Heart rate variability and body temperature during the sleep onset period

Heart rate variability (HRV) and body temperature during the sleep onset period was examined. The core body temperature and electrocardiogram were recorded continuously beginning 1 h before lights out (LO) until the end of the first rapid eye movement sleep (REM) in 14 young healthy subjects. HRV was calculated by the MemCalc method. The time course changes in body temperature and HRV was analyzed before and after sleep onset, and during the following eight consecutive phases: the 60 min before LO, the 30 min before LO, LO, first stage 2 (sleep onset), first slow wave sleep (SWS), stage 2 just before REM, start of REM, and end of REM. A clear decline was observed in the ratio of the low frequency (LF) to high frequency (HF) component of HRV (LF/HF), normalized LF (LF/(LF + HF)), and body temperature prior to sleep onset both in the time course of the sleep onset period and in the consecutive phases. The HF increased prior to sleep onset in the consecutive phases, while no clear increase was observed in the time course of sleep onset period. Changes in LF/(LF + HF) and LF/HF preceded SWS and REM. These results suggest the existence of a strong coupling between the cardiac autonomic nervous system and body temperature at the sleep onset period that may not be circadian effects. Furthermore, LF/(LF + HF) and LF/HF may possibly anticipate sleep and the onset of each sleep stage.

     

Respiratory instability during sleep onset.

It has been hypothesized that regulatory control in the respiratory system is state dependent. According to this view respiratory instability during sleep onset is a consequence of repeated fluctuations in arousal state. However, these speculations are based primarily on measurements during stable sleep, not during sleep onset itself. The aim of the present study was to assess changes in ventilation and gas tensions during sleep onset as a function of arousal state. Twenty-one subjects (12 males and 9 females, mean age 20 yr) were assessed over an average of 11.3 sleep onsets. The subject's state was classified as alpha, theta, body movement, or stage 2 sleep, and expiratory tidal volume, minute ventilation, respiratory rate, and end-tidal CO2 and O2 were measured by means of a face mask, valve, and pneumotachograph on a breath-by-breath basis. Respiratory instability during sleep onset was found to be a result of two factors. The first factor was a between-state effect in which transitions from alpha to theta were associated with falls, and from theta to alpha with increases, in ventilation. The magnitude of the change was a positive function of metabolic drive at the time of the state change (as indicated by alveolar PCO2 and PO2 levels). The second was a within-state effect in which ventilation fell during consecutive alpha breaths and increased during consecutive theta breaths. These changes were due to the influence of the relative hyperventilation of the alpha state and the relative hypoventilation of the theta state on metabolic drive.     

Cutaneous vascular function during acute hyperglycemia in healthy young adults.

Although it is well established that severe chronic hyperglycemia is associated with microvascular disease, it is not known whether transient hyperglycemia similar to that observed with impaired glucose tolerance or early Type 2 diabetes contributes to this pathology by altering microvascular function. To test the hypothesis that acute hyperglycemia decreases microvascular vasodilator responsiveness in human skin, we measured the cutaneous vasodilator response to local warming. This response can be divided into two phases, an initial peak that relies predominantly on local sensory nerves and a second slower phase that is largely dependent on endothelial nitric oxide. We reasoned that a change in one or both phases would indicate a change in the corresponding mechanism(s) with hyperglycemia. Twenty-eight healthy volunteers (14 women, 14 men) were randomly divided into three groups, corresponding to 6 h of euglycemia (n = 8), 6 h when glucose was clamped at approximately 7 mmol/l (n = 10), or 6 h when glucose was varied to mimic a postprandial pattern (i.e., peak glucose approximately 11.1 mmol/l) commonly observed in individuals with impaired glucose tolerance (n = 10). Insulin concentrations in all instances were maintained at approximately 65 pmol/l by means of continuous infusions of somatostatin and insulin. Glucagon and growth hormone were also continuously infused to maintain their basal concentrations. Despite substantial differences in both the level and pattern of glucose concentrations, neither maximum cutaneous vasodilation nor the pattern of the vasodilator response to local warming differed over the 6 h of study. We conclude that acute hyperglycemia similar to levels commonly observed in people with either early Type 2 diabetes or impaired glucose tolerance does not alter the vasodilator response to local warming of the skin in humans.     

Correlation between ventilation and EEG-defined arousal during sleep onset in young subjects

Trinder, John, John A. Van Beveren, Philip Smith, JanKleiman, and Amanda Kay. Correlation between ventilation and EEG-defined arousal during sleep onset in young subjects.J. Appl. Physiol. 83(6):2005-2011, 1997.In studies of elderly individuals, ventilationand EEG-defined arousal have been shown to vary periodically andsynchronously. Such results have been interpreted as indicating theprimacy of sleep/wake state in causing ventilatory instability duringsleep onset. However, because the elderly individuals studied wereperiodic breathers, the results do not unequivocally support thisconclusion. In this study the relationship between ventilation andEEG-defined arousal was assessed in a group of 21 young, healthy men inwhom ventilatory instability during sleep onset was not periodic.Ventilation and EEG(O₁-A₂)recordings were collected, and the longest uncontaminated periods fromearly and late in sleep onset were selected for subsequent analysis.The 84 time series (21 subjects, 2 variables, and 2 occasions in sleeponset) were subjected to spectral analysis to identify periodicity, and the relationship between the two variables was determined bycross-correlational methods. The results indicated that the time serieswere nonperiodic, yet significant correlations were observed betweenthe two variables. The data support the view that during sleep onsetventilatory instability is driven primarily by variations in sleep/wakearousal level.

     

Sleep logs of young adults with self-selected sleep times predict the dim light melatonin onset

The purpose of this study was to determine whether a sleep log parameter could be used to estimate the circadian phase of normal, healthy, young adults who sleep at their normal times, and thus naturally have day-to-day variability in their times of sleep. Thus, we did not impose any restrictions on the sleep schedules of our subjects (n = 26). For 14 d, they completed daily sleep logs that were verified with wrist activity monitors. On day 14, salivary melatonin was sampled every 30 min in dim light from 19:00 to 07:30 h to determine the dim light melatonin onset (DLMO). Daily sleep parameters (onset, midpoint, and wake) were taken from sleep logs and averaged over the last 5, 7, and 14 d before determination of the DLMO. The mean DLMO was 22:48 +/- 01:30 h. Sleep onset and wake time averaged over the last 5 d were 01:44 +/- 01:41 and 08:44 +/- 01:26 h, respectively. The DLMO was significantly correlated with sleep onset, midpoint, and wake time, but was most strongly correlated with the mean midpoint of sleep from the last 5 d (r = 0.89). The DLMO predicted using the mean midpoint of sleep from the last 5 d was within 1 h of the DLMO determined from salivary melatonin for 92% of the subjects; in no case did the difference exceed 1.5 h. The correlation between the DLMO and the score on the morningness-eveningness questionnaire was significant but comparatively weak (r = -0.48). We conclude that the circadian phase of normal, healthy day-active young adults can be accurately predicted using sleep times recorded on sleep logs (and verified by actigraphy), even when the sleep schedules are irregular.     

Ventilation during sleep onset

There is now considerable evidence which indicates that respiratory activity is different during sleep compared with wakefulness. However, there has been little work on respiratory changes during the transitional period from wakefulness to sleep. The present study was concerned with the quantitative and temporal properties of ventilation during sleep onset. Sleep onsets were studied in five young male adults in a series of single-subject designs in which sleep onsets were replications. The results indicated that during sleep onset the loss of alpha-activity in the electroencephalogram was associated with a substantial, rapid, and highly predictable reduction in ventilation. The change in ventilation was typically due to a reduction in tidal volume and was, in part, secondary to a reduction in metabolic rate. We speculate that the nonmetabolic component may reflect the loss of waking neural drive to respiration, though the present study did not eliminate a variety of other interpretations.     

Load compensation as a function of state during sleep onset

Ventilation decreases and airway resistanceincreases with the loss of electroencephalogram alpha activity at sleeponset. The aim of this study was to determine whether reflexive load compensation is lost immediately on the loss of alpha activity. Sixhealthy male subjects were studied under two conditions (load andcontrol-no load), in three states (continuous alpha, continuous theta,and immediately after a transition from alpha to theta), and in twophases (early and late sleep onset). Ventilation and respiratory timingwere measured. A comparison of loaded with control conditions indicatedthat loading had no effect on inspiratory minute ventilation duringcontinuous alpha (differential effect of 0.00 l/min) and only a small,nonsignificant effect in theta immediately after phase2 transitions (0.31 l/min), indicating a preservationof load compensation at these times. However, there were significantdecreases in inspiratory minute ventilation on loaded trials duringcontinuous theta in phase 2 (0.77 l/min) and phase 3 (1.15 l/min) andduring theta immediately after a transition in phase3 (0.87 l/min), indicating a lack of reflexive loadcompensation. The results indicate that, because reflex load compensation is state dependent, state-related changes in airway resistance contribute to state-related changes in ventilation duringsleep onset. However, this effect was slightly delayed with transitionsinto theta early in sleep.

     

Effects of exhaustive submaximal exercise on cardiovascular function during sleep

The influence of an afternoon bout of exhaustive submaximal exercise on cardiovascular function and catecholamine excretion during sleep was examined in five female and four male subjects. Subjects walked on a treadmill for successive 50-min periods at 50, 60, and 70% maximal O2 consumption, separated by 10-min rest periods. Exercise terminated with volitional exhaustion. Following an adaptation night, electroencephalographic and impedance cardiographic measures were obtained during three successive nights of sleep, with exercise preceding night 3. Relative to the base-line night (night 2), exhaustive exercise resulted in a sustained elevation of heart rate and cardiac output throughout the entire night's sleep. The magnitude of these elevations was unaffected by sleep stage but decreased over the night. The typical pattern of circadian decline in cardiac output was unaltered. However, the decline in heart rate with sleep onset was greater on the exercise night. Changes in impedance dZ/dt and R-Z interval suggested an enhanced myocardial contractility during the first 3 h of sleep postexercise. Analysis of morning urine samples revealed that in seven of nine subjects norepinephrine excretion increased, epinephrine excretion decreased, and dopamine excretion was unchanged during sleep on the exercise night. It is suggested that these cardiac changes reflect a sustained increase in myocardial beta-receptor activity.     

Circadian relations among cardiovascular variables of young adults.

Every 4 hours for 24 hours, 14 clinically healthy young individuals (6 women and 8 men), 26 +/- 4 years of age, measured systolic (S) and diastolic (D) blood pressure (BP) by sphygmomanometer and heart rate by ECG and did impedance cardiography under usual living conditions. Stroke volume (SV), cardiac output (CO) and total peripheral resistance (TPR) were calculated. Time series of SBP, DBP, HR, SV, CO and TPR were analyzed by single and population-mean cosinor. A circadian cardiovascular rhythm is demonstrated by rejection of the zero amplitude assumption in the population-mean cosinor test for SBP, DBP, HR, SV, CO and TPR (P < 0.01). TPR peaks around 0400 (-61 degrees from local midnight), in antiphase with all other variables, their acrophase occurring around 1600 (-240 degrees). A circadian rhythm of statistical significance or of borderline statistical significance is found for all variables except TPR in women. Circadian rhythm characteristics were otherwise mostly similar in men and women with a statistically significant gender difference found by parameter tests only for the MESOR and amplitude of SBP.     

Upper airway muscle activity and upper airway resistance in young adults during sleep

Henke, Kathe G. Upper airway muscle activity and upperairway resistance in young adults during sleep. J. Appl. Physiol. 84(2): 486-491, 1998.To determinethe relationship between upper airway muscle activity and upper airwayresistance in nonsnoring and snoring young adults, 17 subjects werestudied during sleep. Genioglossus and alae nasi electromyogramactivity were recorded. Inspiratory and expiratory supraglotticresistance (Rinsp and Rexp, respectively) were measured at peak flow,and the coefficients of resistance(K_insp andK_exp,respectively) were calculated. Data were recorded during control,with continuous positive airway pressure (CPAP), and on the breathimmediately after termination of CPAP. Rinsp during control averaged 7 ± 1 and 10 ± 2 cmH₂O · l¹ · sand K_inspaveraged 26 ± 5 and 80 ± 27 cmH₂O · l¹ · s²in the nonsnorers and snorers, respectively(P = not significant). Onthe breath immediately after CPAP,K_insp did notincrease over control in snorers (80 ± 27 for control vs. 46 ± 6 cmH₂O · l¹ · s²for the breath after CPAP) or nonsnorers (26 ± 5 vs. 29 ± 6 cmH₂O · l¹ · s²).These findings held true for Rinsp.K_exp did notincrease in either group on the breath immediately after termination ofCPAP. Therefore, 1) increases inupper airway resistance do not occur, despite reductions inelectromyogram activity in young snorers and nonsnorers, and2) increases in Rexp and expiratoryflow limitation are not observed in young snorers.

     

Ventilation is unstable during drowsiness before sleep onset.

Ventilation is unstable during drowsiness before sleep onset. We have studied the effects of transitory changes in cerebral state during drowsiness on breath duration and lung volume in eight healthy subjects in the absence of changes in airway resistance and fluctuations of ventilation and CO2 tension, characteristic of the onset of non-rapid eye movement sleep. A volume-cycled ventilator in the assist control mode was used to maintain CO2 tension close to that when awake. Changes in cerebral state were determined by the EEG on a breath-by-breath basis and classified as alpha or theta breaths. Breath duration and the pause in gas flow between the end of expiratory airflow and the next breath were computed for two alpha breaths which preceded a theta breath and for the theta breath itself. The group mean (SD) results for this alpha-to-theta transition was associated with a prolongation in breath duration from 5.2 (SD 1.3) to 13.0 s (SD 2.1) and expiratory pause from 0.7 (SD 0.4) to 7.5 s (SD 2.2). Because the changes in arterial CO2 tension (PaCO2) are unknown during the theta breaths, we made in two subjects a continuous record of PaCO2 in the radial artery. PaCO2 remained constant from the alpha breaths through to the expiratory period of the theta breath by which time the duration of breath was already prolonged, representing an immediate and altered ventilatory response to the prevailing PaCO2. In the eight subjects, the CO2 tension awake was 39.6 Torr (SD 2.3) and on assisted ventilation 38.0 Torr (1.4). We conclude that the ventilatory instability recorded in the present experiments is due to the apneic threshold for CO2 being at or just below that when awake.     

Ventilatory instability during sleep onset in individuals with high peripheral chemosensitivity.

Previous work has shown that the magnitude of state-related ventilatory fluctuations is amplified over the sleep-onset period and that this amplification is partly due to peripheral chemoreceptor activity, because it is reduced by hyperoxia (J. Dunai, M. Wilkinson, and J. Trinder. J. Appl. Physiol. 81: 2235-2243, 1996). These data also indicated considerable intersubject variability in the magnitude of amplification. A possible source of this variability is individual differences in peripheral chemoreceptor drive (PCD). We tested this hypothesis by measuring state-related ventilatory fluctuations throughout sleep onset under normoxic and hyperoxic conditions in subjects with high and low PCD. Results demonstrated that high-PCD subjects experienced significantly greater amplification of state-related ventilatory fluctuations than did low-PCD subjects. In addition, hyperoxia significantly reduced the amplification effect in high-PCD subjects but had little effect in low-PCD subjects. These results indicate that individuals with high PCD are likely to experience greater sleep-related ventilatory instability and suggest that peripheral chemoreceptor activity can contribute to sleep-disordered breathing.     

Lipid oxidation in fit young adults during postexercise recovery.

To evaluate the hypothesis that lipid oxidation predominates in postexercise recovery, we examined healthy men (n = 6; age = 21.2 +/- 0.6 yr) and women (n = 6; age = 22.8 +/- 2.1 yr) during and after two exercise tasks [89 min at 45% and 60 min at 65% of peak rate of oxygen consumption (V(O2 peak))] as well as a time-matched resting control trial (Con). Exercise bouts were matched for energy expenditure. Respiratory exchange ratios (RER) during exercise at 65% V(O2 peak) for both men and women (0.95 +/- 0.01 and 0.93 +/- 0.02) were significantly higher than 45% V(O2 peak) (0.89 +/- 0.01 and 0.86 +/- 0.02) and Con trials (0.86 +/- 0.01 and 0.86 +/- 0.02, respectively). During recovery, for men RER values were 0.78 +/- 0.01 and 0.76 +/- 0.01 after 45% and 65% exercise, respectively. For women, values were 0.79 +/- 0.01 and 0.78 +/- 0.01. These were significantly lower than during both the preexercise resting period and the corresponding no-exercise Con period (0.82 +/- 0.01 and 0.83 +/- 0.01, mean RER for men and women, respectively). Hence, the contribution of lipid oxidation to energy supply increased significantly during recovery compared with preexercise levels, and it was greater after exercise than during the time-matched, no-exercise Con period. It is concluded that, although carbohydrate is the major fuel source during moderate- to high-intensity exercise, 1) there is substantial postexercise lipid oxidation; and 2) lipid oxidation is the same during postexercise recovery whether the relative power output is 45% or 65% of V(O2 peak) when energy expenditure of exercise is matched.     

Gonadal function in young adults after surgical treatment of cryptorchidism.

In a follow-up study of 48 young men who had been surgically treated for cryptorchidism before puberty testicular function was assessed by examining the genitalia, testicular volume, secondary sex characteristics, semen, plasma luteinising hormone (LH) and follicle-stimulating hormone (FSH) concentrations after luteinising hormone-releasing hormone stimulation, and plasma testosterone concentrations. Clinical androgen effects were normal. The mean testicular volume of both testes was in the low normal range in those who had had unilateral cryptorchidism and below normal in those who had had bilateral cryptorchidism. Of 37 patients whose sperm counts were recorded (14 bilateral) six showed azoospermia (all bilateral), five had severe oligospermia (four bilateral), and 10 had moderate oligospermia (one bilateral). In nearly all those who had had bilateral cryptorchidism and most of those who had had unilateral cryptorchidism plasma gonadotrophin levels were increased. Four cases of possible partial LH deficiency were identified. Plasma testosterone concentrations were normal in all except two patients.     

Nighttime cell phone use and sleep quality in young adults

Sleep and Biological Rhythms - Young adults are particularly vulnerable to sleep disturbances related to their cell phone use (CPU). The purpose of this study was to test Sleep Displacement and...     

Changes in plasma testosterone levels during the peri-hatching period in the chicken.

Blood was obtained by heart puncture from 19-day-old Black Sex link chicken embryos and from Black Sex link chickens at 1.5, 6, or 24 h post-hatching. Plasma testosterone was determined by gas chromatography-mass spectrometry associated with stable isotope dilution. At 19 days the plasma of male and female chick embryos contains measurable amounts of testosterone and levels do not differ between sexes. After hatching plasma testosterone gradually declines from pre-hatch concentrations in males and females, but in all the post-hatch ages studied, plasma testosterone was significantly higher in male than in female chicks. These results indicate that in male chickens, contrary to mammals at birth, there is no surge in plasma testosterone at hatching.