Diurnal variations in ventilatory and cardiorespiratory responses to submaximal treadmill exercise in females

Diurnal variations in ventilatory and cardiorespiratory responses to submaximal treadmill exercise were analysed in 11 eumenorrhoeic women and in 10 women using monophasic oral contraceptives. Subjects performed submaximal treadmill exercise at three intensities averaging 7, 8, and 9 km x h(-1), each for 4 min at 0800, 1300 and 1700 hours, assigned randomly on 3 separate days. Rectal temperature was measured before (T(rec(b))) and after (T(rec(a))) exercise. Cardiac frequency (f(c)), ventilation (V(E)), oxygen uptake (VO(2)), carbon dioxide output (VCO(2)), and respiratory exchange ratio (R) were assessed in the last minute of each stage of the exercise. Both T(rec(b)) and T(rec(a)) increased from 0800 to 1700 hours (P < 0.001). For a given submaximal work rate, VO(2) and VCO(2) were higher in the afternoon compared to the morning. Similarly, R was increased at 1700 hours compared to 0800 hours during the recovery period following exercise (P < 0.05). However, V(E) did not vary significantly during the day at any of the running intensities. No significant interactions (group x time of day) were observed in any of the studied parameters. In contrast to ventilation, the VO(2) and VCO(2) of the females during submaximal exercise were both affected by the time of day, without any differences between eumenorrhoeic women and users of oral contraceptives.     

Stress biomarkers in rats submitted to swimming and treadmill running exercises

The objective of the present work was to compare stress biomarkers (serum ACTH and corticosterone hormones) during known intensity swimming and treadmill running exercises performed by rats. Adult Wistar rats (n=41) weighing 320-400 g at the beginning and 420-500 g at the end of the experiment, previously adapted to exercise and with Maximal Lactate Steady State (MLSS) already determined were used. The animals were divided into the following subgroups: (1) sacrificed shortly after session of 25 min of exercise (swimming or treadmill) at the MLSS intensity or (2) sacrificed after exhaustive exercise (swimming or treadmill) at intensity 25% higher than MLSS. For comparison, a control group C was sacrificed at rest. Two-way ANOVA was used to identify differences in the stress parameters (P<0.05). At both exercise intensities serum ACTH concentrations were significantly higher for the swimming group compared to running and control groups, while serum corticosterone concentrations in swimming and running groups were significantly higher than in the control group. The differences were more pronounced at the higher intensity (25% higher than MLSS). The swimming group showed higher concentrations for both hormones in relation to the running group. Only acute swimming exercise induced activity of the hypothalamic-pituitary-adrenal axis responses expected to stress: elevations in the serum ACTH and corticosterone concentrations.     

Acute supplementation of valine reduces fatigue during swimming exercise in rats

We investigated the respective effects of the acute supplementation of valine, leucine, and isoleucine on metabolism-related markers by administering a swimming exercise test to rats. As a behavioral analysis, we evaluated the effect of valine and that of leucine on spontaneous activity after exercise. Acute supplementation of valine before exercise significantly suppressed the depression of the liver glycogen and the blood glucose after exercise, whereas leucine decreased the blood glucose and isoleucine had no effect. Valine or leucine supplementation significantly decreased the plasma corticosterone level after exercise, while isoleucine had no effect. In the behavioral analysis, valine significantly increased the spontaneous activity after exercise, whereas leucine had no effect. These results indicate that in rats, the acute supplementation of valine, not leucine or isoleucine, is effective for maintaining liver glycogen and blood glucose and increasing spontaneous activity after exercise, which could contribute to the reduction of fatigue during exercise.     

Immediate effects of cigarette smoking on cardiorespiratory responses to exercise

To determine the acute action of cigarette smoking on cardiorespiratory function under stress, the immediate effects of cigarette smoking on the ventilatory, gas exchange, and cardiovascular responses to exercise were studied in nine healthy male subjects. Each subject performed an incremental exercise test to exhaustion on two separate days, one without smoking (control) and one after smoking 3 cigarettes/h for 5 h. The order of the two tests was randomized. Arterial blood gases and pH were measured during rest and all levels of exercise; CO blood levels confirmed the absorption of cigarette smoke. In addition, minute ventilation (VE), end-tidal PCO2 and PO2, O2 uptake (VO2), CO2 production, directly measured blood pressure, electrocardiogram, and heart rate (HR) were recorded every 30 s. The dead space-to-tidal volume ratio (VD/VT), maximal aerobic capacity (VO2max), and anaerobic threshold (AT) were determined from the gas exchange data. Cigarette smoking resulted in a significantly lower VO2max, AT, and VO2/HR (O2 pulse) and a significantly higher HR, pulse-pressure product, and pulse pressure (P less than 0.05) compared with the control. Additionally, a trend toward a higher VD/VT and arterial-end-tidal PCO2 difference was found during exercise after smoking. We conclude that cigarette smoking causes immediate detrimental effects on cardiovascular function during exercise, including tachycardia, increased pulse-pressure product, and impaired O2 delivery. The acute effects on respiratory function were less striking and primarily limited to abnormalities reflecting ventilation-perfusion mismatching.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of habitual smoking on cardiorespiratory responses to sub-maximal exercise

The effects of habitual cigarette smoking on cardiorespiratory responses to sub-maximal and maximal work were evaluated in nine adult nonsmokers and nine smokers with a mean age of 33 yr. A maximal treadmill test was followed by three tests at 45, 60 and 75% of each subject's VO(2)max. Compared to nonsmokers, the habitual smokers had a non-significantly lower VO(2)max in L/min and per lean body mass (9 and 6%, respectively), but had higher %fat (p<0.01), resulting in a significantly lower VO(2)max per kg body wt (13%, p<0.03). Maximal exercise ventilation (V(E)) was 16% lower in smokers. During sub-maximal work at equivalent exercise stress levels in the two groups, the V(E)/VO(2) ratio was higher in smokers by an average of 11% because VO(2) was lower and the respiratory exchange ratio values were significantly elevated in smokers at 75% of VO(2)max. Blood lactate concentrations in smokers were higher as workloads increased and O(2) pulse (VO(2)/HR) was significantly lower throughout, indicating reduced O(2) extraction, probably due to carbon monoxide. The resting HR was significantly higher in smokers and the HR recovery following all three submaximal exercises was significantly slower in smokers. These results show that detrimental cardiorespiratory effects of chronic cigarette smoking in apparently healthy individuals are evident at moderate exercise levels as reduced gas exchange efficiency in lungs and muscles.     

Variability of responses across training levels to maximal treadmill exercise

The variability of peak VO2 (ml/min, ml.kg-1.min-1), time on treadmill (TMILLTM), maximal heart rate (HRmax), respiratory exchange ratio at peak VO2 (Rmax), rate of respiration at peak VO2 (FREQ), and exercise-induced changes in plasma lactate concentration (LACDIF) was measured across three maximal treadmill runs in five highly trained, seven moderately trained, and five untrained males. No effect of training level on the variability of any of the parameters was found. Test-retest correlation coefficients for peak VO2 (r = 0.95, run 1 with run 2; r = 0.92, run 1 with run 3; r = 0.92, run 2 with run 3) were similar to previously reported values. Variance component distributions suggested that the underlying physiological mechanisms of response for peak VO2, TMILLTM, and HRmax were different from those of FREQ, Rmax, and LACDIF. Minimum detectable differences for peak VO2 (ml.kg-1.min-1, n = 5, minimum detectable within subject difference, 11.5%; minimum detectable among subject effects, 21.3%) indicated a need for careful attention to research design in future studies.     

Effect of cardiac denervation on cardiorespiratory responses to exercise in goats

The purpose of this study was to determine whether intact cardiac innervation and a normal cardiovascular (CV) response are required for a normal ventilatory (VE) response to mild and moderate treadmill exercise in awake goats. Accordingly, we measured CV and respiratory responses to two levels of exercise in seven normal (N) and six cardiac-denervated (CD) goats. Evidence of surgical CD included 1) absence of a cardiac response during surgery when the left thoracic cardiac nerves, thoracic vagi, and right and left stellate ganglia were electrically stimulated, 2) total and 80% attenuation of baroreflex changes in heart rate (HR) when arterial blood pressure was raised or lowered, respectively, by infusion of vasoactive agents in awake goats, and 3) attenuation of the CV responses to exercise. At each level of exercise in the CD goats, the HR response was significantly reduced relative to the response observed before CD (P less than 0.05) and the recovery HR response was delayed. Cardiac index increased in a work rate-dependent manner in N and CD goats but was significantly lower in the CD animals (P less than 0.05). Hypotension was consistently observed during exercise following CD. There was no effect of CD on steady-state VE at any metabolic rate or on the VE-O2 uptake relationship (P greater than 0.05). The rest-to-work and work-to-work transition responses of arterial PCO2 were similar between N and CD goats, but there was a tendency toward greater hypocapnia at the exercise onset in CD goats at the highest work rate.(ABSTRACT TRUNCATED AT 250 WORDS)     

Different cardiorespiratory responses to hemorrhage and hyperoxia in normotensive (WKY) and spontaneously hypertensive (SHR) rats

OBJECTIVE: To compare the cardiorespiratory responses underlying the beneficial effects of hyperoxia during blood loss between normotensive (WKY) and hypertensive (SHR) rats. METHODS: Experiments were carried out in anesthetized animals with both carotid bifurcations either innervated or denervated. The effects of breathing 60% O2 in N2 were studied either in combination with non-hypotensive hemorrhage or during hemorrhagic hypotension. RESULTS: In normoxia arterial pressure fell more in SHR than in WKY for a given blood loss. During hyperoxia, nerve-intact rats showed initial suppression of ventilation, but bifurcation-denervated rats a powerful enhancement. In all groups, hyperoxia increased the overall tone of venous capacitance vessels. CONCLUSIONS: The greater blood loss in SHR than in WKY when bleeding down to a given arterial pressure results from a stronger constriction of venous capacitance vessels. Hyperoxia improves the ability of the cardiorespiratory system to resist the effects of hemorrhage by increasing the overall venous tone, thus supporting cardiac filling, and in some cases also by increasing alveolar ventilation, probably secondary to improved cerebral oxygenation. The beneficial effects of hyperoxia were: (i) not prevented by carotid denervation, and thus were presumably direct tissue effects of oxygen, (ii) strikingly weaker in SHR than in normotensive (WKY) rats.     

The influence of fitness on neuroendocrine responses to exhaustive treadmill exercise

Neuroendocrine and sympathoadrenal responses to exhaustive graded treadmill exercise were examined in 17 male subjects of varying degrees of fitness. The mean duration of exercise to exhaustion was 15.2 +/- 0.7 (+/- SE) min. Exercise duration was inversely correlated with baseline heart rate (P less than 0.05). Compared to standing baseline values, mean plasma norepinephrine and epinephrine levels increased 339% and 301%, respectively, in an integrated 2-min blood sample collected immediately after completion of exercise. Mean adrenocorticotrophic hormone (ACTH), beta-endorphin (beta-EP), beta-lipotropin (beta-LPH), and prolactin levels increased 282%, 720%, 372%, and 211%, respectively, in an integrated 4-min blood sample beginning 2 min after completion of exercise. Cortisol levels increased 183% in the sample collected 17-21 min after exercise. The magnitude of these neuroendocrine responses to exercise was similar among individuals at the same relative intensity of exhaustive exercise, regardless of the duration of exercise. The exercise-induced increases of the pro-opiomelanocortin (POMC)-derived peptides, ACTH, beta-EP, and beta-LPH, were highly correlated with each other (P values less than 0.001), and were correlated with prolactin increases, (P values less than 0.05). During a 20-min recovery period after exercise, changes in heart rate, ACTH, and beta-LPH levels were correlated with duration of exercise, (P less than 0.01, P less than 0.03, and P less than 0.03, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)     

Cardiovascular responses to treadmill and cycle ergometer exercise in children and adults

Turley, Kenneth R., and Jack H. Wilmore. Cardiovascularresponses to treadmill and cycle ergometer exercise in children andadults. J. Appl. Physiol. 83(3):948-957, 1997.This study was conducted to determine whethersubmaximal cardiovascular responses at a given rate of work aredifferent in children and adults, and, if different, what mechanismsare involved and whether the differences are exercise-modalitydependent. A total of 24 children, 7 to 9 yr old, and 24 adults, 18 to26 yr old (12 males and 12 females in each group), participated in bothsubmaximal and maximal exercise tests on both the treadmill and cycleergometer. With the use of regression analysis, it was determined thatcardiac output () was significantly lower(P  0.05) at a givenO₂ consumption level(O₂, l/min) in boys vs. menand in girls vs. women on both the treadmill and cycle ergometer. Thelower in the children was compensated for by asignificantly higher (P  0.05)arterial-mixed venous O₂difference to achieve the same or similarO₂. Furthermore, heart rateand total peripheral resistance were higher and stroke volume was lowerin the children vs. in the adult groups on both exercise modalities.Stroke volume at a given rate of work was closely related to leftventricular mass, with correlation coefficients ranging fromr = 0.89-0.92 andr = 0.88-0.93 in the males and females, respectively. It was concluded that submaximal cardiovascular responses are different in children and adults and that these differences are related to smaller hearts and a smaller absolute amountof muscle doing a given rate of work in the children. The differenceswere not exercise-modality dependent.