Difference of the Definitions of “Ginger” and “Processed Ginger” Between the Edo Era and the Present in Kampo / 日本東洋医学雑誌

Kampo physicians in the Showa era, such as ARAKI Seiji and OTSUKA Keisetsu, had called raw ginger as the herbal medicament “ginger”, and processed or unprocessed dried ginger as the medicament “processed gin­ger”. However, many Kampo physicians in the present Japan call unprocessed dried ginger as the medicament “ginger”, and processed dried ginger as the medicament “processed ginger”. The aim of this study is to investi­gate the background of the process of this change from the Showa era to the present. We searched the defini­tions of the medicaments “ginger” and “processed ginger” in successive Japanese Pharmacopoeia editions and other related books describing these definitions. In Japanese Kampo medicine before the Showa era, the herbal medicament “ginger” had referred to raw ginger, and the medicament “processed ginger” had referred to proc­essed or unprocessed dried ginger. However, after the Heisei era, the medicaments “ginger” and “processed ginger” have referred to unprocessed dried ginger and processed dried ginger, respectively. And the raw ginger has been called as “preserved ginger”.

The Decocting Time and the Contents of the Aconitine-type Diester Alkaloids in the Decoctions of the Formula Containing Unprocessed Aconite Root in “Songban Shanghanlun” / 日本東洋医学雑誌

We investigated the decocting time to prepare the formulas containing unprocessed aconite root, such as shigyakuto, tsumyaku shigyakuto, and kankyobushito, which had been registered in “Shanghanlun” edited in Song Dynasty, using the weights and measures in Houhan Dynasty when the original “Shanghanlun” was regarded to have been established. Also the contents of aconitine-type diester alkaloids (ADA) eluted from unprocessed aconite root in the decoction were analyzed in time-dependent manners. As regards the modified formula for the “physically strong patients” in the texts of tsumyakushigyakuto in “Shanghanlun”, adding dried ginger was found to lead the decocting time to be shorter and the sum of ADA content in the decoction of the modified formula to increase about 20%. It was also found that the compositions of diterpene alkaloids derived from aconite root in kankyobushito decoction were highly different from those in shigyakuto decoction, containing less ADA and more aconine and hypaconine, due to the high pH of the decoction, which was the consequence of lacking glycyrrhiza in kankyobushito formula. It is suggested that the doctors in the era of “Shanghanlun” establishment may have carefully adjusted the contents of ADA in the decoctions using unprocessed aconite root by choosing co-decocted crude drugs.

Influence of Water Properties on the Contents of Aconitine-Type Diester Alkaloids in the Decoctions of Unprocessed Aconite Root / 日本東洋医学雑誌

The decoctions of unprocessed aconite root (uzu) were prepared with the tap water samples collected in Tianjin and Shanghai in China, and the contents of alkaloids in the decoctions were compared to those prepared with purified water or with tap water collected in Niigata, Japan. The contents of aconitine-type diester alkaloids (ADA) in the decoctions prepared with tap water collected in China were significantly lower than those with purified water or tap water in Niigata. It was speculated that this difference appeared by buffering effect of bicarbonic anion in tap water in China to decline pH of the decoction. When uzu was decocted with glycyrrhiza, ginger, or jujube, the contents of ADA in the decoctions exhibited the tendency to have higher levels than those prepared using unprocessed aconite root singly, and also this tendency was observed more remarkably when the decoctions were prepared with tap water collected in China. It was suggested that even the decocting period was fixed, unexpected change of the contents of ADAs might be induced by the differences in the properties of water used for decoction or the crude drugs decocted with aconite root. The physicians in the era when “Songban Shanghanlun” had established may have adjusted the contents of ADA in the decoction by carefully choosing the crude drugs combined to aconite root.

Implications of the Origin of “Gui” in the “Bencaojingjizhu” / 日本東洋医学雑誌

Crude drugs that feature the name “gui” have appeared in classical medicinal textbooks with different names,and the correspondence between their names and origins remains the subject of research and discussion. In the present study, we investigated these correspondences using the descriptions in the annotations of the Bencaojingjizhu and through our previous study that revealed the standards of weights and measures in this book. Based on this investigation, we strongly speculate that “gui” in the Bencaojingjizhu was the branch skin of Cinnamomum cassia (C. cassia) (corresponding to cinnamon sticks in the market), which fits with the descriptions about the length and weight of “gui” -related crude drugs in this book. We measured the contents of cinnamic aldehyde and coumarin in the branch skin of C. cassia, and compared these to contents in other crude drugs related to “gui” that can be obtained on the market. The contents of these two compounds in the branch skin of C. cassia were similar to those in the bark of C. cassia from Vietnam that meets the standards for cinnamon bark in the Japanese Pharmacopoeia and is regarded as high-grade in the market. These results support our speculation, and it might be possible that the branch skin of C. cassia can be used as medicine instead of cinnamon bark.

<b>Development of a Quick High-Yield Method for the Preparation of Decoctions, Inspired by the “Zhu san Fa” of the Song Period (Part 2)</b> / 日本東洋医学雑誌

The IPCD (Immersing Powdered Crude Drugs) method, inspired by the “zhu san fa” which was widely used in the Song period of China, has been developed to prepare Kampo decoctions quickly and easily, with highyield extract from crude drugs. One trouble with the IPCD method occurs when separating the decoction from the muddy residue of the crude drug powder. When powdered ephedra herb is packed in a nonwoven fabric bag and immersed in hot water, yield of the marker compounds is much lower than that obtained when ephedra herb powder is dispersed freely in hot water without a nonwoven fabric bag. Thus the use of a nonwoven fabric bag was shown to be unsuitable with the IPCD method. In investigating an easy and more efficient separation method, we tried decanting with a commercially available wine carafe to separate the decoction and residue. With IPCD followed by decantation using the wine carafe, yields of about 80% decoction volume were obtained as compared with those when cut crude drugs are decocted and filtered using a tea strainer, in 6 of the 7 formulas tried. We find that decantation using a wine carafe is a more practical way of separation in the IPCD method.

<b>The Investigation of Metrological Standard in “</b><b><i>Songban Shanghanlun</i></b><b>” :Focus on the Absorbed Liquid in the Decoction Residues and the </b><b>Extraction Efficiency of Ephedra-alkal / 日本東洋医学雑誌

The dosage of crude drugs described in the <i>Shanghanlun </i>has long been discussed, and a conversion ratio for 1 liang in the <i>Songban Shanghanlun </i>into modern grams has not been established yet. <i>Ekisai Kariya</i>, a bibliologist in Edo period Japan, claimed that the formulas in the <i>Songban Shanghanlun </i>could not be decocted when weighed with the “Han shu (lu li zhi)” scale (1 liang = 14 g, “regular scale”), and the weight scale in the text should be “Scale of Shen nong” (1/10 scale of the regular scale). This claim leads to the standards for Kampo prescription dosages. We inspected this matter by focusing on the amount of liquid absorbed by decoction residues, and demonstrated that the formulas in <i>Songban Shanghanlun </i>could actually be decocted when weighed with the “regular scale”. In addition, we calculated the quantities of Ephedra-alkaloids in the one-time dose of “Ma huang tang” of the several books written in the Song period, and the <i>Songban Shanghanlun </i>text, with results showing that Chinese doctors in the Song period recognized 1 liang in the <i>Songban Shanghanlun </i>as 14 grams in modern terms, and that the “regular scale” could be applied clinically. This strongly suggests that the metrological standard in the <i>Songban Shanghanlun </i>should be the “regular scale”.

The Weights in <I>Ben Cao Jing Ji Zhu</I> (Dun Huang Version) and the Volume of a <I>Fang Cun Bi</I> (One Cun Square Spoon) : Weights and Measures in the Period when the <I>Shan Han Lun</I> was Written / 日本東洋医学雑誌

For the purpose of investigating weights in the era when the <i>Shan Han Lun </i>was set forth, the weight and measures described in the <i>Ben Cao Jing Ji Zhu</i>, written in the period slightly after the <i>Shan Han Lun</i>, were studied. Some descriptions of the metrological standards are confusing in the <I>Ben Cao Jing Ji Zhu</i>. We focused on the measuring container, whose volume is equal to that of the one cun square spoon (fang cun bi), shown in the dun huang version of the <i>Ben Cao Jing Ji Zhu</i>. The volume of this measuring container was calculated on the assumption that the measures in this text follow those of the <i>Han Shu Li Li Shi</i>, and a result of 5.07 cm³was obtained. The result was confirmed by using the actual measured values of the crude drugs. The result was also considered to support measurements of the volume in the <i>Ben Cao Jing Ji Zhu </i>as following the <i>Han Shu Li Li Shi</i>. With those results, descriptions of the density of honey and lard were examined, and the weight in the <i>Ben Cao Jing Ji Zhu </i>was clarified to follow that in the <i>Han Shu Li Li Shi</i>.

<b>On Ryokyu ARIMA, Tenmin NAMIKAWA's Mentor </b> / 日本東洋医学雑誌

Tenmin NAMIKAWA (並河天民) thought the <i>Shanghanlun</i> (傷寒論) was an important text. He also taught his pupils the importance of prescribing Zhongjing ZHANG's (張仲景) medicines. Ryokyu ARIMA (有馬凉及) was a physician-teacher, who prescribed Chengqitang (承気湯) for the emperor without conferring with other doctors. His chengqitang formulary was derived from medical texts by Zhongjing ZHANG. Kyugo GODA (合田求吾) on the other hand, was a pupil of Ikkannsai MATSUBARA (松原一閑斎), who wrote in the <i>Idokikigaki</i> (医道聞書) : the<i>Koho</i> (古方) school started by Ryokyu ARIMA. He was a hero who was punished by the Goseiin (後西院) emperor. He taught <i>Koho </i>to Tenmin. This therefore reveals that Ryokyu ARIMA was a teacher who taught the importance of the <i>Shanghanlun</i>.

<b>Differences in Water Hardness when preparing Ephedrae Herba Decoctions : Special Focus on a Comparison of Tap Water </b><b>in Japan and China </b> / 日本東洋医学雑誌

Decoctions of Ephedrae Herba were prepared using tap water sampled in Changping District, Beijing City(China), tap water sampled in Niigata City (Japan) and some mineral water samples sold in markets. Various dissimilarities were found between drug extracts prepared using tap water in Japan and China, and the extraction efficiency of the alkaloids with Beijing tap water was approximately 80% of that with Niigata tap water. It is suggested that these dissimilarities result from concentrations of temporally hard components, such as calcium and magnesium bicarbonate salts, in the water. In addition, when Zizyphi Fructus and Ephedrae Herba were decocted together in hard water, the state of the decoction, ephedra-alkaloid content included, was found to come close to that of single Ephedrae Herba decoctions prepared using soft water. It was suggested that Ziziphi Fructus might possibly play roles as a softening agent in decoctions prepared using hard water.

The Historical Development of Theories on Night Sweat Pathophysiology / 日本東洋医学雑誌

Until the Sui Dynasty in China, night sweat and spontaneous perspiration had been thought to be caused by same pathophysiology, that is, lowered superficial resistance by deficiency of Qi.In the Tang Dynasty, these were considered to have different pathophysiologies and a new principle indicated that pathogenic heat caused night sweat.In the Song and Jing Dynasties, deficiency of blood and pathogenic heat by deficiency of Yin was also considered to cause night sweat.In the Jing Dynasty, exogenous pathogens, such as Cold were considered to cause night sweat, which indicated the principle that not only the deficiency syndrome but also the excess syndrome caused night sweat.In the beginning of the Yuan and Ming Dynasties, it was concluded that the deficiency of Yin caused night sweat and the deficiency of Yang caused spontaneous perspiration.In the middle of the Ming Dynasty, another new theory indicated that deficiency of Yang also possibly caused night sweat; therefore we should diagnose abnormal sweat depending on the pathophysiology in each case.In the Qing Dynasty, new theories were established stating that not only exogenous pathogens but also Damp-heat, undigested food and stagnation of blood, all of which are included in excess syndrome, cause night sweat, and that based on which part of the body sweats occurred we might understand pathophysiology of night sweat. The night sweat by Warm-heat, which is different from the one by Wind-cold, was considered to be caused with deficiency of Yin.Thus we conclude that the theories of night sweat developed over time, based on Chinese medical classics.

The State of Traditional Chinese Medicine (TCM) School in Singapore / 日本東洋医学雑誌

This is a report on schools of Traditional Chinese Medicine (TCM) and the state of the traditional education system in Singapore. School texts made in the People's Republic of China were used in Singaporean schools. In 1994, however, the Minister of Health appointed a committee to review TCM practices, and recommended measures to safeguard patients' interests and safety. The committee's report published in 1995 recommended that TCM practices in Singapore should be regulated, and recommended steps to upgrade training standards. In compliance with said committee, TCM schools have added basic western medical science to their curricula. And TCM school requirements in Singapore were revised to 3 years full-time curricula or 6 years part-time curricula. In 2000, the TCM Practitioners Act was passed. Singapore is small country with a population of 4.16 million. However, it promotes traditional medical education projects and studies enterprisingly, receiving WHO support and NCCAM grants.