Ki-Ja Hyun

The effects of skin pressure by clothing on circadian rhythms of core temperature and salivary melatonin.

The present experiment investigated the effects of skin pressure by foundation garments (girdle and brassiere) on the circadian rhythms of core temperature and salivary melatonin. Ten healthy females (18–23 years) maintained regular sleep-wake cycles for a week prior to participation in the experiment. The experiments were performed from June to August 1999 using a bioclimatic chamber controlled at 26.5°C ± 0.2°C and 62% ± 3% RH. Ambient light intensity was controlled at 500 lux from 07:30 to 17:30, 100 lux from 17:30 to 19:30, 20 lux from 19:30 to 23:30; there was total darkness from 23:30 to 07:30. The experiment lasted for 58h over three nights. The participants arose at 07:30 on the first full day and retired at 23:30, adhering to a set schedule for 24h, but without wearing foundation garments. For the final 24h of the second full day, the subjects wore foundation garments. Rectal and leg skin temperatures were measured continuously throughout the experiment. Saliva and urine were collected every 4h for the analysis of melatonin and catecholamines, respectively. Skin pressure applied by the foundation garments was in the range 11–17 gf/cm2 at the regions of the abdomen, hip, chest, and back. The main results were as follows: (1) Rectal temperatures were significantly higher throughout the day and night when wearing foundation garments. (2) The nocturnal level of salivary melatonin measured at 03:30 was 115.2 ± 40.4 pg/mL (mean ± SEM, N = 10) without and 51.3 ± 18.4 pg/mL (mean ± SEM, N = 10) with foundation garments. (3) Mean urinary noradrenaline excretion was significantly lower throughout the day and night when wearing foundation garments (p <. 05), but mean urinary adrenaline excretion was not different. The results suggest that skin pressure by clothing could markedly suppress the nocturnal elevation of salivary melatonin, resulting in an increase of rectal temperature. (Chronobiology International, 17(6) 783–793, 2000)

Effects of Dim or Bright-Light Exposure During the Daytime on Human Gastrointestinal Activity

On the basis of our previous findings that bright-light exposure during the daytime has profound influence on physiological parameters such as melatonin secretion and tympanic temperature in humans, we proposed the hypothesis that bright vs. dim light-exposure during the daytime has a different influence on the activity of the digestive system via the endocrine and/or autonomic nervous system. To examine this hypothesis, we conducted a series of counterbalanced experiments in which subjects stayed the daytime (7:00 to 15:00h) under either a dim (80 lux) or bright (5,000 lux) light condition. We measured gastrointestinal activity using a breath hydrogen (indicative of carbohydrate malabsorption) and an electrogastrography (EGG, indicative of gastric myoelectric activity) test. The results showed the postprandial breath hydrogen excretion during the following nighttime period after daytime exposure to the dim-light condition was significantly higher than under the bright-light condition (p<0.05). In addition, the spectrum total power of the EGG recorded after taking the evening meal was significantly lower for the dim than bright-light condition (p<0.05). These results support our hypothesis and indicate that dim-light exposure during the daytime suppresses the digestion of the evening meal, resulting in malabsorption of dietary carbohydrates in it.

Increase in parasympathetic nerve activity during the nighttime following bright light exposure during the daytime

A spectral analysis of heart rate was carried out on 11 young female adults in order to evaluate the effects of bright light exposure on autonomic nervous activity. Bright light (5,000 lx) was provided by fluorescent lamps during the daytime (07:00–15:00) on day 1. Dim light (200 lx) was given on day 2. High frequency components (HF: 0.15–0.4Hz) were used as a marker of parasympathetic activity and the ratio of low frequency (LF: 0.04–0.15 HZ) to high frequency (LF/HF) as an indicator of sympathetic activity. The average value during the sleep period (23:30–06:30) was compared following diurnal exposure to bright or dim light. HF component was significantly greater from 23:30 to 02:00 after diurnal exposure of bright light, being accompanied by lower heart rate during these periods. There existed negative correlation between heart rate and HF component from 23:30 to 02:00 under diurnal exposure to bright and dim lights. The results indicate that bright light exposure during the daytime (07:00–15:00) could enhance parasympathetic activity around midnight.

Influence of the Amount of Light Received during the Day and Night Times on the Circadian Rhythm of Melatonin Secretion in Women Living Diurnally

The study investigated the relationship between the circadian variation of salivary melatonin and the amount of light received during the day and night. Forty one females served as subjects. An illuminance meter worn on the wrist of the non-dominant arm measured the amount of light which subjects leading a diurnal lifestyle received during two consecutive days. Light received from the time of rising to 18:00h was defined as ‘daytime light’, and that from 18:00h to the time of retiring as ‘nighttime light’. The average amount of light over the two days was 48 × 10 4 lx during the daytime and 11 × 10 4 lx during the nighttime. Saliva was collected every 4h in order to measure melatonin secretion. Peaks of melatonin secretion were observed at 14:00h and 18:00h in the subjects who had received lesser amounts of light during the daytime and nighttime. Melatonin secretion was high around 22:00h and peaked around 02:00h in the subjects who had received greater amounts of light during the daytime and lesser amounts of light during the nighttime. Nocturnal melatonin secretion was suppressed in the subjects who received greater amounts of light during the nighttime. Thus, the amount of light received during the daytime and the nighttime during the course of a diurnal lifestyle could have a profound influence on the circadian pattern of melatonin secretion.

Circadian Rhythms of Core Body Temperature and Urinary Noradrenaline Secretion under the Influence of Skin Pressure due to Foundation Garments Worn during Wakefulness

The present experiment investigated the effects of skin pressure by foundation garments (brassiere plus girdle) worn during wakefulness on the circadian rhythms of core temperature and endocrine secretion. Eight healthy females (18–23 yrs) maintaining regular sleep-wake cycles for a week prior to participation in the experiment served as participants. The experiments were performed from June to August, 1999, using a bioclimatic chamber controlled at 26.5 ± 0.2°C and 62 ± 3% RH. Ambient light intensity was controlled at 500 lx from 07:30 h to 17:30 h, 100 lx from 17:30 h to 19:30 h, 20 lx from 19:30 h to 23:30 h and there was total darkness from 23:30 h to 07:30 h. The experiment lasted for 58?h over 3 nights. The participant rose at 07:30?h in the morning of the first day and retired at 23:30 h, adhering to a set schedule for 24 h but without wearing foundation garments. From 07:30 h to 23:30 h of the second day the participant wore foundation garments but did not wear foundation garments during the sleep. Rectal and leg skin temperatures were continuously measured throughout the experiment. Urine was collected every 4 h for the analysis of catecholamines. Skin pressure applied by the foundation garments was in the range 11–17 gf/cm2 at the regions of abdomen, hip, chest and back. The main results were as follows: Rectal temperature was significantly higher (p < 0.01) during wakefulness, but significantly lower (p < 0.01) during sleep with than without foundation garments. Furthermore, the amplitude of rectal temperature was larger with than without foundation garments (p < 0.033). Urinary noradrenaline was mostly lower with foundation garments throughout the day and night. The results suggest that skin pressure by foundation garments worn during wakefulness could influence the level of core body temperature and noradrenaline secretion not only during wakefulness, but also during sleep.

Circadian rhythm of acute phase proteins under the influence of bright/dim light during the daytime.

We investigated the influence of two different light intensities, dim (100 lx) and bright (5,000 lx), during the daytime on the circadian rhythms of selected acute phase proteins of C‐reactive protein (CRP), α1‐acid glycoprotein (AGP), α1‐antichymotrypsin (ACT), transfferin (TF), α2‐macroglobulin (α2‐m), haptoglobin (HP), and ceruloplasmin (CP). Serum samples were collected from 7 healthy volunteers at 4 h intervals during two separate single 24 h spans during which they were exposed to the respective light intensity conditions. A circadian rhythm was detected only in ACT concentration in the bright light condition. The concentration of ACT, a positive acute phase protein (APP), increased (significantly significant differences in the ACT concentration were detected at 14:00 and 22:00 h) and AGP showed a tendency to be higher under the daytime bright compared to dim light conditions. There were no significant differences between the time point means under daytime dim and bright light conditions for α2‐M, AGP, Tf, Cp, or Hp. The findings suggest that some, but not all, APP may be influenced by the environmental light intensity.

Effect of Dim and Bright Light Exposure on Some Immunological Parameters Measured under Thermal Neutral Conditions

This study assesses the effects of ambient light conditions, under a thermoneutral environment, on selected immunological parameters of 7 healthy young women (aged 19 to 22 yrs). Subjects entered the bioclimatic chamber at 11∶00 h, controlled at 26°C and 60% relative humidity, a “neutral climate”. They lead a well‐regulated life in the climatic chamber (pre‐condition) while exposed to dim (200 lux) or, on the next day, bright (5000 lux) light between 06∶00 to 12∶00 h. Just before the end of each period of light exposure, a blood sample was taken for later immunological assay of white blood cell count (WBC), phagocytosis, interferon‐γ (IFN‐γ), interleukin‐4 (IL‐4), CD69 T cells (CD69), CD4+CD25+ T cells (CD4+CD25+), and transforming growth factor‐β 1 (TGF‐β1). The results, when compared with the pre‐condition, were as follows: 1) CD69 and IFN‐γ increased during normal conditions without thermal stress under dim light; 2) WBC increased and IL‐4 decreased under bright light; 3) as shown by the highly significant decrease of TGF‐β1, the immune system was activated under bright light; 4) phagocytosis tended to increase under bright light exposure; 5) CD69 and IFN‐γ were significantly higher, and CD4+CD25+ tended to decrease under bright light; 6) phagocytosis tended to be lower and TGF‐β1 significantly higher under dim light, indicating a decline of immune system function. Taken together, this preliminary single time‐point sampling study infers that some parameters are activated (CD69) while others are attenuated (phagocytosis, TGF‐β1) according to the environmental light intensity, dim vs. bright, in women adhering to a standardized routine in the absence of thermal stress. These findings are discussed in terms of inhibition of the sympathetic and excitation of the parasympathetic nervous system under the influence of life‐style regularity and daytime bright light exposure.