Features of the circadian rhythm of temperature of the skin at children of 8-9 years and young men and girls

Problem of the present work was studying age features circadian rhythm of temperature of a skin with application of a method "Termochron iButton". Day-night rhythm of a skin temperature at two age-grades was investigated: boys and girls of 8-9 years and young men and girls of 20-22 years. For this purpose monitoring temperature during 48 hours with an interval of registration 10 minutes has been lead. Are revealed authentic chronobiological differences: mesor temperatures above at girls, than at boys, and at young men, above, than at girls. Amplitude of a circadian rhythm is above at boys and at girls. Researches chronobiological parameters in the different terms of day have shown, that an average level of temperature at night below at all examinees. The amplitude at adult people in the different terms of day does not differ, while at children it above in the night term.     

Amplitude of the oral temperature circadian rhythm and the tolerance to shift-work

The aim of the study was to test the hypothesis of a relationship between the tolerance to shift-work and the amplitude of the oral temperature circadian rhythm. Forty eight shift-workers (Rh?ne-Alpes Region) volunteered for this chronophysiological investigation: a) 23 steel-industry workers (SI); shift-duration: 7 days (weekly rotation); b) 25 chemical-industry workers (CI); shift-duration 2 days. The subjects' ages were roughly similar with regard to groups (SI and CI) as well as sub-groups (good and poor tolerance of shift-work). The tolerance was evaluated conventionally, according to both the existence and intensity of 3 types of medical complaint: (1) digestive troubles: gastritis, colitis, peptic ulcer etc.; (2) persisting fatigue, unusual nerviness, etc.; (3) sleep alterations. The poor tolerance was observed mostly in subjects shift-working for 10 years or more. Regular large-scaled and retested medical Hg thermometers (1/20 Celsius precision) were used. Data were recorded 2-hourly, at fixed clock hours in order to obtain individual time series. Both conventional and cosinor statistical analysis show that, in both groups, the oral temperature circadian amplitude is larger in subjects tolerant to shift-work than in subjects that have become intolerant.     

Suprachiasmatic nucleus and circadian core temperature rhythm in the rat

Core temperature was telemetered from 26 singly-housed adult male inbred Fischer rats standardized in an ambient temperature of 24 ± 1°C, in light from 0600–1800 alternating with darkness (L:D 12:12), with food and water freely available. The rats were operated upon first for bilateral electrolytic lesioning of the suprachiasmatic nucleus (SCN) or by a sham-operation, which consisted of an inserted electrode which neither penetrated into the SCN area nor was activated to produce a lesion. Next, a temperature sensor was implanted intraperitoneally. The telemetered data obtained at 10-min intervals from each rat were analyzed by the least-squares fit of certain trial periods (cosinor methods). A circadian population rhythm persisted in the SCN-lesioned rats which sustained destruction of both SCN (P < 0.01). The amplitude of the circadian temperature rhythm was attenuated(P < 0.01) and the rhythm's acrophase advanced (P < 0.05) from mid-dark to a time near the transition from light to darkness. Unilateral lesions of the suprachiasmatic nuclei altered the circadain amplitude but not the phasing.     

Emergence and evolution of the circadian rhythm of melatonin in children

OBJECTIVE: To assess the age at which the circadian rhythm of melatonin begins. METHODS: 55 children, divided into groups from the neonatal period to 24 months of life, were studied. Urine samples were taken from 28 newborn babies to measure 6-sulfatoxymelatonin (aMT6s). Salivary samples were collected from infants (27 cases), to measure melatonin (aMT). aMT was measured by RIA and aMT6s by ELISA using commercial kits. Changes in the levels of aMT6s and aMT were evaluated using the Friedman test and Wilcoxon matched pair test. RESULTS: The group aged 27-41 days showed statistically significant differences in daily aMT6s and aMT concentrations. The highest values were always found between 24.00 and 8.00 h. This day/night difference persisted from 2-3 to 13-24 months of age. CONCLUSION: The data indicate that the circadian melatonin rhythm appears at the end of the neonatal period and persists thereafter.     

The individual development of circadian temperature rhythm in infants

Abstract

The aim of this study was to explore the individual development of the circadian rhythm of human body temperature. Dailyperiodicchanges of body temperature were examined longitudinally in four infants from 3 to 18 months of age. At the 3rd month of life, the day‐night rhythm of the body temperature was obscure but at the 6th month it became moreevident. From the 12th month on, the circadian temperature rhythm with phase similar to that of the adult was discerned. However, the amplitude in circadian rhythm was significantly larger in children between 6 and 18 months of age than in the adult. These findings suggest that the adult type of circadian rhythm of human body temperature is established during the first year of life with regard to phase but not to amplitude.     

Control of the circadian rhythm of the body temperature in the rat

The circadian rhythm of the rat body temperature is abolished in rats kept either in constant dark or light or blinded. The suppressive effects act most likely via the retinas. The rhythm can be inverted by reversal of the lighting regimen and it is unaffected by pinealectomy. Most likely the circadian rhythm is not related to changes in patterns of motor activity.     

The development of circadian rhythm of human body temperature

Abstract

Daily periodic changes of body temperature were examined in 138 subjects ranging in age between 5 days and 44 years. Whereas the circadian rhythm of human body temperature was not discerned in newborn babies, body temperatures were higher during daytime than during nighttime in infants over one month. Temperature rhythm similar to that of adults, with respect to phase, was observed in the age groups of ten to eleven months and over, earlier than previously reported. The amplitude in circadian oscillation was, however, significantly larger in children between 7 months and 7 years of age than in adults. Thus, it is concluded that the adult type of circadian rhythm of human body temperature is fully established with respect to phase and amplitude after 7 years of age.     

The development of new purification methods to assess the circadian rhythm of body temperature in Mongolian gerbils

Six Mongolian gerbils were studied for 8-10d while housed in separate cages in a 12:12h light-dark (L-D) cycle (lights on at 07:00h). Recordings of body temperature, heart rate, and spontaneous activity were made throughout. The temperature and heart rate rhythms were “purified” to take into account the effects of activity, and then the rhythm of temperature was further purified to take into account other masking influences (“non-activity masking effects” or NAME,). The methods employed in the purification processes involved linear regression analysis or analysis of covariance, the latter using functions of activity and NAME as covariates. From these methods, it was possible to obtain not only an estimate of the endogenous component of the temperature rhythm but also a measure of circadian changes in the sensitivity of temperature to masking effects.

Even though all purification methods removed many of the effects of spontaneous activity from the temperature record, there remained temperature fluctuations at the L-D and D-L transitions that appeared to be independent of activity. The NAME was of only very marginal value in the purification process. Comparison of the purification methods indicated that the linear methods were inferior (both from a biological viewpoint and when the results were compared mathematically) to those that allowed the rate of rise of temperature due to increasing amounts of activity to become progressively less. The sensitivity of temperature and heart rate to the masking effects of activity showed a circadian rhythm, with sensitivities in the resting phase being greater than those in the active phase. These findings are compatible with the view that thermoregulatory reflexes are induced by spontaneous activity of sufficient amount, and that there is a circadian rhythm in the body temperature at which these reflexes are initiated and in their effectiveness.     

Effects of ultradian lighting and feeding schedules on the circadian rhythm of body temperature in monkeys

In estimating, by use of cosinor-test, the 12- and 24-h component parameters of body temperature circadian rhythm in monkeys under ultradian schedules of lighting and feeding (LD 6:6; DL 6:6) we have shown that an intensive 12-h component is registered in both cases. The presence of a 24-h component of circadian rhythm depends on the zeitgeber phase. This component is present in LD 6:6 (lighting hours 07:00-13:00 and 19:00-01:00) and is absent in DL 6:6 (01:00-07:00 and 13:00-19:00). We hold that the most satisfactory explanation of the phenomena observed is that 12-h component is the result of a masking effect induced by the 12-h schedule (exogenous component) whereas the 24-h component reflects the intrinsic pacemaker work (endogenous component). It should be noted that in our case the masking effect in body temperature rhythm is circadian phase-dependent.     

Neuropeptide chronomics in clinically healthy young adults: circaoctohoran and circadian patterns

Endothelin-1 (ET-1) undergoes an about 8-h (circaoctohoran) rather than a circadian variation in clinical health. Herein, 24 h plasma concentrations of vasoactive intestinal peptide (VIP), substance P (SP), neuropeptide Y (NpY), and cortisol used as reference, were obtained from 20 healthy young adults starting at 07:00 or 19:00 h. Like ET-1, SP and NpY undergo a circaoctohoran variation, whereas VIP is circadian rhythmic, peaking during the night, some 8 h prior to the circadian acrophase of cortisol. Maps of circadian and extra-circadian patterns may serve for screening, diagnosis and a better understanding of mechanisms underlying the etiology of various diseases.     

Estimation of the core temperature control during ambient temperature changes and the influence of circadian rhythm and metabolic conditions in mice

It has been speculated that the control of core temperature is modulated by physiological demands. We could not prove the modulation because we did not have a good method to evaluate the control. In the present study, the control of core temperature in mice was assessed by exposing them to various ambient temperatures (T_a), and the influence of circadian rhythm and feeding condition was evaluated. Male ICR mice (n=20) were placed in a box where T_a was increased or decreased from 27 °C to 40 °C or to −4 °C (0.15 °C/min) at 0800 and 2000 (daytime and nighttime, respectively). Intra-abdominal temperature (T_core) was monitored by telemetry. The relationship between T_core and T_a was assessed. The range of T_a where T_core was relatively stable (range of normothermia, RNT) and T_core corresponding to the RNT median (regulated T_core) were estimated by model analysis. In fed mice, the regression slope within the RNT was smaller in the nighttime than in the daytime (0.02 and 0.06, respectively), and the regulated T_core was higher in the nighttime than in the daytime (37.5 °C and 36.0 °C, respectively). In the fasted mice, the slope remained unchanged, and the regulated T_core decreased in the nighttime (0.05 and 35.9 °C, respectively), while the slopes in the daytime became greater (0.13). Without the estimating individual thermoregulatory response such as metabolic heat production and skin vasodilation, the analysis of the T_a–T_core relationship could describe the character of the core temperature control. The present results show that the character of the system changes depending on time of day and feeding conditions.     

Light and temperature cooperate to regulate the circadian locomotor rhythm of wild type and period mutants of Drosophila melanogaster

In the wild type (Canton-S) and period mutant flies of Drosophila melanogaster, we examined the effects of light and temperature on the circadian locomotor rhythm. Under light dark cycles, the wild type and per(S) flies were diurnal at 25 degrees C. However, at 30 degrees C, the daytime activity commonly decreased to form a rather nocturnal pattern, and ultradian rhythms of a 2 approximately 4h period were observed more frequently than at 25 degrees C. The change in activity pattern was more clearly observed in per(0) flies, suggesting that these temperature dependent changes in activity pattern are mainly attributable to the system other than the circadian clock. In a 12h 30 degrees C:12h 25 degrees C temperature cycle (HTLT12:12), per(0) flies were active during the thermophase in constant darkness (DD) but during the cryophase in constant light (LL). The results of experiments with per(0);eya flies suggest that the compound eye is the main source of the photic information for this reversal. Wild type and per(0) flies were synchronized to HTLT12:12 both under LL and DD, while per(S) and per(L) flies were synchronized only in LL. This suggests that the circadian clock is entrainable to the temperature cycle, but the entrainability is reduced in the per(S) and per(L) flies to this particular thermoperiod length, and that temperature cycle forces the clock to move in LL, where the rhythm is believed to be stopped at constant temperature.     

The diurnal fluctuations in unincorporated radio-thymidine pool and its relation to the circadian rhythm of thymidine incorporation in mouse pinna skin

The circadian variation in the labelling indices of epidermal basal and sebaceous gland cells in murine pinna is a well documented phenomenon. This, however, observes only the incorporated label and takes no account of any rhythmic changes in the precursor pool. It is reported here that, using a liquid scintillation counting method, there is a diurnal change in the level of unincorporated radio-labelled thymidine, which is apparently not related to the rhythm of thymidine incorporation. The implications of this phenomenon and its relationship to DNA synthesis are discussed.