Effect of ultrafiltration on thermal variables, skin temperature, skin blood flow, and energy expenditure during ultrapure hemodialysis

The cause of the increase in core temperature (CT) during hemodialysis (HD) is still under debate. It has been suggested that peripheral vasoconstriction as a result of hypovolemia, leading to a reduced dissipation of heat from the skin, is the main cause of this increase in CT. If so, then it would...

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Bibliographic Details
Published in:Journal of the American Society of Nephrology 2005-06, Vol.16 (6), p.1824-1831
Main Authors: VAN DER SANDE, Frank M, ROSALES, Laura M, LEVIN, Nathan W, BRENER, Zohar, KOOMAN, Jeroen P, KUHLMANN, Martin, HANDELMAN, Garry, GREENWOOD, Roger N, CARTER, Mary, SCHNEDITZ, Daniel, LEUNISSEN, Karel M
Format: Article
Language:English
Subjects:
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Biological and medical sciences
Body Temperature - physiology
Emergency and intensive care: renal failure. Dialysis management
Energy Metabolism - physiology
Female
Hemodiafiltration
Hemodynamics
Humans
Intensive care medicine
Male
Medical sciences
Nephrology. Urinary tract diseases
Regional Blood Flow
Renal Dialysis
Skin - blood supply
Skin - metabolism
Skin Temperature - physiology
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Summary:The cause of the increase in core temperature (CT) during hemodialysis (HD) is still under debate. It has been suggested that peripheral vasoconstriction as a result of hypovolemia, leading to a reduced dissipation of heat from the skin, is the main cause of this increase in CT. If so, then it would be expected that extracorporeal heat flow (Jex) needed to maintain a stable CT (isothermic; T-control = 0, no change in CT) is largely different between body temperature control HD combined with ultrafiltration (UF) and body temperature control HD without UF (isovolemic). Consequently, significant differences in DeltaCT would be expected between isovolemic HD and HD combined with UF at zero Jex (thermoneutral; E-control = 0, no supply or removal of thermal energy to and from the extracorporeal circulation). During the latter treatment, the CT is expected to increase. In this study, changes in thermal variables (CT and Jex), skin blood flow, energy expenditure, and cytokines (TNF-alpha, IL-1 receptor antagonist, and IL-6) were compared in 13 patients, each undergoing body temperature control (T-control = 0) HD without and with UF and energy-neutral (E-control = 0) HD without and with UF. CT increased equally during energy-neutral treatments, with (0.32 +/- 0.16 degrees C; P = 0.000) and without (0.27 +/- 0.29 degrees C; P = 0.006) UF. In body temperature control treatments, the relationship between Jex and UF tended to be significant (r = -0.51; P = 0.07); however, there was no significant difference in cooling requirements regardless of whether treatments were done without (-17.9 +/- 9.3W) or with UF (-17.8 +/- 13.27W). Changes in energy expenditure did not differ among the four treatment modes. There were no significant differences in pre- and postdialysis levels of cytokines within or between treatments. Although fluid removal has an effect on thermal variables, no single mechanism seems to be responsible for the increased heat accumulation during HD.
ISSN:1046-6673
1533-3450
DOI:10.1681/ASN.2004080655