Dynamics and dimensions of cardiac output changes in humans at the onset and at the end of moderate rhythmic exercise.

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Dynamics and dimensions of cardiac output changes in humans at the onset and at the end of moderate rhythmic exercise.

M Eriksen, B A Waaler, L Walløe and J Wesche

Department of Physiology, University of Oslo, Norway.

1. An improved Doppler ultrasound technique was used to measurestroke volume (SV) and cardiac output (CO) on a beat-to-beatbasis in a group of supine humans before, during and after periodsof standardized, rhythmic exercise, involving the quadricepsmuscle groups on both sides. The development of CO on such boutsof exercise was compared to Doppler ultrasound records of thesimultaneous femoral arterial flow (FF) response. 2. Recordsof CO at rest revealed spontaneous fluctuations around a meanlevel, with differences between the minimal and maximal valuesof the order of 1 l min-1. The mean CO level at rest again variedconsiderably from one day to another and from test run to testrun. 3. Upon start of exercise an immediate and rapid increasein heart rate (HR) and CO took place. The entire increase, thesize of which varied appreciably from test run to test run,was completed within 10-15 s. No or only minor changes wereseen in the mean SV level during the exercise periods. 4. Thetime course of the increase in FF was indistinguishable fromthat of the increase in CO, which occurred without any detectabledelay relative to the changes in FF. These closely paralleldevelopments indicate a tight regulatory coupling between thetwo types of flow changes. 5. In the majority of tests the totaland two-sided increase in FF seen in the steady-state situationin the last part of an exercise period was significantly largerthan the recorded increase in CO. This discrepancy implies thatsome redistribution of flow from tissues other than the workingmuscles might take place, even at this moderate level of work.6. Upon the end of exercise a striking but transient increasein CO occurred, resulting from an increase in SV concomitantwith a maintained HR. In the course of five to eight post-exercisecardiac cycles about 100 extra milliliters of blood were expelledfrom the heart. This cardiac outflow overshoot was found tooccur during a post-exercise fall in mean arterial blood pressure(MAP).

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