Abstract
In humans, most renal functions, including urine volume and electrolyte excretions, have a circadian rhythm. Light is a strong circadian entrainment factor and daytime-light exposure is known to affect the circadian rhythm of rectal temperature (RT). The effects of daytime-light exposure on the diurnal rhythm of urinary excretion have yet to be clarified. The aim of this study was to clarify whether and how daytime exposure to bright-light affects urinary excretions. Twenty-one healthy men (21–27 years old) participated in a 4-day study involving daytime (08:00–18:00 h) exposure to two light conditions, Dim (< 50 lx) and Bright (~ 2500 lx), in a random order. During the experiment, RT was measured continuously. Urine samples were collected every 3 ~ 4 h. Compared to the Dim condition, under the Bright condition, the RT nadir time was 45 min earlier (p = 0.017) and sodium (Na), chloride (Cl), and uric acid (UA) excretion and urine volumes were greater (all p < 0.001), from 11:00 h to 13:00 h without a difference in total daily urine volume. The present results suggest that daytime bright light exposure can induce a phase shift advance in urine volume and urinary Na, Cl, and UA excretion rhythms.
Highlights
In humans, most renal functions, including urine volume and electrolyte excretions, have a circadian rhythm
We found that the level of light exposure one experiences during daytime hours (08:00–18:00 h) affected urine volume and urinary Na, Cl, and uric acid (UA) excretions
To the best of our knowledge, this is the first study that has investigated the effects of daytime light conditions on the diurnal rhythms of urinary excretions, and the relationship of such an effect with rectal temperature (RT)
Summary
Most renal functions, including urine volume and electrolyte excretions, have a circadian rhythm. The present results suggest that daytime bright light exposure can induce a phase shift advance in urine volume and urinary Na, Cl, and UA excretion rhythms. Renal functions including renal blood flow, glomerular filtration rate (GFR), urine volume, and some electrolyte excretion are highest from afternoon to early evening and lowest at midnight[1]. These circadian rhythms persist independent of meal timing, activity level, sleep, and body posture, indicating that they are driven by an internal time-keeping s ystem[2,3,4,5]. The light–dark cycle is the most profound synchronizer of SCN a ctivity[8,9,10,11], with the magnitude and direction of circadian resetting responses being dependent on the circadian phase during which light stimulation
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