TY - JOUR
T1 - Mechanically Assisted Total Cavopulmonary Connection With an Axial Flow Pump
T2 - Computational and In Vivo Study
AU - Gandolfo, Fabrizio
AU - Brancaccio, Gianluca
AU - Donatiello, Salvatore
AU - Filippelli, Sergio
AU - Perri, Gianluigi
AU - Iannace, Enrico
AU - D'Amario, Domenico
AU - Testa, Giuseppina
AU - D'Avenio, Giuseppe
AU - Grigioni, Mauro
AU - Amodeo, Antonio
N1 - Publisher Copyright:
© 2016 Wiley Periodicals, Inc. and International Center for Artificial Organs and Transplantation.
PY - 2016/1/1
Y1 - 2016/1/1
N2 - A relevant number of patients undergoing total cavopulmonary connection (TCPC) experience heart failure (HF). Heart transplant is then the final option when all other treatments fail. The axial flow blood pumps are now the state of the art; however, there is little experience in low-pressure circuits, such as support of the right ventricle or even a TCPC circulation. A new T-shaped model of mechanically assisted TCPC using the "Jarvik Child 2000" axial pump, (flow rates between 1 and 3L/m in a range of 5000-9000rpm) was designed, simulated numerically, and then tested in animals. Eight sheep (42-45kg) were studied: two pilot studies, four pump-supported (PS) TCPC for 3h, and two not pump-supported (NPS) TCPC. In the PS, the axial pump was set to maintain the baseline cardiac output (CO). Pressures, CO, systemic and pulmonary vascular resistance, lactate levels, and blood gases were recorded for 3h. Computational fluid dynamics (CFD) study allows us to set the feasible operating condition and the safety margins to minimize the venous collapse risk. In the NPS animals, a circulatory deterioration, with increasing lactate level, occurred rapidly. In the PS animals, there was a stable cardiac index of 2.7±1.4L/min/m2, central venous pressure of 12.3±1mmHg, and a mean pulmonary artery pressure (PAP) of 18.1±6 after 3h of support up to 9000rpm. systemic vascular resistance (SVR), pulmonary vascular resistance (PVR), blood gasses, and arterial lactate levels remained stable to baseline values. No caval collapse occurred. A new pediatric axial flow pump provides normal CO and physiologic stability in a new T-shaped model of TCPC in sheep, in vivo. CFD and in vivo data showed that this experimental arrangement will allow us to evaluate the potential for mechanical support in patients with Fontan failure avoiding major adverse events.
AB - A relevant number of patients undergoing total cavopulmonary connection (TCPC) experience heart failure (HF). Heart transplant is then the final option when all other treatments fail. The axial flow blood pumps are now the state of the art; however, there is little experience in low-pressure circuits, such as support of the right ventricle or even a TCPC circulation. A new T-shaped model of mechanically assisted TCPC using the "Jarvik Child 2000" axial pump, (flow rates between 1 and 3L/m in a range of 5000-9000rpm) was designed, simulated numerically, and then tested in animals. Eight sheep (42-45kg) were studied: two pilot studies, four pump-supported (PS) TCPC for 3h, and two not pump-supported (NPS) TCPC. In the PS, the axial pump was set to maintain the baseline cardiac output (CO). Pressures, CO, systemic and pulmonary vascular resistance, lactate levels, and blood gases were recorded for 3h. Computational fluid dynamics (CFD) study allows us to set the feasible operating condition and the safety margins to minimize the venous collapse risk. In the NPS animals, a circulatory deterioration, with increasing lactate level, occurred rapidly. In the PS animals, there was a stable cardiac index of 2.7±1.4L/min/m2, central venous pressure of 12.3±1mmHg, and a mean pulmonary artery pressure (PAP) of 18.1±6 after 3h of support up to 9000rpm. systemic vascular resistance (SVR), pulmonary vascular resistance (PVR), blood gasses, and arterial lactate levels remained stable to baseline values. No caval collapse occurred. A new pediatric axial flow pump provides normal CO and physiologic stability in a new T-shaped model of TCPC in sheep, in vivo. CFD and in vivo data showed that this experimental arrangement will allow us to evaluate the potential for mechanical support in patients with Fontan failure avoiding major adverse events.
KW - Congenital
KW - Fontan failure
KW - Heart transplantation
KW - Mechanical assist device
UR - http://www.scopus.com/inward/record.url?scp=84956815339&partnerID=8YFLogxK
U2 - 10.1111/aor.12641
DO - 10.1111/aor.12641
M3 - Article
SN - 0160-564X
VL - 40
SP - 43
EP - 49
JO - Artificial Organs
JF - Artificial Organs
IS - 1
ER -