Vol. 274, Issue 3, E426-E431, March 1998
Diurnal rhythm returns to normal after elimination of
portacaval shunting
Paul A.
Hawkins,
Mary R.
Dejoseph, and
Richard A.
Hawkins
Department of Physiology and Biophysics, Finch University of Health
Sciences, The Chicago Medical School, North Chicago, Illinois
60064-3095
Previous studies showed that portacaval shunting
causes metabolic and behavioral changes in rats. Most metabolic changes
reversed within 1-2 wk after restoration of normal circulation.
However, the rate of cerebral glucose metabolism
(CMRGlc) remained depressed in
some areas. The question arose whether complete recovery was possible.
Therefore, a long-term behavioral study was undertaken to determine the
time course of recovery. Diurnal activity was monitored for 48 h each
week over a period of 14 wk: 2 wk before shunting, 6 wk after shunting,
and 6 wk after restoration of normal hepatic circulation. Nighttime
activity was depressed within 1 wk of shunting and did not change.
Normal circulation to the liver was reestablished after 6 wk. The
diurnal cycle was normal 3 wk later. Thus, although recovery of the
diurnal rhythm is possible, the relatively long period necessary
suggests the correction of a significant structural or chemical
abnormality. A study of CMRGlc was
made using the behavioral study as an index of the time necessary for
recovery. CMRGlc returned to
normal throughout the brain 6 wk after cessation of shunting except in
the hippocampus and amygdala (7-8% decrease).
hepatic encephalopathy; liver dysfunction; hyperammonemia; circadian rhythm; night and day activity; brain glucose consumption
