TY - JOUR
T1 - In vitro investigation of a novel elastic vascular prosthesis for valve-sparing aortic root and ascending aorta replacement
AU - Scharfschwerdt, Michael
AU - Leonhard, Moritz
AU - Lehmann, Judith
AU - Richardt, Doreen
AU - Goldmann, Helmut
AU - Sievers, Hans Hinrich
N1 - Publisher Copyright:
© The Author 2015.
Copyright:
Copyright 2017 Elsevier B.V., All rights reserved.
PY - 2016/5/1
Y1 - 2016/5/1
N2 - OBJECTIVES: Prosthetic replacement of the thoracic aorta with common Dacron prostheses impairs the aortic 'windkessel' and, in valvesparing procedures, also aortic valve function. Elastic graft material may overcome these deficiencies. METHODS: Fresh porcine aortas including the root were set up in a mock circulation before and after replacement of the ascending part with a novel vascular prosthesis providing elastic behaviours. In a first series (n = 14), haemodynamics and leaflet motions of the aortic valve were investigated and also cyclic changes of aortic dimensions at different levels of the root. In a second series (n = 7), intravascular pressure and dimensions of the proximal descending aorta were measured and the corresponding wall tension was calculated. RESULTS: Haemodynamics of the aortic valve remain comparable after replacement. Though the novel prosthesis does not feature such high distensibility as the native aorta, the dynamic of the root was significantly increased compared with common Dacron prostheses at the commissural level, preserving 'windkessel' function. Thus, wall tension of the residual aorta remained unchanged; nevertheless, maximum pressure-time differential dp/dt increased by 13%. CONCLUSIONS: The use of the novel elastic prosthesis for replacement of the ascending aorta seems to be beneficial, especially with regard to the preservation of the aortic windkessel. Further studies will be needed to clarify long-term utilization of the material in vivo.
AB - OBJECTIVES: Prosthetic replacement of the thoracic aorta with common Dacron prostheses impairs the aortic 'windkessel' and, in valvesparing procedures, also aortic valve function. Elastic graft material may overcome these deficiencies. METHODS: Fresh porcine aortas including the root were set up in a mock circulation before and after replacement of the ascending part with a novel vascular prosthesis providing elastic behaviours. In a first series (n = 14), haemodynamics and leaflet motions of the aortic valve were investigated and also cyclic changes of aortic dimensions at different levels of the root. In a second series (n = 7), intravascular pressure and dimensions of the proximal descending aorta were measured and the corresponding wall tension was calculated. RESULTS: Haemodynamics of the aortic valve remain comparable after replacement. Though the novel prosthesis does not feature such high distensibility as the native aorta, the dynamic of the root was significantly increased compared with common Dacron prostheses at the commissural level, preserving 'windkessel' function. Thus, wall tension of the residual aorta remained unchanged; nevertheless, maximum pressure-time differential dp/dt increased by 13%. CONCLUSIONS: The use of the novel elastic prosthesis for replacement of the ascending aorta seems to be beneficial, especially with regard to the preservation of the aortic windkessel. Further studies will be needed to clarify long-term utilization of the material in vivo.
UR - http://www.scopus.com/inward/record.url?scp=84965157352&partnerID=8YFLogxK
U2 - 10.1093/ejcts/ezv402
DO - 10.1093/ejcts/ezv402
M3 - Journal articles
C2 - 26604297
AN - SCOPUS:84965157352
SN - 1010-7940
VL - 49
SP - 1370
EP - 1373
JO - European Journal of Cardio-thoracic Surgery
JF - European Journal of Cardio-thoracic Surgery
IS - 5
M1 - ezv402
ER -