1. Introduction
The characteristics of most mental disorders in young people arise during youth (12 - 24 years of age) [1] . Hunt et al. [2] reported the results of questionnaire data from students at 26 colleges and universities in the United States in 2007 and 2009, revealing a number of mental health problems, such as depression and anxiety disorders. In Japan, Uchida [3] reported that apathetic and withdrawn students at 49 Japanese national universities were those more likely to leave university, take time off, or repeat academic years; the rate of these events in Japan has been increasing for the past 21 years. Most students with student-apathy display an informal syndrome that is often accompanied by symptoms of depression and anxiety.
Bathing is a habit of Japanese people for cleansing and refreshing oneself. Bathtub bathing (BB) has also been reported to affect mental health. For example, Ishizawa et al. [4] reported that frequent BB improves the mental health of middle-aged Japanese individuals, and Hayasaka et al. [5] reported similar results for elderly Japanese individuals. Additionally, bathing with herbal extracts increases peripheral blood circulation, helping to maintain body warmth after bathing, and providing a feeling of relief among middle-aged Japanese individuals [6] -[9] .
A questionnaire survey on bathing behavior was conducted in the Kinki area of Japan, involving 581 Japanese individuals of all ages. The results indicated that 60% of the respondents habitually showered in the summer, as opposed to having a bath, whereas that number declined to 17% during the winter. Additionally, the study found that the younger the respondent, the more likely they were to shower (70%) in the summer, and that 33% of the 10 - 20-year-old individuals only showered, even in the winter [10] . Therefore, BB was hypothesized to have a greater effect on the mental health conditions of younger individuals, compared with older individuals who were already more likely to have a bath, rather than shower.
This study investigated the chronic effects of three bathing styles, BB, maintaining warmth with an insulated sheet and sleeping bag after bathtub bathing (BBW), and bathtub bathing with herbal extracts (BBH), on the mental health condition (i.e., mood states) of healthy, young adults.
2. Methods
2.1. Participants
The first experiment involved 18 (6 males, 12 females) healthy young adults (mean age, 19.6 ± 0.7 years; mean ± SD) who habitually took showers, as opposed to bathing. In the second experiment, 20 (8 males, 12 females) healthy young adults (mean age, 21.3 ± 1.6 years), with similar hygiene habits as those in experiment 1, participated. Individuals with the following conditions were excluded from the study: orthostatic hypotension, skin disease, acute disease, active tuberculosis, malignant tumors, heart disease, respiratory failure, renal failure, bleeding disease, severe anemia, pregnancy, and arteriosclerosis. Written informed consent was obtained from each participant prior to participation in these studies; the study was approved by the Ethics Committee of Kumamoto (Japan) Health Science University (Permit Number: 24 - 56 and 25 - 34)
2.2. Experimental Design and Protocol
In experiment 1, participants were randomly assigned to one of two groups (each with 3 males and 6 females). The participants were directed to BB, each night for 14 consecutive nights; one group spent an additional 30 min keeping warm after BB. Following a 2-week washout period, the participants were asked to switch their bathing style and repeat the 14-day study. This experiment was conducted between November 2012 and December 2012 (Figure 1). Experiment 1 had two styles, and involved BB as described by Iiyama et al. [11] . The participants immersed their bodies, up to the supraclavicular level, for 10 min in tap water adjusted to a temperature of 41˚C, in their home bathtub; the water temperature was measured using a digital temperature indicator. The BBW participants were instructed to stay warm for an additional 30 min., in a static supine position, in a room adjusted to temperature of 25˚C, while wrapped in a thermal insulating sheet and sleeping bag.
In experiment 2, the participants were randomly assigned into one of another two groups (each with 4 male and 6 female participants). One group was instructed to BB, nightly for 14 consecutive nights, and the other group was instructed to BB, after adding 15 mL of herbal extract (containing angelicae radix, aurantii nobilis pericarpium, chamomile, and zingiberis rhizoma extracts) for the same period of time (BBH). Following a 2-week washout period, the participants were asked to switch their bathing style, and repeat for another 14 consecutive days. This experiment was conducted between October 2013 and November 2013 (Figure 2).
Figure 1. Flow diagram of experiment 1 (cross-over design).
Figure 2. Flow diagram of experiment 2 (cross-over design).
2.3. Measurements
The participants’ mental conditions were assessed using the Profile of Mood States (POMS)-Brief Form questionnaire, Japanese version. The POMS comprises 6 scales assessing Tension-Anxiety, Depression-Dejection, Anger-Hostility, Vigor, and Fatigue, and was administered 4 times during the 6-week period of each experiment (i.e., before and after the first bathing style, and before and after second bathing style).
2.4. Data Analysis
The T-scores and change rates were calculated using a scale-by-scale examination of the raw scores for each aspect of the POMS. Formula (1) shows the calculation of the T-score. The T-score is a standardized score, and scores between 40 and 60 indicate a healthy mental status. Furthermore, a “standard mood” is considered to represent the T-scores converging towards a 50-point score.
(1)
In this paper, the differences between the standardized 50 points and the actual T-score are described as delta 50 (Δ50), which represents the absolute value of 50 points − the T-score of each POMS scale (Formula (2)).
(2)
The change rates for each of the 6 scales associated with each bathing style were also calculated. Formula (3) shows the calculation of the change rate for BB, as an example; BBW and BBH were calculated similarly. The change rates for BBW and BB were compared in experiment 1, and BBH and BB were compared in experiment 2.
(3)
2.5. Statistical Analysis
Statistical analyses were performed using R2.8.1 (http://www.r-project.org/). The effect of time (i.e., pre-inter- vention versus post-intervention) was analyzed using a paired t-test. The effect of bathing style (i.e., BB versus BBW, and BB versus BBH) was analyzed using Wilcoxon’s signed rank sum test. In all analyses, the criterion for statistical significance was 5%.
3. Results
3.1. Δ50 in Experiment 1
The postBB Tension-Anxiety score converged on the 50-point mark, compared with preBB; there were no significant differences among the other scales during the BB portion of the study (Figure 3). In the BBW style, the Anger-Hostility also converged on the 50-point mark after BBW, compared with preBBW; there were no significant differences among the other scales (Figure 4).
3.2. Δ50 in Experiment 2
There were no significant differences among the 6 scales for BB (Figure 5). The Anger-Hostility score con-
Figure 3. Delta 50 results for bathtub bathing (BB) in experiment 1. White diamonds show the preBB (mean ± SD) scores; black diamonds show the postBB (mean ± SD) scores for each Profile of Mood States scale. A score of “0” on the Y-axis represents a T-score of 50 points. T-A, Tension-Anxiety; D, De- pression-Dejection; A-H, Anger-Hostility; V, Vigor; F, Fatigue; C, Confusion.
Figure 4. Delta 50 results for bathtub bathing, with warming (BBW), in experiment 1. White diamonds show the preBBW (mean ± SD) scores; black diamonds show the postBBW (mean ± SD) scores for each Profile of Mood States scale. A score of “0” on the Y-axis represents a T-score of 50 points. T-A, Tension-Anxiety; D, Depression-Dejection; A-H, Anger-Hostility; V, Vigor; F, Fatigue; C, Confusion.
verged on the 50-point mark, postBBH, compared with preBBH; there were no significant differences in the other scales for BBH (Figure 6).
3.3. Change Rates in Experiments 1 and 2
The Confusion change rate was significantly different in experiment 1, only (Figure 7). The Depression-Dejec- tion and Fatigue change rates were significantly different only in experiment 2 (Figure 8).
4. Discussion
These studies, involving a simple change from showering to taking tub baths, were conducted to investigate the effects of three bathing styles, BB, BBW, and BBH, on the mental conditions of healthy young adults.
A normalizing phenomenon occurs for various physiological factors when they converge to a certain value because of a non-specific modulatory action, such as serial immersion in a hot springs. Jordan et al. [12] -[14] reported such a normalizing phenomenon for measured values of body weight, blood pressure, heart rate, and
Figure 5. Delta 50 results for bathtub bathing (BB) in experiment 2. White diamonds show the preBB (mean ± SD) scores; black diamonds show the postBB (mean ± SD) scores for each Profile of Mood States scale. A score of “0” on the Y-axis represents a T-score of 50 points. T-A, Tesion-Anxiety; D, Depression-Dejection; A-H, Anger-Hostility; V, Vigor; F, Fatigue; C, Confusion.
Figure 6. Delta 50 results for bathtub bathing, with herbal extracts (BBH), in experiment 2. White diamonds show the preBB (mean ± SD) scores; black diamonds show the postBB (mean ± SD) scores for each Profile of Mood States scale. A score of “0” on the Y-axis represents a T-score of 50 points. T-A, Tension-Anxiety; D, Depression-Dejection; A-H, Anger-Hostility; V, Vigor; F, Fatigue; C, Confusion.
Figure 7. Change rate results for experiment 1. Explanation of Box-and- whisker plots: upper horizontal line of box, 75th percentile; lower horizontal line of box, 25th percentile; horizontal bar within box, median; upper horizontal bar outside box, smaller than “75th percenttile + 1.5 × IQR”; lower horizontal bar outside box, larger than “25th percentile − 1.5 × IQR”. Circles represent outliers. IQR, Inter Quartile Range; T-A, Tension-Anxiety; D, Depression-Dejection; A-H, Anger-Hostility; V, Vigor; F, Fatigue; C., Confusion, BB; Bathtub bathing, BBW; Maintaining body warmth after bathtub bathing.
Figure 8. Change rate results for experiment 2. Explanation of Box-and- whisker plots: upper horizontal line of box, 75th percentile; lower horizontal line of box, 25th percentile; horizontal bar within box, median; upper horizontal bar outside box, smaller than “75th percentile + 1.5 × IQR”; lower horizontal bar outside box, larger than “25th percentile − 1.5 × IQR”. Circles represent outliers. IQR, Inter Quartile Range; T-A, Tension-Anxiety; D, Depression-Dejection; A-H, Anger-Hostility; V, Vigor; F, Fatigue; C., Confusion, BB; Bathtub bathing, BBH; Bathtub bathing with herbal extracts.
breathing rate. The measured values showed an overall decrease among several thousand people participating in a study at a hot springs resort. Similar results have been observed for parameters of the autonomic nervous [15] and endocrine [16] systems after serial immersion in a hot springs. Therefore, increases or decreases in the T- scores for each POMS scale component, following serial BB, were not compared. Rather, convergence of the T- scores on the 50-point mark was examined. Thus, this is the first study comparing mood states using a Δ50 value.
Previous reports have described the effects of dry sauna bathing and whole body warming (i.e., Waon therapy) as increasing the deep body temperature [17] -[19] . Repeated Waon therapy also improved the anger score of patients with chronic pain [20] . Waon therapy involves 15 min of dry sauna bathing at 60˚C and maintaining body warmth for an additional 30 min while in a static supine position, wrapped in a blanket, after bathing.
Iiyama et al. [21] examined the effects of a 10-min bath in warm (41˚C) tap water, followed by maintaining body warmth for 30 min while in a static supine position, wrapped in a blanket. In their study, the participants’ sublingual temperatures were significantly raised from 36.3˚C ± 0.39˚C to 37.2˚C ± 0.15˚C for 40 min after bathing. Similarly, BBH with extracts containing cnidii rhizoma and aurantii nobilis pericarpium maintained a raised sublingual temperature for 30 min after bathing [9] . The herbal extract contained angelicae radix and aurantii nobilis pericarpium extracts, which maintained significant raised forearm skin temperatures, even 60 min after bathing [7] .
Brain regions, such as the amygdala and nucleus accumbens, are related to emotion in higher vertebrate animals, including humans. Given this association, Okada [22] examined the effects of bathing on central neurotransmitter levels in rats to determine a physiological relationship between warm baths and mental functioning. The results showed that dopamine metabolism and neurotensin-like immunoreactivity in the amygdala and nucleus accumbens changed significantly after 10-min baths in warm (40˚C) tap water, but not after 10-min baths in lukewarm (34˚C) tap water. From these results, thermal action was assumed to affect central neurotransmitter (i.e., mental functioning) after bathing in warm tap water, rather than hydrostatic pressure of warm or lukewarm tap water.
In our studies, the Anger-Hostility score significantly converged on the 50-point mark postBBW, compared with preBBW (i.e., after a period of showering); similar results were seen postBBH, compared with preBBH (again, after a period of showering). These results indicate that the Anger-Hostility mental state might be influenced by the elevated deep body temperatures following BBW and BBH (angelicae radix, aurantii nobilis pericarpium, and zingiberis rhizoma have vasodilatory action). Thus, a normalizing phenomenon associated with mental condition appears to have occurred.
Chamomile-like fragrance was provided in the herbal extract.Amsterdum et al. [23] reported that chamomile has an antidepressant activity in depressed people. They reported a significantly greater reduction in the mean total Hamilton Depression Rating (HAM-D) score and HAM-D core depression item score following chamomile treatment versus placebo in depressed participants. Pinto et al. [24] reported that chamomile had an effect in an animal depression model. Specifically, in a forced swimming test, a total leukocyte count decrease was observed in the chamomile-treated group. Similarly, Takamatsu et al. [25] reported that the color of a solution can influence participant mental conditions. Specifically, green, green-yellow, and yellow-red provide comforting and calming psychological effects. The color of the herbal extracts added to the baths, in our experiment 2, was a green-yellow. Thus, the chamomile-like fragrance was considered to possibly influence the Depression-Dejec- tion and Fatigue scores and/or that the color of the added herbal extract might influence these scales.
A POMS questionnaire survey of 189 middle-aged Japanese individuals, conducted by Ishizawa et al. [4] , revealed that frequent BB (≥3 times per week) affected participant Tension-Anxiety scores. In our studies, involving young adults, the Δ50 in the Tension-Anxiety scores of the BB session demonstrated different results in experiment 1 (P = 0.043) than in experiment 2 (P = 0.458), the P-values were dissociated from each other. Although the Tension-Anxiety P-value in experiment 1 (P = 0.043) reached statistical significance, there is a need for further investigation to determine whether it had the potential to produce false positives.
Different results for the Confusion change rates were observed between experiments 1 (P = 0.011) and 2 (P = 0.055). The Confusion P-value in experiment 2 (P = 0.055) was very nearly statistically significant, and might have reached the 5% level of significance with a larger sample size. In the BB session, the Confusion change was positive in experiment 1, but negative in experiment 2. Previous studies have not revealed a significant difference in Confusion. Therefore, further investigation is necessary.
These studies have several limitations. Similar conditions of temperature, humidity, lighting, and wall design may not have existed within each participant’s home bathroom. Additionally, events happening in each participant’s daily life were not controlled in either experiment 1 or 2. Further, there may have been variations in room temperatures during the period that the individuals were directed to remain warm following bathing in experiment 1. Additionally, there may have been differences in the herbal extract concentrations in each participant’s home bathtub in experiment 2. Furthermore, another limitation was the very small study population.
5. Conclusion
These studies investigated changing bathing styles from showering to BB; the effects of BB, maintaining warmth with an insulated sheet and sleeping bag after BB; and BB with herbal extracts, on the mental condition of healthy young adults were investigated. Raising the deep body temperature following BBW and BBH had a salutary influence on Anger-Hostility, and provided advantages over shower bathing for improving the mental fitness of healthy young adults.
Acknowledgements
These studies were carried out with the financial support of Bathclin Corporation.
NOTES
*Corresponding author.