TY - JOUR
T1 - Use of the abdominal rectus fascia as a nonvascularized allograft for abdominal wall closure after liver, intestinal, and multivisceral transplantation
AU - Gondolesi, Gabriel
AU - Selvaggi, Gennaro
AU - Tzakis, Andreas
AU - Rodríguez-Laiz, Gonzalo
AU - González-Campaña, Ariel
AU - Fauda, Martín
AU - Angelis, Michael
AU - Levi, David
AU - Nishida, Seigo
AU - Iyer, Kishore
AU - Sauter, Bernhard
AU - Podesta, Luis
AU - Kato, Tomoaki
PY - 2009/6/27
Y1 - 2009/6/27
N2 - INTRODUCTION.: Abdominal wall closure management has become an important challenge during recipient candidate selection, at the time of donor to recipient matching and during the planning of the surgical procedure for intestinal or multiorgan transplantation. Different strategies have been proposed to overcome the lack of abdominal domain: to reduce the graft size or to increase the abdominal domain. Based on the recent concept of using an acellular dermis matrix (Alloderm) and the availability of abdominal wall tissues from the same organ donor, we conceived the idea of using the fascia of the rectus muscle (FoRM) as a nonvascularized tissue allograft. MATERIALS AND METHODS.: This is a retrospective report of a series of 16 recipients of FoRM as part of a liver, intestinal, or multiorgan transplant procedure performed between October 2004 and May 2008 at three different transplant centers. RESULTS.: Of the 16 recipients of FoRM, all but one case was performed during their transplantation (four multivisceral, two modified multivisceral, three isolated intestine, and two livers). Five patients underwent a retransplant surgery (two livers, two multivisceral, and one isolated intestine). Abdominal wall infection was present in 7 of 16 cases. Nine patients are still alive. No deaths were related to wound infection. Long-term survival showed complete wound healing and only one ventral hernia. DISCUSSION.: The use of a nonvascularized FoRM is a novel and simple surgical option to resolve complex abdominal wall defects in liver/intestinal/multivisceral transplant recipients when it can be covered with the recipient skin.
AB - INTRODUCTION.: Abdominal wall closure management has become an important challenge during recipient candidate selection, at the time of donor to recipient matching and during the planning of the surgical procedure for intestinal or multiorgan transplantation. Different strategies have been proposed to overcome the lack of abdominal domain: to reduce the graft size or to increase the abdominal domain. Based on the recent concept of using an acellular dermis matrix (Alloderm) and the availability of abdominal wall tissues from the same organ donor, we conceived the idea of using the fascia of the rectus muscle (FoRM) as a nonvascularized tissue allograft. MATERIALS AND METHODS.: This is a retrospective report of a series of 16 recipients of FoRM as part of a liver, intestinal, or multiorgan transplant procedure performed between October 2004 and May 2008 at three different transplant centers. RESULTS.: Of the 16 recipients of FoRM, all but one case was performed during their transplantation (four multivisceral, two modified multivisceral, three isolated intestine, and two livers). Five patients underwent a retransplant surgery (two livers, two multivisceral, and one isolated intestine). Abdominal wall infection was present in 7 of 16 cases. Nine patients are still alive. No deaths were related to wound infection. Long-term survival showed complete wound healing and only one ventral hernia. DISCUSSION.: The use of a nonvascularized FoRM is a novel and simple surgical option to resolve complex abdominal wall defects in liver/intestinal/multivisceral transplant recipients when it can be covered with the recipient skin.
KW - Abdominal wall
KW - Allograft
KW - Intestine
KW - Transplantation
UR - http://www.scopus.com/inward/record.url?scp=67649574141&partnerID=8YFLogxK
U2 - 10.1097/TP.0b013e3181a7697a
DO - 10.1097/TP.0b013e3181a7697a
M3 - Article
C2 - 19543069
AN - SCOPUS:67649574141
SN - 0041-1337
VL - 87
SP - 1884
EP - 1888
JO - Transplantation
JF - Transplantation
IS - 12
ER -