Wharton's Jelly-Mesenchymal Stem Cell-Engineered Conduit for Pulmonary Artery Reconstruction in Growing Piglets.

Rapetto, Filippo; Iacobazzi, Dominga; Narayan, Srinivas A; Skeffington, Katie; Salih, Tasneem; Mostafa, Shahd; Alvino, Valeria V; Upex, Adrian; Madeddu, Paolo; Ghorbel, Mohamed T; Caputo, Massimo

Rapetto, Filippo; Iacobazzi, Dominga; Narayan, Srinivas A; Skeffington, Katie; Salih, Tasneem; Mostafa, Shahd; Alvino, Valeria V; Upex, Adrian; Madeddu, Paolo; Ghorbel, Mohamed T; Caputo, Massimo.

Rapetto F; Department of Cardiac Surgery, Bristol Royal Hospital for Children, Bristol, United Kingdom.
Iacobazzi D; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.
Narayan SA; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.
Skeffington K; Department of Paediatric Cardiology, Bristol Royal Hospital for Children, Bristol, United Kingdom.
Salih T; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.
Mostafa S; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.
Alvino VV; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.
Upex A; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.
Madeddu P; Department of Anaesthesia, Bristol Royal Hospital for Children, Bristol, United Kingdom.
Ghorbel MT; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.
Caputo M; Translational Health Sciences, University of Bristol, Bristol, United Kingdom.

JACC Basic Transl Sci ; 7(3): 207-219, 2022 Mar.

Article en En | MEDLINE | ID: mdl-35411313

RESUMEN

Surgical treatment of congenital heart defects affecting the right ventricular outflow tract often requires complex reconstruction and multiple reoperations. With a randomized controlled trial, we compared a novel tissue-engineered small intestine submucosa-based graft for pulmonary artery reconstruction (seeded with mesenchymal stem cells derived from Wharton's Jelly) with conventional small intestine submucosa in growing piglets. Six months after implantation, seeded grafts showed integration with host tissues at cellular level and exhibited growth potential on transthoracic echocardiography and cardiovascular magnetic resonance. Our seeded graft is a promising biomaterial for pulmonary artery reconstruction in pediatric patients with right ventricular outflow tract abnormalities.

Palabras clave

CMR, cardiovascular magnetic resonance; FISH, fluorescent in situ hybridization; MPA, main pulmonary artery; RVOT, right ventricular outflow tract; SIS, small intestinal submucosa; SMA, smooth muscle actin; TTE, transthoracic echocardiography; WJ-MSC, Wharton's Jellymesenchymal stem cells; growing swine model; right ventricular outflow tract reconstruction; small intestinal submucosa; tissue engineering

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