Influence of sulphur dioxide breathing on defensive reflexes of the airways

The influence of sulphur dioxide (SO2) on cough and expiratory reflexes was studied in 22 anaesthetized (pentobarbital, 30 mg/kg i.v.) rabbits. The cough reflex (CR) was elicited by tracheobronchial mucous membrane stimulation, using a soft venous catheter. In order to induce the expiratory reflex (ER) irritation of the larynx was performed by a silon fibre loop. The strength of both reflexes was assessed from the interpleural pressure fluctuation before SO2 breathing, immediately after, and 30-120 minutes after SO2 breathing had been stopped. The animals breathed SO2 in 200-300 ppm concentration through a tracheal cannula. The influence of SO2 on the direct dependence of lung inflation pressure magnitude (LIPM) on strength of the expiratory reflex (ERS) was tested. It was found that elicitability and strength of the cough reflex decreased immediately after SO2 breathing had been stopped, and did not reach the preexposure level at the end of the experiment, i.e. 2 hours after discontinuation of SO2 breathing. The direct dependence of LIPM on ERS in unaffected rabbits [10] was abolished immediately after SO2 breathing had been stopped but was present again 30-60 minutes later, and did not differ significantly from the control values. The results give evidence of the strong depressive influence of SO2 on the defensive reflexes of the airways in rabbits.     

Volume of activation of the Hering-Breuer inflation reflex in the newborn infant.

Although the Hering-Breuer inflation reflex (HBIR) is active within tidal breathing range in the neonatal period, there is no information regarding whether a critical volume has to be exceeded before any effect can be observed. To explore this, effects of multiple airway occlusions on inspiratory and expiratory timing were measured throughout tidal breathing range using a face mask and shutter system. In 20 of the 22 healthy infants studied, there was significant shortening of inspiration because the volume at which occlusion occurred rose from functional residual capacity (FRC) to end-inspiratory volume [14.9% reduction in inspiratory time (per ml/kg increase in lung volume at occlusion)]. All infants showed a significant increase in expiratory time [17.1% increase (per ml/kg increase in lung volume at occlusion)]. Polynomial regression analyses revealed a progressive increase in strength of HBIR from FRC to approximately 4 ml/kg above FRC. Eighteen infants showed no further shortening of inspiratory time and 10 infants no further lengthening of expiratory time with increasing occlusion volumes, indicating maximal stimulation of the reflex had been achieved. There was a significant relationship between strength of HBIR and respiratory rate, suggesting that HBIR modifies the breathing pattern in the neonatal period.     

Effects of hyperoxia and allergic airway inflammation on cough reflex intensity in guinea pigs

Toxic influence of high oxygen concentration on pulmonary function and structures has been known for many years. However, the influence of high oxygen concentration breathing on defensive respiratory reflexes is still not clear. In our previous experiments, we found an inhibitory effect of 100 % oxygen breathing on cough reflex intensity in healthy guinea pigs. The present study was designed to detect the effects of hyperoxia on cough reflex in guinea pigs with allergic airway inflammation. In the first phase of our experiment, the animals were sensitized with ovalbumin. Thirty-two sensitized animals were used in two separate experiments according to oxygen concentration breathing: 100 % or 50 % oxygen for 60 h continuously. In each experiment, one group of animals was exposed to hyperoxia, another to ambient air. The cough reflex was induced both by aerosol of citric acid before sensitization, then in sensitized animals at 24 h and 60 h of exposition to oxygen/air in awake animals, and by mechanical stimulation of airway mucosa in anesthetized animals just after the end of the experiment. In contrast to 50 % oxygen, 100 % oxygen breathing leads to significant decrease in chemically induced cough in guinea pigs with allergic inflammation. No significant changes were present in cough induced by mechanical stimulation of airways.     

Respiratory reflex responses to stimulation of tracheal mucosa in enflurane-anesthetized humans

We investigated respiratory reflex responses to tracheal mucosa stimulation induced by injection of distilled water in 13 female patients under three different depths of enflurane anesthesia (0.7, 1.0, and 1.3 minimum alveolar concentration). Detailed analysis of the types of reflex responses revealed that there are at least six different responses: 1) the apneic reflex, 2) the expiration reflex, 3) spasmodic, panting breathing, 4) the cough reflex, 5) slowing of breathing, and 6) rapid, shallow breathing. Among these reflex responses, the cough reflex was the most sensitive and the apneic reflex followed by slowing of breathing was the most resistant to deepening anesthesia, whereas the sensitivity of other types of reflex responses was in between. Our results indicate that the types of respiratory reflex responses to tracheal mucosa stimulation are associated with depths of anesthesia and that the differences in sensitivity to anesthesia may be a valuable sign in clinical assessment of depth of anesthesia.     

Influence of CPAP on reflex responses to tracheal irritation in anesthetized humans

We investigated the effects of lung inflation during continuous positive airway pressure breathing (CPAP) on airway defensive reflexes in 10 enflurane-anesthetized spontaneously breathing humans. The airway defensive reflexes were induced by instillation into the trachea of 0.5 ml of distilled water at two different levels of end-expiratory pressure (0 and 10 cmH2O CPAP). The tracheal irritation at an end-expiratory pressure of 0 cmH2O caused a variety of reflex responses including apnea, spasmodic panting, expiration reflex, cough reflex, an increase in heart rate, and an increase in blood pressure. Lung inflation during CPAP of 10 cmH2O did not exert any influence on these reflex responses in terms of the types, latencies, and durations of reflex responses although the intensity of the expiration reflex and cough reflex was augmented by lung inflation. Our results suggest that the pulmonary stretch receptors do not play an important role in the mechanisms of airway defensive reflexes in humans.     

Cough-enhanced mucus clearance in the normal lung

We studied the effectiveness of cough for clearing mucus in 12 nonsmoking subjects with normal lung function. On 2 separate study days, each subject breathed 6-microns Mass Median Aerodynamic Diameter 99mTc-labeled iron oxide particles under controlled breathing conditions while they were seated in front of a gamma camera. Retention (R) of lung activity was measured over the initial 2 h and again at 24 h after particle inhalation. On the control day the subject sat quietly in front of the camera, while on the cough day each subject performed 60 controlled coughs during the 1st h of retention measurements. By paired analysis, retentions at both 1 and 2 h (R1 and R2, respectively) for the cough measurements were significantly less than control (mean control R1 = 85% vs. mean cough R1 = 72%, P less than 0.002; mean control R2 = 75% vs. mean cough R2 = 65%, P less than 0.02). Retention at 24 h (R24) was not significantly different between cough and control measurements (mean cough R24 = 35% and mean control R24 = 32%). Thus coughing increased the rate at which the radiolabeled particles were cleared from the bronchial airways in these individuals. Follow-up experiments with subjects performing rapid inhalations rather than cough showed similar enhanced particle clearance to that seen with cough. These results suggest that the observed enhancement of mucus clearance by cough (and rapid inhalation) in the normal lung may be due to a stimulation of the mucociliary apparatus rather than via a two-phase gas-liquid flow mechanism.     

Changes in LPLa and reverse cholesterol transport variables during 24-h postexercise period

We investigated the time course of exercise-induced lipoprotein lipase activity (LPLa) and reverse cholesterol transport (RCT) during the 24-h postexercise period. Subjects were 10 sedentary normolipidemic males [NTG; fasting triglyceride (TG) = 89.1 +/- 8.6 mg/dl] and 6 hyperlipidemic males (HTG; fasting TG = 296.8 +/- 64.0 mg/dl). Each subject performed a control trial (no exercise) and 4 exercise trials. In the exercise trials, a subject jogged on a treadmill at 60% of his maximal O(2) consumption for 1 h. Pre- and postheparin blood samples were taken before exercise (baseline) and at 4, 8, 12, and 24 h after exercise. There was no group difference in LPLa (P > 0.05) over the time points. When the LPLa data from the two groups were combined, LPLa at 24 h after exercise was higher than baseline or at 4, 8, 12 h after exercise (P < 0.05). Plasma TG and lecithin-cholesterol acyltransferase activity (LCATa) were higher in HTG than in NTG, and the total high-density lipoprotein-cholesterol (HDL(tot)-Chol) was lower in HTG than in NTG (P < 0.05). HDL(2)-Chol, LCATa, and cholesterol ester transfer protein activity did not differ during the 24-h postexercise period (P > 0.05). These results suggest that LPLa is still increasing 24 h after an acute aerobic exercise and that the magnitude of the increase in exercise-induced LPLa in HTG was similar to that in NTG. Furthermore, in the sedentary population with or without HTG, the variables related to RCT do not change during the 24-h period after exercise.     

Microinjection of DLH into the region of the caudal ventral respiratory column in the cat: evidence for an endogenous cough-suppressant mechanism.

The caudal ventral respiratory column (cVRC) contains premotor expiratory neurons that play an important role in cough-related expiratory activity of chest wall and abdominal muscles. Microinjection of d,l-homocysteic acid (DLH) was used to test the hypothesis that local activation of cVRC neurons can suppress the cough reflex. DLH (20-50 mM, 10-30 nl) was injected into the region of cVRC in nine anesthetized spontaneously breathing cats. Repetitive coughing was elicited by mechanical stimulation of the intrathoracic airways. Electromyograms (EMG) were recorded bilaterally from inspiratory parasternal and expiratory transversus abdominis (ABD) and unilaterally from laryngeal posterior cricoarytenoid and thyroarytenoid muscles. Unilateral microinjection of DLH (1-1.5 nmol) elicited bilateral increases in tonic and phasic respiratory ABD EMG activity, and it altered the respiratory pattern and laryngeal motor activities. However, DLH also decreased cough frequency by 51 +/- 7% compared with control (P < 0.001) and the amplitude of the contralateral (-35 +/- 3%; P < 0.001) and ipsilateral (-34 +/- 5%; P < 0.001) ABD EMGs during postinjection coughs compared with control. The cough alterations were much less pronounced after microinjection of a lower dose of DLH (0.34-0.8 nmol). No cough depression was observed after microinjections of vehicle. These results suggest that an endogenous cough suppressant neuronal network in the region of the cVRC may exist, and this network may be involved in the control of cough reflex excitability.     

Influence of volume dependency and timing of airway occlusions on the Hering-Breuer reflex in infants

Bothend-inspiratory (EIO) and end-expiratory (EEO) airway occlusions areused to calculate the strength of the Hering-Breuer inflation reflex(HBIR) in infants. However, the influence of the timing of suchocclusions is unknown, as is the extent to which changes in volumewithin and above the tidal range affect this reflex. The purpose ofthis study was to compare both techniques and to evaluate the volumedependency of the HBIR in healthy, sleeping infants up to 1 yr of age.The strength of the HBIR was expressed as the ratio of expiratory orinspiratory time during EIO or EEO, respectively, to that recordedduring spontaneous breathing, i.e., as the "inhibitory ratio"(IR). Paired measurements of the EIO and EEO in 26 naturally sleepingnewborn and 15 lightly sedated infants at ~1 yr showed nostatistically significant differences in the IR according to technique:mean (95% CI) of the difference (EIO  EEO) being0.02 (0.17, 0.13) during the first week of life and 0.04 (0.14, 0.22) at 1 yr. During tidalbreathing, a volume threshold of ~4 ml/kg was required to evoke theHBIR. Marked volume and age dependency were observed. In newborninfants, occlusions at ~10 ml/kg during sighs always resulted in anIR > 4, whereas a similar response was only evoked at 25 ml/kg inolder infants. Age-related changes in the volume threshold may reflectmaturational changes in the control of breathing and respiratorymechanics throughout the first year of life.

     

Effects of hyperoxia on vasoconstriction and VA/Q matching in the neonatal lung

Exposure of adult animals to 48-72 h of 100% O2 breathing is associated with a blunting of hypoxic pulmonary vasoconstriction (HPV) (Newman et al. J. Appl. Physiol. 54: 1379-1386, 1983). It is unknown whether HPV is also diminished in neonates after hyperoxic exposure and if so to what extent such suppression might interfere with pulmonary gas exchange during hypoxic gas breathing. We tested the possibility that hyperoxia would suppress HPV and interfere with ventilation-perfusion (VA/Q) matching and therefore gas exchange in neonatal piglets. Twelve 2- to 4-wk-old piglets were exposed for an average of 68 h to greater than 90% inspired O2. A control group of eight piglets was exposed to room air for a similar period of time. Immediately after exposure the animals were anesthetized and instrumented. Pulmonary hemodynamics and respiratory and inert gas exchange were assessed while the animals inspired an O2 fraction of 1.0, 0.21, and 0.12. After 20 min of hypoxic gas breathing, pulmonary arterial pressure rose to a lesser degree in the hyperoxia (H)-exposed animals than in the control (C) animals (P less than 0.02). The increase in pulmonary vascular resistance was similarly blunted. Venous admixture of the insoluble inert gas, sulfur hexafluoride, an index of extremely low VA/Q areas, was increased during hypoxic gas breathing compared with room air breathing in the H-preexposed animals (P less than 0.02). Standard deviation of pulmonary blood flow was increased (P less than 0.02), indicating an increase in mismatching of VA/Q during hypoxic breathing in the H-preexposed animals compared with the C animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Respiration and airway reflexes after transversal brain stem lesions in cats

The effect of brain stem transection at different levels of the pons Varolii and the medulla oblongata on respiration and on cough and the aspiration and expiration reflex elicited by mechanical stimulation of the relevant parts of the respiratory tract was studied in experiments on 13 anaesthetized, unparalyzed cats. The results of 142 respiratory reflex elicitation tests showed that: 1. Compared with the control state, transection of the upper and middle part of the pons Varolii and transection at the level of the pontomedullary junction reduced the respiration rate (p less than 0.001), increased the duration of inspiration and expiration (p less than 0.001, transection 10 mm rostrally to the obex) and gave rise to apneustic breathing (8 mm), or to tonic, respiration-modulated activity of the phrenic nerve and diaphragm (6 mm). 2. Successive transection of the pons and the pontomedullary junction region led chiefly to a drop in maximum expiratory pleural pressure values (p less than 0.01-0.001) during cough and the expiration reflex and to a drop in maximum inspiratory pleural pressure values during the aspiration reflex (p less than 0.02-0.001). 3. Transection of the upper part of the medulla oblongata always led to permanent arrest of rhythmic respiration, during which cough and the expiration reflex could not be elicited while the aspiration reflex persisted (though in a weakened form). This state was followed by gasping, during which only a highly elicitable aspiration reflex persisted. 4. It can be assumed from the above findings that the central mechanisms responsible for the development of powerful expiratory efforts in cough and the expiration reflex could be localized in the pons Varolii, while those integrating the aspiration reflex are probably localized mainly in the medulla oblongata.     

Selected times of insemination with microencapsulated bovine spermatozoa affect pregnancy rates of synchronized heifers

This experiment was designed to test whether spermatozoa encapsulated in an alginate poly-L-lysine matrix had an extended fertile life in vivo after insemination. Estrus was synchronized in 417 primiparous Friesian and Jersey heifers with a system based on a CIDR-B intravaginal device before the heifers were inseminated either during proestrus (24 h after device removal) or at estrus (48 h after device removal). Pregnancy rates to first inseminations did not differ between the 24 and 48 h inseminations (61 vs 60.6%) with liquid semen diluted in Caprogen (control) but differed with encapsulated semen (45.1 vs 68.6%). The difference in pregnancy rates between the 2 types of semen was more pronounced (P < 0.08) in the animals that were visually detected in estrus. The mean survival time of spermatozoa in the female reproductive tract following insemination at the 24-h insemination time was estimated to be 50 +/- 7.5 h. The increased pregnancy rate with insemination of encapsulated spermatozoa at 48 h could have been due to this process predisposing spermatozoa to capacitate soon after insemination.     

Contrasting effects of prostaglandins E2 and F2 alpha on sensitivity of the human cough reflex.

Prostaglandins have been shown to influence the sensitivity of the cough reflex. To investigate putative mechanisms of this, we examined the effects of inhaled prostaglandins E2 (PGE2) and F2 alpha (PGF2 alpha) on human cough responses elicited by two challenges, low chloride solution and capsaicin, which may activate different neural pathways. Baseline cough challenges were followed after 2 h by five breaths of PGE2, PGF2 alpha, or citric acid as a control. Cough challenges were repeated after 1 min. Potentiation of capsaicin responses occurred after PGE2 (median increase 2 coughs/min, range 0-7, P less than 0.01) and PGF2 alpha (median increase 8 coughs/min, range -3 to 27, P less than 0.01) compared with control. The effect of PGF2 alpha was greater (P less than 0.05) than that of PGE2. Potentiation of low chloride responses also occurred after PGF2 alpha (median increase 7 coughs/2 min, range -1 to 19, P less than 0.01), but effects of PGE2 were insignificant against this challenge (median change -1 coughs/2 min, range -4 to 13). These data suggest that PGE2 and PGF2 alpha have different effects on the sensitivity of the human cough reflex, which may be relevant during airway disease.     

Restricted daytime feeding attenuates reentrainment of the circadian melatonin rhythm after an 8-h phase advance of the light-dark cycle

It is well established that in the absence of photic cues, the circadian rhythms of rodents can be readily phase-shifted and entrained by various nonphotic stimuli that induce increased levels of locomotor activity (i.e., benzodiazepines, a new running wheel, and limited food access). In the presence of an entraining light-dark (LD) cycle, however, the entraining effects of nonphotic stimuli on (parts of) the circadian oscillator are far less clear. Yet, an interesting finding is that appropriately timed exercise after a phase shift can accelerate the entrainment of circadian rhythms to the new LD cycle in both rodents and humans. The present study investigated whether restricted daytime feeding (RF) (1) induces a phase shift of the melatonin rhythm under entrained LD conditions and (2) accelerates resynchronization of circadian rhythms after an 8-h phase advance. Animals were adapted to RF with 2-h food access at the projected time of the new dark onset. Before and at several time points after the 8-h phase advance, nocturnal melatonin profiles were measured in RF animals and animals on ad libitum feeding (AL). In LD-entrained conditions, RF did not cause any significant changes in the nocturnal melatonin profile as compared to AL. Unexpectedly, after the 8-h phase advance, RF animals resynchronized more slowly to the new LD cycle than AL animals. These results indicate that prior entrainment to a nonphotic stimulus such as RF may "phase lock" the circadian oscillator and in that way hinder resynchronization after a phase shift.     

Role of sensory input from the lungs in control of muscle sympathetic nerve activity during and after apnea in humans.

We reasoned that, if the lung inflation reflex contributes importantly to apnea-induced sympathetic activation, such activation would be attenuated in bilateral lung transplant recipients (LTX). We measured muscle sympathetic nerve activity (MSNA; intraneural electrodes), heart rate, mean arterial pressure, tidal volume, end-tidal Pco(2), and arterial oxygen saturation in seven LTX and seven healthy control subjects (Con) before, during, and after 20-s end-expiratory breath holds. Our evidence for denervation in LTX was 1) greatly attenuated respiratory sinus arrhythmia and 2) absence of cough reflex below the level of the carina. During apnea, the temporal pattern and the peak increase in MSNA were virtually identical in LTX and Con (347 +/- 99 and 359 +/- 46% of baseline, respectively; P > 0.05). In contrast, the amount of MSNA present in the first 5 s after resumption of breathing was greater in LTX vs. Con (101 +/- 4 vs. 38 +/- 7% of baseline, respectively; P < 0.05). There were no between-group differences in apnea-induced hypoxemia or hypercapnia, hemodynamic, or ventilatory responses. Thus cessation of the rhythmic sympathoinhibitory feedback that normally accompanies eupneic breathing does not contribute importantly to sympathetic excitation during apnea. In contrast, vagal afferent input elicited by hyperventilation-induced lung stretch plays an important role in the profound, rapid sympathetic inhibition that occurs after resumption of breathing after apnea.     

Effect of social isolation on 24-h pattern of stress hormones and leptin in rats

This work analyzes the effect of social isolation of growing male rats on 24-h changes of plasma prolactin, growth hormone, ACTH and leptin, and on plasma and adrenal corticosterone concentrations. At 35 days of life, rats were either individually caged or kept in groups (6-8 animals per cage) under a 12:12 h light/dark schedule (lights on at 08:00 h). A significant arrest of body weight gain regardless of unchanged daily food intake was found in isolated rats after 2 weeks of isolation. On the 4th week, rats were killed at 6 time intervals during a 24-h cycle, beginning at 09:00 h. In isolated rats the 24-h pattern of all parameters tested became distorted, as assessed by Cosinor analysis. When analyzed as a main factor in a factorial analysis of variance, isolation decreased plasma prolactin and growth hormone, increased plasma leptin and corticosterone while decreased adrenal corticosterone. Plasma corticosterone levels correlated significantly with plasma ACTH and with adrenal corticosterone levels in group-caged rats only. These changes can be attributed to an effect of mild stress on the endogenous clock that modulates the circadian hormone release.     

The expiration reflex from the vocal folds.

The authors present their 30 years' experience with expiration reflex. The reflex can be elicited from vocal folds by mechanical, chemical or electrical stimulation of the superior laryngeal nerve of man and laboratory animals, except mice and rats. It manifests itself by a short, forcible expiratory effort without a preceding inspiration which is indispensable for cough effort. The role of expiration reflex is to prevent penetration of foreign bodies into airways, expelling phlegm and detritus from subglottal area. The initial inspiration before expiration is undesired and could lead to inspiration pneumonia. The reflex is well known to laryngologists as '"laryngeal cough." Its receptors are small in number, localised mainly in medial margin of vocal folds deep in mucosa which can explain their stability in pathological conditions of the larygx. Afferentiation of the reflex is via laryngeal nerve similarly to sneezing and cough. Expiration reflex is not co-ordinated by a single "centre" but rather by a network system in the brain stem. Its motor pattern is supposedly produced by "multifunctional" population of medullar neurones in Botzinger complex and the rostral ventral respiratory group involved also in the genesis of breathing and cough. However, in cats also other neurones may play a vital role in production, shaping and mediation of the motor pattern of respiratory reflex, localised in rostral pons, lateral tegmental field or in the raphe medullar midline.     

Lipopolysaccharide-induced fever alters Hering–Breuer reflex in anesthetized rats

The aim of the study was to test the hypothesis that control of breathing via Hering–Breuer reflex (HB) is influenced by lipopolysaccharide (LPS)-induced fever in rats. Animals were injected intraperitoneally with LPS and control group with an equivalent volume of saline. HB reflex was elicited by inflations of the lungs followed by occlusion of the airways under control of esophageal pressure. Duration of HB reflex (T_apnoe) was continuously reduced as body temperature rose during experiment. Compared to normothermic controls, animals with fever had significant shortening of T_apnoe at 240 min and 300 min after LPS administration. Fever was further accompanied by a reduction in the strength of HB reflex (inhibitory ratio, IR). In comparison with controls, significant decrease of IR was observed at 300 min after LPS injection. Conclusion: altered neural control of breathing demonstrated by decreased power of Hering–Breuer inflation reflex in conditions of LPS-induced fever may facilitate thermal tachypnoea and/or play a role in the origin of respiratory instability accompanying febrile response.     

Comparison of single/multiple-dose protocols using triethylenemelamine and procarbazine hydrochloride for the mouse bone marrow micronucleus test

Treatment of mice with a single dose of either 4.8 mg/kg of triethylenemelamine (TEM) or 348 mg/kg of procarbazine hydrochloride (PC) induced higher frequencies of micronucleated polychromatic erythrocytes (MPE) after 48 h than after 24 h. The same observation was made when animals were treated with 1.6 or 8 mg/kg of TEM or 116 or 580 mg/kg of PC for 2 consecutive days (double-dose protocol). Surprisingly, the third dose of either 1.6 or 8 mg/kg of TEM caused lower MPE frequencies at the 72-h than at the 48-h sampling time. The observation that lower MPE frequencies after 72 h were also accompanied by reduced bone marrow toxicity might have reflected a drug-related adaptive reaction of the animals, for example the induction of detoxifying enzymes. Mean MPE frequencies as well as bone marrow toxicity were also slightly decreased after the third dose of either 116 or 580 mg/kg of PC, but statistical analysis showed no differences between the 48-h and the 72-h sampling times as regards the MPE frequencies and bone marrow toxicity. In addition to the high mean MPE frequency observed after 2 doses of 116 mg/kg of PC at the 48-h sampling time, a late increase in micronucleus induction was also seen after triple dosing at the 96-h sampling time. The present experiments with TEM and PC showed similar sensitivity for the multiple-dose assays when compared with the single-dose micronucleus test. In the case of the triple-dose assay, bone marrow toxicity proved to be a critical factor for appropriate dose selection. The computerized image analysis system was a convenient and time-saving tool for the automatic scoring of large quantities of cells for micronuclei as well as for the evaluation of bone marrow depression from the entire cell population analyzed for micronuclei.     

Effect of exercise intensity on 24-h energy expenditure and nutrient oxidation.

The aim of this study was to determine the effects of exercise at different intensities on 24-h energy expenditure (EE) and substrate oxidation. Sixteen adults (8 men and 8 women) were studied on three occasions [sedentary day (Con), a low-intensity exercise day (LI; 400 kcal at 40% of maximal oxygen consumption) and a high-intensity exercise day (HI; 400 kcal at 70% of maximal oxygen consumption)] by using whole room indirect calorimetry. Both 24-h EE and carbohydrate oxidation were significantly elevated on the exercise days (Con < LI = HI), but 24-h fat oxidation was not different across conditions. Muscle enzymatic profile was not consistently related to 24-h fat or carbohydrate oxidation. With further analysis, it was found that, compared with men, women sustained slightly higher rates of 24-h fat oxidation (mg x kg FFM(-1) x min(-1)) and had a muscle enzymatic profile favoring fat oxidation. It is concluded that exercise intensity has no effect on 24-h EE or nutrient oxidation. Additionally, it appears that women may sustain slightly greater 24-h fat oxidation rates during waking and active periods of the day.