walls and adjacent venous valve leaflets. In group II, the cell coverage on luminal areas of the venous wall parts was found to be nearly complete. The endothelial cell coverage of adjacent venous valve leaflets was revealed to be less dense and confluent. Endothelial cells cultured on acellular vein tissues of both groups were distinctly orientated uniformly in the flow direction, clearly creating a stable and flow-orientated layer. Thus, an endothelium could successfully be reestablished on the luminal surface of a decellularized venous valve by seeding peripheral blood endothelial cells and culturing under different conditions.

Type of Medium: Online Resource

ISSN: 1422-6405 , 1422-6421

URL: Article

DOI: 10.1159/000477776

Language: English

Publisher: S. Karger AG

Publication Date: 2017

detail.hit.zdb_id: 1481840-1

SSG: 12

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