Deep Sea Water in the Field of Mibyo and Preventive Medicine：A Japanese Perspective / 日本補完代替医療学会誌

Deep sea water is sea water below a depth of 200 m. Japan is the leading country in the world on industrial applications of deep sea water, which has characteristics such as cleanliness, and is rich in various kinds of minerals and inorganic nutrients compared to surface seawater. In addition, applications of deep sea water as a useful resource have become a world interest, especially in fields of presymptomatic diseases called mibyo and in preventive medicine. Evidence of deep sea water applications in experimental and clinical medicine of the following diseases, lifestyle diseases such as dyslipidemia, high blood pressure, diabetes and arteriosclerosis and atopic dermatitis, osteoporosis, cancer, peptic ulcer, cataracts and constipation are given particular attention in this review.

Effect of physiological deep-sea water on the hyperthermal tolerance of mice / 重庆医学

Objective To explore the effects of physiological deep-sea water(PDSW) on hyperthermal tolerance of Kunming (KM ) mice in the 45 .0 ℃ environment .Methods Deep-sea water from the south Chinese sea was processed ,and the metallic ele-ments dissolved in the DSW were analysed .The mice were randomly divided into 2 groups :the control group received tap water ;the experimental group treated with PDSW for 15 d .And then the mice were fed in the 45 .0 ℃ conditions .The survival time and histo-morphometric analyses of the brain ,lung ,heart ,liver and kidney were investigated .Results The survival time in PDSW-fed group was significantly longer than that of the control group (P< 0 .05) .Moreover ,histomorphometric analyses showed that PDSW could protect the brain ,lung ,heart ,liver and kidney of KM mice from the 45 .0 ℃ conditions .The results of western blot revealed that ex-pression of HSP72 of liver tissues for PDSW-fed group substantially increased ,when compared with the control mice(P< 0 .05) . Conclusion PDSW could improve hyperthermal tolerance of KM mice ,which maybe in the relation with expression of HSP72 pro-moted by PDSW .

The anti-cancer effects of physiological deep-sea water combined with hyperthermia for hepatocellular carcinoma in vitro / 重庆医学

Objective To explore the anti‐cancer effects of physiological deep‐sea water(PDSW) combined with hyperther‐mia for hepatocellular carcinoma in vitro .Methods Deep‐sea water (DSW) from the south Chinese sea was processed ,and made in‐to PDSW ,detection of some elements .In vitro ,the cultured normal liver cells and human hepatoma QGY‐7703 cells were randomly divided into PDSW group and normal saline(NS) group ,the NS group received saline ,the PDSW group received different concentra‐tions of PDSW .Two groups were heated respectively to 6 h of 40 ℃ or 1 h of 43 ℃ ,24 ,48 ,72 h after the administration of PDSW or saline ,the normal liver cells and QGY‐7703 cells proliferation capacity and toxicity were investigated by MTT assay .At the same time testing PDSW and NS in 40 ℃ 6 h for 10 d state of human liver QGY‐7703 cell clone formation rate .Results The results of MTT assay showed that tumor inhibitory rate were time and concentration dependent in tow groups .Tumor inhibitory rate of PD‐SW group in different time was significantly higher than NS group (P<0 .05) .On the other hand ,the inhibitory of hepatocyte for PDSW group in different time were significantly lower than NS group .In addition ,the clone formation rate of PDSW group was lower than those of NS group(P<0 .05) .Conclusion PDSW can improve the heat tolerance of normal liver cells .When combine with heat ,it can obviously inhibit the growth of human liver cancer QGY‐7703 cells .

The influence of deep sea water on wound healing of mice / 重庆医学

Objective This experiment aimed to study the influence of deep sea water (DSW) on wound healing of mice .Methods 24 Mice were randomly divided into two groups :group DSW(n=12) and group sterilize tap water(STW)(n=12) ,freely feeding for 14 days respectively ,and calculated the amount of food and water .On the 15th day ,1 cm × 1 cm size of wound was established on the back area of mice ,and continued to feed with DSW and STW respectively .Tracking the wound healing rate .Specimen was taken in the edge of wound tissue on postoperative 3 ,5 ,7 days ,then observed histopathological changes .Results Compared group DSW with group STW ,there was no significant difference in the total amount of food and water .5 days after the formation of wounds ,the wound healing rate of group DSW was significantly higher than group STW .Histological observation :compared with group STW ,vascular endothelial cells and new capillaries of the group DSW was increased ,and group DSW had less inflammatory cell and more fibroblast cells proliferation .Conclusion deep sea water can promote wound healing .

Serotonin Changes in Specific Brain Regions of Fibromyalgia Animal Model after Deep-sea Water Drinking / 대한류마티스학회지

OBJECTIVE: The acidic saline animal model of pain has been suggested to mimic fibromyalgia (FM). In this model, repeated intramuscular (IM) injections of acidic saline produce a widespread hyperalgesia that persists without evidence of significant peripheral tissue damage or inflammation, and is believed to be centrally maintained. We examined the changes of pain-related neurotransmitters in specific brain regions of this model after deep-sea water (DSW) drinking. METHODS: Rats were injected with 100microliter of acidic saline (pH 4.0) at days 0 and 5 into the left gastrocnemius muscle. Control rats received identical injections of physiological saline (pH 7.2) on the same schedule. Two acidic saline rats were given DSW from 1 week following the last IM injection to sacrifice. All rats were sacrificed on day 20. All regions of interest were examined for the changes of pain-related neurotransmitters with immunohistochemistry. RESULTS: Preliminary results showed that compared to controls, acid injected rats demonstrated strong expression of serotonin in red and raphe nucleus. Acid injected rats showed significant reductions of the serotonin expression in red and raphe nucleus after DSW drinking. CONCLUSION: IM acid injections increased the expression of serotonin in red and raphe nucleus of rats. The overwhelming reduction of serotonin expression in the nuclei after DSW drinking suggests DSW might be helpful for pain and anxiety. These preliminary data support the validity of acidic saline treatment as a model of FM, and provide a foundation for future analyses of specific brain regions that contribute to this syndrome.

The effect of mouthrinse products containing deep sea water

The aim of this study was to evaluate the effect of mouthrinse products containing deep sea water. We used original deep sea water (DSW) and processed deep sea water desalinated by reverse osmosis at one time (DDW-1), by reverse osmosis at two times (DDW-2) and concentrated by reverse osmosis (CDW). We made 2 kinds of mouthrinse products containing CDW and other agents for smell and taste and one product without deep sea water. The negative control was distilled water. In vivo study, the dental plaque index scores and the gingival index scores were reduced after 4 weeks mouthrinsing three times daily with 4 kinds of deep sea water and 3 kinds of mouthrinse products(p<0.05). The pH of dental plaque in 1 minute after mouthrinsing was not higher than 5.5 in all solutions, but the pH in 20 minutes after mouthrinsing was higher than 5.7 in DSW, CDW and 3 kinds of products which had higher mineral contents. In vitro study, the mouthrinse solutions containing the higher mineral contents were also the more effective in reduction of methyl mercaptan which is one of the causes of halitosis. The 2 kinds of products containing deep sea water killed Streptococcus mutans (ATCC 25175) in culture plates in one minute. These results indicate the usability of deep sea water in mouthrinses for oral hygiene management.

Suggested Effects of Warm Deep Sea Bathing on Daylight Sleep and Relaxation in Night Shift Workers / 日本温泉気候物理医学会雑誌

In order to investigate the effects of deep sea water bathing on relaxation and daylight sleep in night shift workers, electroencephalography, circulatory and cardiac autonomic functionings, visual evoked potential, biochemical markers in urine and saliva, core body temperature, sleep questionnaires, and mood state questionnaires were evaluated in nine subjects to compare with other three kinds of bathing including sham (no water), tap water and surface sea water. Deep sea water bathing showed better subjective sleep latency for sleep questionnaire (p<0.1) and significantly better vigor status for mood questionnaire (p<0.01) between four kinds of bathing. With regard to the objective data, despite the biggest increase in temperature of eardrum in deep sea water bathing, the highest sleep efficiency and the shortest wake period during sleep in electroencephalography did not reach to the significant level.

Subacute effects of deep-sea water from the Japan Sea on blood examination values in mice

<p><b>OBJECTIVES</b>To clarify the characteristics of deep-sea water (DSW), we investigated the hematological, immunological and biochemical effects of DSW, specifically the so-called Japan Sea Proper Water (JSPW), samples of which we collected from the Japan Sea at a depth of about 300 meters.</p><p><b>METHODS</b>Five groups of five mice each were orally administered,ad libitum for 12 weeks, one of the following: 1.2% DSW, 12% DSW, 1.2% surface-sea water (SSW), 12% SSW, or purified water (control)</p><p><b>RESULTS</b>Among these groups, no significant differences were observed in the average reduction of water intake, food consumption or body weight. The mean corpuscular volume, however, was significantly lower (p<0.05) in the 1.2% DSW group than in the control group. Moreover, serum immunoglobulin G and A values were significantly higher (p<0.05) in the 12% DSW and the 12% SSW groups, respectively, compared with the control group. In addition, the serum glucose value in the 12% DSW group was significantly higher (p<0.05) than in the control group</p><p><b>CONCLUSIONS</b>The findings of the present study suggested the presence of some toxic components in DSW. Before a final answer is reached about whether DSW, and specifically JSPW, is bad for human health, the pathophysiology of findings such as the decreased mean corpuscular volume, the higher immunoglobulin G value and the higher glucose value should be investigated.</p>

Psycho-physiologic Effects of Deep Sea Water Bathing / 日本温泉気候物理医学会雑誌

In order to investigate effects of deep sea water bathing on psycho-physiological status, body temperature, circulatory and autonomic nervous system functions, and questionnaires on refreshment and sleep were evaluated in comparison with other 3 kinds of bathing including sham (no water), surface sea water and tap water. The skin temperatures of both tights and lower back were significantly higher for only deep sea water bathing compared with the sham bathing. It was also the case for tympanic temperature. Concerning circularly and autonomic nervous functions there were no significant difference between 4 kinds of bathing. For refreshment and sleep quality both sea water bathing showed higher scores, but not consistently significant differences. However, when taking any kind of bath shorter sleep latency was related to higher cardiac parasympathetic activity during sleep.

Subacute Effects of Deep-Sea Water from the Japan Sea on Blood Examination Values in Mice

Objectives: To clarify the characteristics of deep-sea water (DSW), we investigated the hematological, immunological and biochemical effects of DSW, specifically the so-called Japan Sea Proper Water (JSPW), samples of which we collected from the Japan Sea at a depth of about 300 meters. Methods: Five groups of five mice each were orally administered, ad libitum for 12 weeks, one of the following: 1.2% DSW, 12% DSW, 1.2% surface-sea water (SSW), 12% SSW, or purified water (control). Results: Among these groups, no significant differences were observed in the average reduction of water intake, food consumption or body weight. The mean corpuscular volume, however, was significantly lower (p<0.05) in the 1.2% DSW group than in the control group. Moreover, serum immunoglobulin G and A values were significantly higher (p<0.05) in the 12% DSW and the 12% SSW groups, respectively, compared with the control group. In addition, the serum glucose value in the 12% DSW group was significantly higher (p<0.05) than in the control group. Conclusions: The findings of the present study suggested the presence of some toxic components in DSW. Before a final answer is reached about whether DSW, and specifically JSPW, is bad for human health, the pathophysiology of findings such as the decreased mean corpuscular volume, the higher immunoglobulin G value and the higher glucose value should be investigated.