TY - JOUR
T1 - Venovenous perfusion-induced systemic hyperthermia
T2 - Hemodynamics, blood flow, and thermal gradients
AU - Vertrees, Roger A.
AU - Bidani, Akhil
AU - Deyo, Donald J.
AU - Tao, Weike
AU - Zwischenberger, Joseph B.
N1 - Funding Information:
We thank Eileen Figueroa and Karen Martin and Steve Schuenke for the preparation of this manuscript. This research was funded in part by the American Society of Extracorporeal Technology Grant 1995.
PY - 2000
Y1 - 2000
N2 - Background. Thermal events during extracorporeal venovenous perfusion-induced systemic hyperthermia (VV-PISH) were studied and related to determination of whole-body and regional thermal isoeffect doses. Methods. Swine (n = 6, 77 ± 4.5 kg) were heated to a target temperature of 43°C for 120 minutes using VV-PISH. Colored microspheres were injected during pre-heat, heat induction, maintenance, cool down, and after decannulation. The esophageal, tympanic, rectal, pulmonary artery, bladder, bone marrow, kidney, brain, blood, lung, and airway temperatures were recorded continuously. The thermal dose, thermal exchange, metabolic heat production, heat loss to the environment, the change in body heat, and the thermal isoeffect dose were studied at 15-minute intervals. Results. VV-PISH increased heart rate and cardiac output and caused a redistribution of blood flow favoring the thoracoabdominal organs. Greatest thermal exchange occurred during the heating phase (total 2,162 ± 143 kJ), metabolic heat production contributed in all phases (274 ± 9 kJ), the greatest change in body heat occurred during heating (1,310 ± 309 kJ) with a total delivered thermal dose of 298 ± 21 kJ, and the total whole body thermal isoeffect dose at 100 ± 5 minutes. Conclusions. VV-PISH is feasible, is capable of transferring sufficient heat, causes a redistribution of blood flow favoring the thoracoabdominal organs, and facilitates calculation of whole-body and regional thermal isoeffect doses. (C) 2000 by The Society of Thoracic Surgeons.
AB - Background. Thermal events during extracorporeal venovenous perfusion-induced systemic hyperthermia (VV-PISH) were studied and related to determination of whole-body and regional thermal isoeffect doses. Methods. Swine (n = 6, 77 ± 4.5 kg) were heated to a target temperature of 43°C for 120 minutes using VV-PISH. Colored microspheres were injected during pre-heat, heat induction, maintenance, cool down, and after decannulation. The esophageal, tympanic, rectal, pulmonary artery, bladder, bone marrow, kidney, brain, blood, lung, and airway temperatures were recorded continuously. The thermal dose, thermal exchange, metabolic heat production, heat loss to the environment, the change in body heat, and the thermal isoeffect dose were studied at 15-minute intervals. Results. VV-PISH increased heart rate and cardiac output and caused a redistribution of blood flow favoring the thoracoabdominal organs. Greatest thermal exchange occurred during the heating phase (total 2,162 ± 143 kJ), metabolic heat production contributed in all phases (274 ± 9 kJ), the greatest change in body heat occurred during heating (1,310 ± 309 kJ) with a total delivered thermal dose of 298 ± 21 kJ, and the total whole body thermal isoeffect dose at 100 ± 5 minutes. Conclusions. VV-PISH is feasible, is capable of transferring sufficient heat, causes a redistribution of blood flow favoring the thoracoabdominal organs, and facilitates calculation of whole-body and regional thermal isoeffect doses. (C) 2000 by The Society of Thoracic Surgeons.
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U2 - 10.1016/S0003-4975(00)01381-3
DO - 10.1016/S0003-4975(00)01381-3
M3 - Article
C2 - 10969694
AN - SCOPUS:0033845061
SN - 0003-4975
VL - 70
SP - 644
EP - 652
JO - Annals of Thoracic Surgery
JF - Annals of Thoracic Surgery
IS - 2
ER -