1.Effect of Raspberry Ketone Bathing on the Skin Blood Flow and Endocrine System
Masaharu MAEDA ; Masato SAITO ; Takeshi IKEMOTO
The Journal of The Japanese Society of Balneology, Climatology and Physical Medicine 2004;67(4):215-224
To investigate the scientific grounds for the effect of raspberry ketone bathing that is claimed to increase energy consumption by stimulating metabolism, a bathing experiment was conducted in 10 normal healthy adults.
As a result, no appreciable difference was detected among tap water, CO2-enriched water and raspberry water in respect to blood pressure, pulse rate and depth thermometer readings, which suggested that bathing in warm raspberry water was safe, producing no marked load on the cardiovascular system. Changes in the skin surface temperature indicated slow elevation of body temperature, from which bathing in warm raspberry water was considered to produce no marked load on the body even if bathing lasted relatively long as compared with bathing in warm tap water or CO2-enriched warm water. From the skin tissue blood flow data, it seemed likely that the increase in blood flow caused by bathing in warm raspberry water was produced, not by vasodilatation as in CO2-enriched warm water bathing, but by such mechanisms as acceleration of metabolism. Data on insulin suggested that bathing in warm raspberry water affected the carbohydrate metabolism as compared with that in warm tap water or CO2-enriched warm water. Since there was no difference among warm water groups in changes in the adrenocortical hormone “cortisol”, raspberry ketone bathing was considered not to have specific activity. Data on NK cell activity showed that bathing in warm raspberry water produced no appreciable effect on the immune system. It was suggested that measurement of β-endorphin should be performed after adjustment of psychological environments.
The results of expiration air analysis also indicated that, while bathing in CO2-enriched warm water was related to changes in the cardiovascular system, bathing in warm raspberry ketone water produced no appreciable load on the cardiovascular system but consumed energy through acceleration of metabolic activities.
2.Effects of Bath Product Named as Sake Concentrate Preparation
Masaharu MAEDA ; Jun SUGITA ; Masato SAITO ; Mari HAGIHARA ; Takeshi IKEMOTO
The Journal of The Japanese Society of Balneology, Climatology and Physical Medicine 2006;69(3):179-186
We evaluated the effects of SCP bathing on the body by compared with those of a-EG, one of major component of SCP, bathing and the control bathing with tap water alone. Healthy adults were used as the subjects. The effects of bathing on blood pressure and pulse rate were not significantly different among the three bathings, indicating that effects of SCP and α-EG bathing on the lung and heart were similar to those of an ordinary bathing. The surface skin temperature at the forehead decreased more slowly in the subjects after taking a SCP bathing than the other two, suggesting that SCP has temperature holding effects. Also, the results of deep body temperature suggested that α-EG might be related to the heat absorbing effects of SCP bathing, which were significantly marked than those of the other two bathings. The present results regarding the changes in blood flow and deep body temperature during bathing suggest that SCP might produce an environment that allows more rapid heat transfer from bath water to the body and less releasing it from the body. Therefore, we concluded that some component other than α-ethylglucoside would be involved in the heat transfer and moisturizing during SCP bathing. Measurement of skin water content indicated that a region directly contacting with hot water was moisturized in a short time, but this condition quickly returned to the pre-bath condition. Whereas, for regions not contacting with bath water, the skin was much more moisturized by taking SCP bath than the other two bathings. Therefore, it was concluded that SCP is effective for enhancement of skin moisturizing.
3.Examination Regarding the Simple Suspension Method using Oral Anticancer Drugs
Masahiro Murakami ; Yoshihiko Ikemoto ; Narumi Toya ; Mihi Paku ; Miyuki Okuyama ; Kazuko Hatakeyama ; Satoko Katsuragi ; Masako Ohno ; Hiroyuki Hichiya ; Yoshito Zamami ; Chikaaki Muro ; Takeshi Kimura ; Naomi Kurata ; Manabu Amano
Japanese Journal of Social Pharmacy 2016;35(1):34-37
To administer oral anticancer drugs safely, the simple suspension method has been introduced in many hospitals. Therefore, concerning drugs for which it is unclear whether or not this method is applicable, testing must be able to be conducted at any time. In this study, we investigated 20 oral anticancer drugs to expand information on the application of the simple suspension method. Disintegration/suspension and permeability tests were conducted, as described in the 3rd version of the Tube Administration Handbook for Oral Drugs. All products were disintegrated/suspended after 10 minutes. On permeability tests, there was no residue in any tube for tubal feeding. On the final evaluation, the products were regarded as suitable (grade 1). Bicalutamide tablets (80 mg, TCK and KN), which were analyzed in this study, were regarded as suitable (grade 1) on the final evaluation. On the other hand, the simple suspension method is not applicable for a brand-name drug, Casodex® tablets (80 mg). This may be related to the different additives. Furthermore, the results suggest that, even when the simple suspension method is not applicable for a brand-name drug, it may become applicable for generic drugs. This may provide a new merit for promoting the use of generic drugs.