Kampo Therapies and the Use of Herbal Medicines in the Dentistry in Japan

Dental caries and periodontal disease are two major diseases in the dentistry. As the society is aging, their pathological meaning has been changing. An increasing number of patients are displaying symptoms of systemic disease and so we need to pay more attention to immunologic aggression in our medical treatment. For this reason, we focused on natural products. Kampo consists of natural herbs—roots and barks—and has more than 3000 years of history. It was originated in China as traditional medicine and introduced to Japan. Over the years, Kampo medicine in Japan has been formulated in a way to suit Japan’s natural features and ethnic characteristics. Based on this traditional Japanese Kampo medicine, we have manufactured a Kampo gargle and Mastic Gel dentifrice. In order to practically utilize the effectiveness of mastic, we have developed a dentifrice (product name: IMPLA CARE) and treated implant periodontitis and severe periodontitis.

medicine. In 1883, the Japanese government promulgated the regulation of the medical license that only those doctors who have mastered the Western medicine could prescribe the Kampo medicines and the Kampo medicine declined since then except for the practice by some facilities or individuals. In 1927, the book of Kokan Igaku (traditional Japanese and Chinese medicine) by Kyushin Yumoto was published and it triggered the subsequent revival of Kampo medicine. Following that in 1950, the academic society of "Japan Society of Oriental Medicine" of Kokan Igaku was established, which became the association of Oriental medicine including acupuncture and moxibustion treatments. Under the guidance of the Japan Medical Association, Kitasato University Oriental Medicine Research Centre was founded in 1972 and it has played a central role in the education of Oriental Medicine. Further in 2001, the model curriculum of medical education newly incorporated a course of study for "being capable of explaining Japanese and Chinese medicines." At present, all medical schools in Japan have the courses of study for Kampo medicine or Oriental medicine as part of their education program.
Kampo medicine has a unique character, which is different from Western medicine. Kampo uses as a combination drug of various herbal plants that have complementary physiological activities. In fact, 148 Kampo formulations are used for medicinal treatments and are covered by the Japanese National Health Insurance Program [4]. Since 2012, seven kinds of Kampo formulations were approved by Japan Dental Association within the National Health Insurance Drug Price Standard related with dental treatment [5]. In 2015, Kampo Education Plan of Dentistry was sent from the Japan Dental Association to all dental universities [6]. At the same time, the first author of this article (S.W.) established the Yokohama Kampo Dentistry Study Group for the continuing education of Kampo. This group has held 18 research sessions and symposiums by calling a special lecturer of Kampo and is planning to publish a side reader of 11 Kampo preparations for dental students from the Nanzando publishing company. There are two academic societies on Kampo in Japan: The Japan Society for Oriental Medicine and Japan Dental Society of Oriental Medicine. The latter showed previously different direction about qigong and massage but now changing to the same direction with the former.
Kampo prescriptions in dentistry has special characteristics due to the diverse symptoms such as the pain caused by the bad bite alignment or malocclusion (exogenous cause) and unidentified complaints. For Kampo prescriptions, it is important to understand the symptoms, by considering these special characteristics. It has also become known that the negative feedback functionality would not work when malocclusion and occlusal destruction become chronic with the sympathetic-nerve predominant state. We expect that Western medicine and the Oriental medicine will be used selectively and in parallel in many of the clinical cases in dentistry to ensure the best results for primary cares and that it would contribute to the dentistry medicine going forward.
In this review article, we firstly focus on the basic theory of Kampo medicine and then its biological activities and clinical effects in the dental treatments.

Concept of Oriental Medicine
Western medicine is a proof medicine that is based on the medical evidence, while Oriental medicine is a traditional medicine that has accumulated the evidence based on the experiences [7]. The modern medicine has made great advances by accumulating scientific evidences but it was at the same time a challenge to the limit of the medicine and it has added a new dimension of problems such as the side effects of medicines to cope up with the aggravation of diseases. In recent years, medical evidences of Kampo prescription (traditional medicine in Japan based on the traditional Chinese medicine), which is one of the pharmacotherapies of Oriental medicine, has become widely known. It is making it possible to include Kampo in the pharmacotherapy of the modern medicine, in consideration of its role as biological response modifiers (BRMs) of the vital balance. Oriental medicine was generated from the concept that the natural world consists of the opposing axis of Yin (Table A1) or "non-resistant" and Yang or "resistant," where the relativity of these axes maintains the In-Yo or Yin-Yang: When the switch-over between two representative autonomic nerves, the sympathetic nerves (yang) and the parasympathetic nerves (yin), is good, the yin-yang balance is kept well. Kyo-Jits or asthenia and sthenia show physical strength, constitutional characteristics of body and the strength of resistance against disease. The reaction differs, depending on their Kyo-Sho or Jitsu-Sho. It is categorized into Jitsu-Sho (excess symptom), Kyo-Sho (deficiency symptom) and Chukan-Sho (symptom in-between the two). Kan-Netsu or chills and fever: Kan is Yin while Netsu is Yang. They are always in a relative relation. When Yin deteriorates, Yang predominates, called Netsu-sho (heat syndrome).

Differences from the Western Medicine
Oriental medicine and Western medicine are both medical sciences, fundamentally and equally. Oriental medicine identifies the disease mainly based on the pathological condition at the time of diagnosis. It understands that a part of the body appeals the problem and it spreads to the entire body and shows the symptom in that part. Therefore, the treatment aims at alleviating the symptom while improving the pathological condition itself. This pathological condition is called Sho or Kampo Diagnosis.
The Western medicine diagnoses based on the demonstrated symptom and it emphasizes the importance of the examinations in order to find out the condition of the appearing symptoms, then gives it a name and treats it accordingly. On the other hand, Kampo medicine improves the symptom by improving the pathological condition presented in the form of Sho [2,8]. Sho is the measure to know the characteristics, size and depth of the disease, which would indicate the cause of the disease and the treatment, is given by finding out the cause of the pathological condition by Sho. From this, Oriental medicine makes it possible to treat the patient as expressed in the phrase "Different treatments for one disease; identical treatment for different diseases." It means that different treatments will be given for the same disease name of patients if the Sho (Kampo diagnosis) is different. Likewise, the same treatment will be given to the different disease names of patients, if the Sho is the same. Here in this article, the disease name means the name of the disease under the modern medical science (Figure 2). In-Yo or Yin-Yang: When the switch-over between two representative autonomic nerves, the sympathetic nerves (yang) and the parasympathetic nerves (yin), is good, the yin-yang balance is kept well. Kyo-Jits or asthenia and sthenia show physical strength, constitutional characteristics of body and the strength of resistance against disease. The reaction differs, depending on their Kyo-Sho or Jitsu-Sho. It is categorized into Jitsu-Sho (excess symptom), Kyo-Sho (deficiency symptom) and Chukan-Sho (symptom in-between the two). Kan-Netsu or chills and fever: Kan is Yin while Netsu is Yang. They are always in a relative relation. When Yin deteriorates, Yang predominates, called Netsu-sho (heat syndrome).

Differences from the Western Medicine
Oriental medicine and Western medicine are both medical sciences, fundamentally and equally. Oriental medicine identifies the disease mainly based on the pathological condition at the time of diagnosis. It understands that a part of the body appeals the problem and it spreads to the entire body and shows the symptom in that part. Therefore, the treatment aims at alleviating the symptom while improving the pathological condition itself. This pathological condition is called Sho or Kampo Diagnosis.
The Western medicine diagnoses based on the demonstrated symptom and it emphasizes the importance of the examinations in order to find out the condition of the appearing symptoms, then gives it a name and treats it accordingly. On the other hand, Kampo medicine improves the symptom by improving the pathological condition presented in the form of Sho [2,8]. Sho is the measure to know the characteristics, size and depth of the disease, which would indicate the cause of the disease and the treatment, is given by finding out the cause of the pathological condition by Sho. From this, Oriental medicine makes it possible to treat the patient as expressed in the phrase "Different treatments for one disease; identical treatment for different diseases." It means that different treatments will be given for the same disease name of patients if the Sho (Kampo diagnosis) is different. Likewise, the same treatment will be given to the different disease names of patients, if the Sho is the same. Here in this article, the disease name means the name of the disease under the modern medical science ( Figure 2).

The Categories of Sho
Shoko (Kampo medical conditions, symptoms in Western medical terms) consists of Yin-Yang with Kyo-Jitsu, Kan-Netsu and Hyo-Ri. They reflect the current pathogenic condition. Table 1 shows the definitions and classifications of Yin-Yang, Kyo-Jitsu (asthenia and sthenia) and Kan Netsu (chills and fever). Table 2 shows the definitions of Yin-Kyo, Yo-Kyo, Yin-Jitsu and Yo-Jitsu. Figure 3 shows the condition categories of Yin-Yang, Kyo-sho and Netsu-Kan in the body.

Yo-Jitsu (Yang excess) Definitions
Yin is insufficient and yan becomes relatively overactive; shows fever called asthenic fever; feverish symptom.
Yang is insufficient and yin relatively becomes overactive; asthenia cold; feeling chills.
Coldness comes from outside to constantly maintain the homeostasis of yin and yang and shows the state of chills, called Jitsu-Kan or sthenic cold; body is chilled and feeling cold.
Heat comes from outside to constantly maintain the homeostasis of yin and yang; and shows the state of heat, called Jitsu-Netsu or sthenic heat; feeling hot and excessive sw eating. Capturing the Shoko (yin-yang, Kyo-Jitsu or deficiency and excess, Kan-Netsu or chills and fever, Hyo-Ri or superficies and interior) as the holistic symptom caused by the pathological condition and it shows the condition of the patient at the time of diagnosis. Sho changes depending on the bodily sensation.

Definitions
Ability to resist the disease. The treatment differs, depending on whether the sho is yang and yin.

Definitions
Yin is insufficient and yan becomes relatively overactive; shows fever called asthenic fever; feverish symptom.
Yang is insufficient and yin relatively becomes overactive; asthenia cold; feeling chills.
Coldness comes from outside to constantly maintain the homeostasis of yin and yang and shows the state of chills, called Jitsu-Kan or sthenic cold; body is chilled and feeling cold.
Heat comes from outside to constantly maintain the homeostasis of yin and yang; and shows the state of heat, called Jitsu-Netsu or sthenic heat; feeling hot and excessive sw eating.

Cause of Illness
Disease in Kampo medicine is the disorder of harmony of spirit and body. The living body has physiological functions to maintain the homeostasis of the organism against the changes of internal and external environment. This function is called Shoki or healthy Ki. Shoki is a function which would defend the body against disease and would induce natural healing ability, where the natural healing ability would seek for the harmony of Ki, Ketsu and Sui (vital energy, blood circulation and aqua). In contrast, the factor that attempts to destroy the homeostasis is called Ja or Byoja or stress or pathogen. It induces the climate, emotion or virus to cause various physical abnormalities which would lead to diseases. Causes of disease are categorized into endogenous, exogenous and other factors.
Endogenous factor means that the cause of disease comes from the inside of body. It may be common emotions of human beings. It is a physiological phenomenon and may be quintessential in life. However, it can cause abnormality in the functions of internal organs, when mental stress persists or when a sudden strong shock hits us, because it would collapse the balance of Yin, Yang, Ki and Ketsu on such occasions. It is called the Seven Emotions -joy, anger, anxiety, worry, grief, apprehension and fear.
Exogenous factor means that ja invades the body from outside. Diseases occur influenced by the mental or physical changes when the body cannot accept the natural environment such as pathogens, severe natural environment and sudden climate changes. It is called the Six Pathogenic Agents -wind, cold, heat, humidity, dryness and fire (fever).
These are other factors, which would cause diseases due to other causes such as inadequate eating-drinking, fatigue, overwork, injury, poisoning, parasite and heredity. Ki is the source of energy of the entire biological activities and it circulates blood and bodily fluid in the whole body [8]. Therefore, the inhibition of the workings of Ki would inhibit the workings of Ketsu (blood circulation) and Sui (bodily liquid) and thus a disease would occur. Ki belongs to yang. When these elements are excessively active, it is called Jitsu or excess and is called Kyo or deficiency when these are deficient. Excessive Ki is called Ki-Gyaku (ki-Jitsu) or hyperactive ki. It is called Ki-Tai when stagnated due to over excess, while Ki-Kyo when under hypersecretion.

Ketsu, Blood Circulation
Blood circulates through the body and supplies nutrition to the five parenchymatous viscera (heart, liver, spleen, lung and kidney) and the six hollow viscera [gallbladder, stomach, small intestine, large intestine, urinary bladder and triple heater (sansho, a passage that controls the flow of air, blood and water)]. Ki and ketsu are interdependent each other -Ki warms up the body in Yang and ketsu nourishes the body in Yin. There are three states of Ketsu, namely, Ketsu-Netsu (Ketsu-Jitsu) (blood-heat), Oketsu (Ketsu-Tai) (blood stagnation) and Ketsu-Kyo (blood deficiency). Symptoms of blood-heat shows hematemesis, bloody stools, nose bleeds, for example and shows bleeding from tissue, constipation and yellowish urine [8]. When heated blood (ketsu-netsu) goes up to the upper body, it causes not only oketsu (blood stagnation) but also affects emotions such as irritation. Blood deficiency is the decay of the recuperation ability of blood. It causes so-called anaemia but also shows other dysfunction such as anorexia and weakening of digestion and absorption and these are governed by Ki. Blood will not circulate the body if Ki is insufficient to operate the blood vessels. This Ki in each part of the body is called Ei-ki or Yin-energy. Ki initiates functions of each organ of the body. Ketsu belongs to Yin. The concept of Oketsu or blood stagnation is the most important concept. Oketsu is a pathological change that would cause diseases when the blood is stagnated in the entire body or in a local tissue ( Figure 5).
Sansho (triple heater), one of the 12 main acupuncture channels in the body, responsible for moving energy between the upper body and the lower body.  Ki is the source of energy of the entire biological activities and it circulates blood and bodily fluid in the whole body [8]. Therefore, the inhibition of the workings of Ki would inhibit the workings of Ketsu (blood circulation) and Sui (bodily liquid) and thus a disease would occur. Ki belongs to yang. When these elements are excessively active, it is called Jitsu or excess and is called Kyo or deficiency when these are deficient. Excessive Ki is called Ki-Gyaku (ki-Jitsu) or hyperactive ki. It is called Ki-Tai when stagnated due to over excess, while Ki-Kyo when under hypersecretion.

Ketsu, Blood Circulation
Blood circulates through the body and supplies nutrition to the five parenchymatous viscera (heart, liver, spleen, lung and kidney) and the six hollow viscera [gallbladder, stomach, small intestine, large intestine, urinary bladder and triple heater (sansho, a passage that controls the flow of air, blood and water)]. Ki and ketsu are interdependent each other -Ki warms up the body in Yang and ketsu nourishes the body in Yin. There are three states of Ketsu, namely, Ketsu-Netsu (Ketsu-Jitsu) (blood-heat), Oketsu (Ketsu-Tai) (blood stagnation) and Ketsu-Kyo (blood deficiency). Symptoms of blood-heat shows hematemesis, bloody stools, nose bleeds, for example and shows bleeding from tissue, constipation and yellowish urine [8]. When heated blood (ketsu-netsu) goes up to the upper body, it causes not only oketsu (blood stagnation) but also affects emotions such as irritation. Blood deficiency is the decay of the recuperation ability of blood. It causes so-called anaemia but also shows other dysfunction such as anorexia and weakening of digestion and absorption and these are governed by Ki. Blood will not circulate the body if Ki is insufficient to operate the blood vessels. This Ki in each part of the body is called Ei-ki or Yin-energy. Ki initiates functions of each organ of the body. Ketsu belongs to Yin. The concept of Oketsu or blood stagnation is the most important concept. Oketsu is a pathological change that would cause diseases when the blood is stagnated in the entire body or in a local tissue ( Figure 5).
Sansho (triple heater), one of the 12 main acupuncture channels in the body, responsible for moving energy between the upper body and the lower body.

Oketsu
Pathological condition of Oketsu (blood stagnation) is expressed in a unique way to Kampo medicine and it is the most important concept [8]. In the modern medicine, it is perhaps more commonly understood as one of the syndromes of disability of microcirculation mechanism ( Figure 6). However, Kampo medicine does not simply diagnose the symptoms but it considers important to identify the pathological condition which caused the symptom and the following are considered the pathogenic Sho of Oketsu such as the changes in the blood vessels due to inflammation, accentuation of blood coagulation factors, blood congestion, polycythaemia, menstruation, pregnancy or child-delivery.

Oketsu
Pathological condition of Oketsu (blood stagnation) is expressed in a unique way to Kampo medicine and it is the most important concept [8]. In the modern medicine, it is perhaps more commonly understood as one of the syndromes of disability of microcirculation mechanism ( Figure  6). However, Kampo medicine does not simply diagnose the symptoms but it considers important to identify the pathological condition which caused the symptom and the following are considered the pathogenic Sho of Oketsu such as the changes in the blood vessels due to inflammation, accentuation of blood coagulation factors, blood congestion, polycythaemia, menstruation, pregnancy or childdelivery. When the following symptoms are observed, we diagnose them Oketsu; the patient feels mouth dryness and would moisten the mouth with water but does not want to drink water; the patient feels stomach fullness though the abdominal distension is not observed; burning fever is felt locally or universally; purple spots appear on the skin or membrane; purple spots are appearing on the skin or membrane; dark purple spots appear on the edge of the tongue and lips are pale; stool is black; easy bleeding. The endogenous factor is in imbalance of autonomic nerve and the exogenous factor is coldness and bruise.

Sui, Aua
Sui is also called Shin-Eki. Shin is the relatively thin and pure fluids such as fluid component of blood, tissue fluids, sweat and urine, while Eki is relatively thick and sticky fluids among the intracellular and secretory fluids [8]. Each shows Sho of Sui-Tai (Sui-Jitsu) and Sui-Kyo. Sui-tai means stagnation of the body fluid ( Figure 7).

Oketsu
Pathological condition of Oketsu (blood stagnation) is expressed in a unique way to Kampo medicine and it is the most important concept [8]. In the modern medicine, it is perhaps more commonly understood as one of the syndromes of disability of microcirculation mechanism ( Figure  6). However, Kampo medicine does not simply diagnose the symptoms but it considers important to identify the pathological condition which caused the symptom and the following are considered the pathogenic Sho of Oketsu such as the changes in the blood vessels due to inflammation, accentuation of blood coagulation factors, blood congestion, polycythaemia, menstruation, pregnancy or childdelivery. When the following symptoms are observed, we diagnose them Oketsu; the patient feels mouth dryness and would moisten the mouth with water but does not want to drink water; the patient feels stomach fullness though the abdominal distension is not observed; burning fever is felt locally or universally; purple spots appear on the skin or membrane; purple spots are appearing on the skin or membrane; dark purple spots appear on the edge of the tongue and lips are pale; stool is black; easy bleeding. The endogenous factor is in imbalance of autonomic nerve and the exogenous factor is coldness and bruise.

Sui, Aua
Sui is also called Shin-Eki. Shin is the relatively thin and pure fluids such as fluid component of blood, tissue fluids, sweat and urine, while Eki is relatively thick and sticky fluids among the intracellular and secretory fluids [8]. Each shows Sho of Sui-Tai (Sui-Jitsu) and Sui-Kyo. Sui-tai means stagnation of the body fluid ( Figure 7).  When the following symptoms are observed, we diagnose them Oketsu; the patient feels mouth dryness and would moisten the mouth with water but does not want to drink water; the patient feels stomach fullness though the abdominal distension is not observed; burning fever is felt locally or universally; purple spots appear on the skin or membrane; purple spots are appearing on the skin or membrane; dark purple spots appear on the edge of the tongue and lips are pale; stool is black; easy bleeding. The endogenous factor is in imbalance of autonomic nerve and the exogenous factor is coldness and bruise.

Sui, Aua
Sui is also called Shin-Eki. Shin is the relatively thin and pure fluids such as fluid component of blood, tissue fluids, sweat and urine, while Eki is relatively thick and sticky fluids among the intracellular and secretory fluids [8]. Each shows Sho of Sui-Tai (Sui-Jitsu) and Sui-Kyo. Sui-tai means stagnation of the body fluid ( Figure 7).
Unevenly distributed Sui or aqua causes a local oedema. When it is linked with blood-heat, it becomes Tan-In-diseases and the fluid becomes sticky phlegm. As the blood-heat is understood as the inflammatory blood, it can appear when physical infection control is conducted. Ko-Katsu or mouth dryness is a symptom appearing when water is temporarily exhausted due to insufficient intake of water. Fever, thirst and tongue dryness are also systemically observed. It is called Sui-Kyo or aqua deficiency, which occurs from the temporal water exhaustion and shows dehydration. Xerostomia is a symptom of chronical insufficiency of water. Patients would feel mouth dryness and appeal lip dryness and cracks but would not want to drink water. It is mainly caused by the endogenous factors and systemically showing Yin-Kyo or Yin-deficiency and is diagnosed as Oketsu-Sho. It also shows the deterioration of kidney functions that is the symptom of deterioration of Ki. Unevenly distributed Sui or aqua causes a local oedema. When it is linked with blood-heat, it becomes Tan-In-diseases and the fluid becomes sticky phlegm. As the blood-heat is understood as the inflammatory blood, it can appear when physical infection control is conducted. Ko-Katsu or mouth dryness is a symptom appearing when water is temporarily exhausted due to insufficient intake of water. Fever, thirst and tongue dryness are also systemically observed. It is called Sui-Kyo or aqua deficiency, which occurs from the temporal water exhaustion and shows dehydration. Xerostomia is a symptom of chronical insufficiency of water. Patients would feel mouth dryness and appeal lip dryness and cracks but would not want to drink water. It is mainly caused by the endogenous factors and systemically showing Yin-Kyo or Yin-deficiency and is diagnosed as Oketsu-Sho. It also shows the deterioration of kidney functions that is the symptom of deterioration of Ki.

Views on Periodontal Disease and Toothache
In the progress of periodontitis, the gingival blood circulation induces the loss of capillary vessels and become anaemia. This status is so-called Ketsu-Kyo (blood deficiency) in Kampo. Ketsu-Kyo affects the nutritional disorder of gingiva and reduces oral immune system. Consequently, microcirculatory dysfunction induces the loss of oral biological activity, increasing the numbers of compromised hosts. This status is called Oketsu (blood stasis) in Kampo. Oketsu was observed in 70% to 80% of the randomly chosen periodontal patients above age 40 ( Figure 8).

Views on Periodontal Disease and Toothache
In the progress of periodontitis, the gingival blood circulation induces the loss of capillary vessels and become anaemia. This status is so-called Ketsu-Kyo (blood deficiency) in Kampo. Ketsu-Kyo affects the nutritional disorder of gingiva and reduces oral immune system. Consequently, microcirculatory dysfunction induces the loss of oral biological activity, increasing the numbers of compromised hosts. This status is called Oketsu (blood stasis) in Kampo. Oketsu was observed in 70% to 80% of the randomly chosen periodontal patients above age 40 ( Figure 8). Unevenly distributed Sui or aqua causes a local oedema. When it is linked with blood-heat, it becomes Tan-In-diseases and the fluid becomes sticky phlegm. As the blood-heat is understood as the inflammatory blood, it can appear when physical infection control is conducted. Ko-Katsu or mouth dryness is a symptom appearing when water is temporarily exhausted due to insufficient intake of water. Fever, thirst and tongue dryness are also systemically observed. It is called Sui-Kyo or aqua deficiency, which occurs from the temporal water exhaustion and shows dehydration. Xerostomia is a symptom of chronical insufficiency of water. Patients would feel mouth dryness and appeal lip dryness and cracks but would not want to drink water. It is mainly caused by the endogenous factors and systemically showing Yin-Kyo or Yin-deficiency and is diagnosed as Oketsu-Sho. It also shows the deterioration of kidney functions that is the symptom of deterioration of Ki.

Views on Periodontal Disease and Toothache
In the progress of periodontitis, the gingival blood circulation induces the loss of capillary vessels and become anaemia. This status is so-called Ketsu-Kyo (blood deficiency) in Kampo. Ketsu-Kyo affects the nutritional disorder of gingiva and reduces oral immune system. Consequently, microcirculatory dysfunction induces the loss of oral biological activity, increasing the numbers of compromised hosts. This status is called Oketsu (blood stasis) in Kampo. Oketsu was observed in 70% to 80% of the randomly chosen periodontal patients above age 40 ( Figure 8). Although there are Kampo medicines which contain analgesic effect but they are not comparable to the western medicines. In oriental medicine, pain is understood as the change of symptom to maintain the homeostasis of organism. The flows of ki, ketsu, sui (vital energy, blood circulation function and aqua) deteriorate and it causes the unwell condition from stagnation. Therefore, Kampo medicine emphasizes to recuperate the body condition to normal. The background of pain would include not only infections and injuries but also the environmental and mental stress, where psychological factor would cause anxiety and anger and can go back to the emotions in the past. Chinese proverb says that good circulation brings no pain (= stagnation), meaning that if it flows, no pain.
Occlusal trauma, occlusal destruction and traumatic occlusion are intraoral fragility and could cause systemic symptoms ( Figure 9). 9 maintain the homeostasis of organism. The flows of ki, ketsu, sui (vital energy, blood circulation function and aqua) deteriorate and it causes the unwell condition from stagnation. Therefore, Kampo medicine emphasizes to recuperate the body condition to normal. The background of pain would include not only infections and injuries but also the environmental and mental stress, where psychological factor would cause anxiety and anger and can go back to the emotions in the past. Chinese proverb says that good circulation brings no pain (= stagnation), meaning that if it flows, no pain.
Occlusal trauma, occlusal destruction and traumatic occlusion are intraoral fragility and could cause systemic symptoms ( Figure 9).

Tongue Diagnosis
Clinical tongue conditions reflect the diseases of internal organs. The important points of clinical observations are colours, coatings and volume of the tongue [8]. The tension of the tongue (shape and lustre) change to the depending on the fall and rise of Ki-Ketsu and the location and the depth of the pathogen in body. Coating of the tongue mostly indicates the stomach condition, especially, dampness-dryness, coldness-heat of the body. Normal and abnormal conditions are shown in Tables  4 and 5.

Tongue Diagnosis
Clinical tongue conditions reflect the diseases of internal organs. The important points of clinical observations are colours, coatings and volume of the tongue [8]. The tension of the tongue (shape and lustre) change to the depending on the fall and rise of Ki-Ketsu and the location and the depth of the pathogen in body. Coating of the tongue mostly indicates the stomach condition, especially, dampness-dryness, coldness-heat of the body. Normal and abnormal conditions are shown in Tables 4  and 5.  Kampo promotes the metabolism involved in the physical growth, development and physiological activity. Kampo moderate Ketsu and Sui, so that the blood runs in blood vessels and prevents blood from leaking outside. Kampo produces Ki that works to produce Ketsu and Sui, thus converting fluids into sweat and urine.
Changes in the internal organs (liver, heart, lienogastric, lung and kidney) are reflected on the tongue ( Figure 10). It tells the Sho of disease, namely, Kyo, Jitsu, Hyo and Ri. Tongue diagnosis is very important among the empirical diagnostic techniques. Systematic diagnosis theory has been formed based on the empirical evidences over several thousands of years. The rise and fall of Ki, Ketsu and Sui reflect the advance or retreat of illness. Severity of the disease can be seen on the tongue. Therefore, pathological changes of a disease are shown in the change of the tongue at its early stage. It is called Mibyo or pre-symptomatic in Kampo medicine. It is important diagnostic criteria and is recognized as a clue to find the cause of the illness at an early stage in the primary care.  Kampo promotes the metabolism involved in the physical growth, development and physiological activity. Kampo moderate Ketsu and Sui, so that the blood runs in blood vessels and prevents blood from leaking outside. Kampo produces Ki that works to produce Ketsu and Sui, thus converting fluids into sweat and urine.
Changes in the internal organs (liver, heart, lienogastric, lung and kidney) are reflected on the tongue ( Figure 10). It tells the Sho of disease, namely, Kyo, Jitsu, Hyo and Ri. Tongue diagnosis is very important among the empirical diagnostic techniques. Systematic diagnosis theory has been formed based on the empirical evidences over several thousands of years. The rise and fall of Ki, Ketsu and Sui reflect the advance or retreat of illness. Severity of the disease can be seen on the tongue. Therefore, pathological changes of a disease are shown in the change of the tongue at its early stage. It is called Mibyo or pre-symptomatic in Kampo medicine. It is important diagnostic criteria and is recognized as a clue to find the cause of the illness at an early stage in the primary care.  Tongue is thin and lean; Nutrition, water and blood circulation were insufficient. Right: Kyo-Netsu: Sticky blood; stagnated; Nutrition. water and blood body fluids were insufficient. Body is dry, since the heat remains to circulate internally. (E) Abnormal tongue (Okesu). Blood heat condition in tongue. Ischemia (tongue: cyanosis) and over-swelling of sublingual veins. Systemically impaired flow of blood. These photos were taken, after obtaining the informed consent from the patients, under the condition that the patients are not identified. (Watanabe S, unpublished data)

Therapeutic Effect of Juzentaihoto
Periodontitis is the most common chronic inflammatory disease in humans and is characterized by alveolar bone loss and connective tissue destruction. Periodontitis is exacerbated by risk factors including age, gender, smoking, systematic diseases and psychological stress [10]. The stress response mediates the interaction between unfavourable psychological conditions and inflammatory periodontal disease. There is a higher prevalence of chronic destructive periodontal disease in individuals with psychological stress, which may be associated with acute necrotizing periodontal disease [11]. Psychological stress downregulates the cellular immune response, which may link the stress to periodontal disease [12]. Herbal medicines, such as Juzentaihoto (JTT), have good therapeutic effects for stress-related systematic diseases and minimal side effects. JTT consists of 10 herbs: Ginseng radix, Astragali radix, Angelicae radix, Rehmanniae radix, Atractylodis lanceae rhizoma, Cinnamomi cortex, Poria, Paeoniae radix, Ligustici rhizome and Glycyrrhizae radix. JTT is traditionally used for anaemia, rheumatoid arthritis, chronic fatigue syndrome and inflammatory bowel disease. It is widely used to prevent cancer metastasis and infection in immunocompromised patients [13]. We had examined the efficacy of JTT to prevent periodontitis.

Bactericidal Effect of JTT on P. gingivalis
We evaluated the bactericidal effect of JTT on P. gingivalis. Treatment of P. gingivalis with 0.1 to 10 mg/mL JTT reduced the number of viable cells in a dose-dependent manner. In particular, bacterial reduction by 10 mg/mL JTT was greater than that of 0 (control), 0.1 and 1 mg/mL JTX treatment at 60 minutes [14] (Figure 11), suggesting that JTT may suppress virulence factors from periodontal bacteria and prevent the progression of periodontitis. Some herbs from JTT and their ingredients have antimicrobial effects [15]. Compounds from Glycyrrhizae radix inhibit the growth of P. gingivalis [16]. Glycyrrhizae radix may have an important role in the bactericidal effect of JTT on P. gingivalis.

Therapeutic Effect of Juzentaihoto
Periodontitis is the most common chronic inflammatory disease in humans and is characterized by alveolar bone loss and connective tissue destruction. Periodontitis is exacerbated by risk factors including age, gender, smoking, systematic diseases and psychological stress [10]. The stress response mediates the interaction between unfavourable psychological conditions and inflammatory periodontal disease. There is a higher prevalence of chronic destructive periodontal disease in individuals with psychological stress, which may be associated with acute necrotizing periodontal disease [11]. Psychological stress downregulates the cellular immune response, which may link the stress to periodontal disease [12]. Herbal medicines, such as Juzentaihoto (JTT), have good therapeutic effects for stress-related systematic diseases and minimal side effects. JTT consists of 10 herbs: Ginseng radix, Astragali radix, Angelicae radix, Rehmanniae radix, Atractylodis lanceae rhizoma, Cinnamomi cortex, Poria, Paeoniae radix, Ligustici rhizome and Glycyrrhizae radix. JTT is traditionally used for anaemia, rheumatoid arthritis, chronic fatigue syndrome and inflammatory bowel disease. It is widely used to prevent cancer metastasis and infection in immunocompromised patients [13]. We had examined the efficacy of JTT to prevent periodontitis.

Bactericidal Effect of JTT on P. gingivalis
We evaluated the bactericidal effect of JTT on P. gingivalis. Treatment of P. gingivalis with 0.1 to 10 mg/mL JTT reduced the number of viable cells in a dose-dependent manner. In particular, bacterial reduction by 10 mg/mL JTT was greater than that of 0 (control), 0.1 and 1 mg/mL JTX treatment at 60 minutes [14] (Figure 11), suggesting that JTT may suppress virulence factors from periodontal bacteria and prevent the progression of periodontitis. Some herbs from JTT and their ingredients have antimicrobial effects [15]. Compounds from Glycyrrhizae radix inhibit the growth of P. gingivalis [16]. Glycyrrhizae radix may have an important role in the bactericidal effect of JTT on P. gingivalis.  . Antibacterial effect of JTT on P. gingivalis. Bacterial cells were treated with 10 mg/mL ( ), 1 mg/mL ( ) or 0.1 mg/mL of JTT (•) or 0 mg/mL of JTT ( ) for the indicated period. At the end of the incubation period, a 10-fold serial dilution was performed in phosphate-buffered saline (PBS; pH 7.4) and spread onto a BHI blood agar plate broth supplemented with hemin (5 µg/mL), vitamin K 1 (0.2 µg/mL) and yeast extract (5 mg/mL). The number of CFU (colony forming unit) was determined after 7 days of incubation under anaerobic conditions (CO 2 : 10%, H 2 : 10%, N 2 : 80%) at 37 • C. Cited from [14] with permission.

Anti-osteoclastogenesis Effect of JTT
We investigated whether JTT inhibits the osteoclast differentiation using a mouse co-culture system, according to the guideline of the intramural Committee of Ethics on Animal Experiments. Bone marrow cells (1.5×10 5 cells/well) obtained from the tibiae of 5-8-week-old BALB/c mice and pre-adipose cell line MC3T3-G2/PA6 cells (1.5×10 4 cells/well) were co-cultured for 7 days in the presence of 10 nM 1a,25-(OH) 2 D 3 (calcitriol) and 10 nM dexamethasone in α modification of Minimum Essential Medium (α-MEM) supplemented with 20% FBS (foetal bovine serum) in 48-well plates under a 5% CO 2 atmosphere. Osteoclast was defined as tartrate-resistant acid phosphatase (TRAP)-positive multinucleated cells containing three or more nuclei. Treatment with JTT at concentrations of 10, 1 and 0.1 µg/mL significantly inhibited osteoclast formation ( Figure 12A) [14]. A low concentration (0.1 µg/mL) of JTX significantly inhibited the osteoclast formation compared to control ( Figure 12B). Angelicae gigantis radix, one of the components in JTT, significantly decreased osteoclast formation [17]. Therefore, JTT can be a therapeutic drug that prevents periodontitis.

Anti-osteoclastogenesis Effect of JTT
We investigated whether JTT inhibits the osteoclast differentiation using a mouse co-culture system, according to the guideline of the intramural Committee of Ethics on Animal Experiments. Bone marrow cells (1.5×10 5 cells/well) obtained from the tibiae of 5-8-week-old BALB/c mice and preadipose cell line MC3T3-G2/PA6 cells (1.5×10 4 cells/well) were co-cultured for 7 days in the presence of 10 nM 1a,25-(OH)2D3 (calcitriol) and 10 nM dexamethasone in α modification of Minimum Essential Medium (α-MEM) supplemented with 20% FBS (foetal bovine serum) in 48-well plates under a 5% CO2 atmosphere. Osteoclast was defined as tartrate-resistant acid phosphatase (TRAP)positive multinucleated cells containing three or more nuclei. Treatment with JTT at concentrations of 10, 1 and 0.1 µg/mL significantly inhibited osteoclast formation ( Figure 12A) [14]. A low concentration (0.1 µg/mL) of JTX significantly inhibited the osteoclast formation compared to control ( Figure 12B). Angelicae gigantis radix, one of the components in JTT, significantly decreased osteoclast formation [17]. Therefore, JTT can be a therapeutic drug that prevents periodontitis.

Clinical of JTT
Kampo medicine and adjustment of denture were effective for a patient (80 years old, female, cervical cancer operated 25 years ago with good prognosis), with symptom of spinal canal stenosis, cervical vertebra stenosis, dizziness, unsteadiness and oppression on the chest. She was diagnosed as inadaptation of the denture, oral malaise (tongue), dysfunction of masticatory and xerostomia. Her oketsu (blood stagnation) was improved by taking JTT mornings and evenings -2 doses before meals. Swelling and oedema of the tongue was improved by taking Goreisan (GRS) before going to bed. Medical consultation resulted in the improvement of mental condition. Two Kampo medicines, GRS (that improves Sui-Tai or fluid retention symptom caused by poor metabolism of water) and JTT [that enhances ki (vital energy) and ketsu (blood circulation function) and improve fatigue, anaemia, low appetite, night sweat, cold hands and feet which accompany the decondition] were administered in this case. In the initial diagnosis, prescription of GRS showed no progress in 2 weeks, then additionally JTT was administered. After 1 month later ( Figure 13A), the filling pain when chewing with denture stopped jaws gliding and oppression on throat while sleeping. Two months later, she could bite off and eat food. She had no sensation of tongue torsion, stopped waking up at night due to the neck pain. Administration of GRS stopped due to frequent urination. Four months later ( Figure  13B), upon the mounting of dentures, she felt neck strain and torsion of denture and tongue. The

Clinical of JTT
Kampo medicine and adjustment of denture were effective for a patient (80 years old, female, cervical cancer operated 25 years ago with good prognosis), with symptom of spinal canal stenosis, cervical vertebra stenosis, dizziness, unsteadiness and oppression on the chest. She was diagnosed as inadaptation of the denture, oral malaise (tongue), dysfunction of masticatory and xerostomia. Her oketsu (blood stagnation) was improved by taking JTT mornings and evenings -2 doses before meals. Swelling and oedema of the tongue was improved by taking Goreisan (GRS) before going to bed. Medical consultation resulted in the improvement of mental condition. Two Kampo medicines, GRS (that improves Sui-Tai or fluid retention symptom caused by poor metabolism of water) and JTT [that enhances ki (vital energy) and ketsu (blood circulation function) and improve fatigue, anaemia, low appetite, night sweat, cold hands and feet which accompany the decondition] were administered in this case. In the initial diagnosis, prescription of GRS showed no progress in 2 weeks, then additionally JTT was administered. After 1 month later ( Figure 13A), the filling pain when chewing with denture stopped jaws gliding and oppression on throat while sleeping. Two months later, she could bite off and eat food. She had no sensation of tongue torsion, stopped waking up at night due to the neck pain. Administration of GRS stopped due to frequent urination. Four months later ( Figure 13B), upon the mounting of dentures, she felt neck strain and torsion of denture and tongue. The administration of GRS was restarted. Eight months later ( Figure 13C), she became able to chew any food, with no sensation of tongue swells. She did not wake up at night. Twelve months later ( Figure 13D), the administration of GRS was stopped but that of JTT was continued ( Figure 13). administration of GRS was restarted. Eight months later ( Figure 13C), she became able to chew any food, with no sensation of tongue swells. She did not wake up at night. Twelve months later ( Figure  13D), the administration of GRS was stopped but that of JTT was continued ( Figure 13). When making dental prosthesis, it is necessary to pay attention to the intraoral environment. In the case above, we observed the lower jaw denture floated due to tongue oedema and swelling and that the denture instability caused the occlusal pain and dysfunction of masticatory. We therefore prescribed Kampo medicines that would improve these symptoms. In this clinical case, we considered that the improvement of sui-tai (fluid stagnation) should be the target of Hyo-Chi, a local and symptomatic treatment, to improve the tongue oedema, so GRS was administered. However, we could not get the expected results, so JTT was also administered in the morning and before going to bed and it presented the trend of improvements from the next day. JTT is a Kampo medicine for honchi, that is, the systemic treatment of the fundamental cause of the disease. It is often observed in the dentistry and intraoral medicine that patient's conditions change until the symptom finally surfaces due to the chronical deficiencies. Especially, the entire body is psychologically and mentally affected when malocclusion exists. Under the situation that malocclusion lasts long, it is known that glucocorticoid appears in blood chronically due to the chronical stress from the malocclusion which would induce the malfunction of negative feedback. The Oriental medicine explains that the symptoms of Ki and Ketsu occur and they worsen as the time elapses. In our case above, GRS manifested its effect at early timing by the simultaneous administration of JTT. It not only cured the oedema of the tongue but also mentally stabilized the patient.
JTT is known to improve the pathological condition of the blood circulation and mental stability. When the condition of the disease is found difficult to improve, Kampo medicine of hon-chi (treatment of fundamental cause), in combination would relieve the symptoms.

Bactericidal Effect of Jixueteng
Jixueteng is prepared from the dried stems of Spatholobus suberectus (S. suberectus) Dunn of the family Leguminosae. Jixueteng has beneficial pharmacological properties such as increasing circulation, analgesia and the number of red and white blood cells [18]. Jixueteng contains various types of flavonoids such as flavone, isoflavones, flavanones, flavanonols and chalcone [19]. Flavonoids are natural products that show antibacterial [20] and antioxidant activities [21]. Production of reactive oxygen species (ROS) is decreased by Jixueteng in a dose-dependent manner [22]. Therefore, we focused on the bactericidal effect of Jixueteng on oral bacteria. The gram-positive species, Streptococcus mutans Ingbritt (S. mutans) and the gram-negative species, Aggregatibacter actinomycetemcomitans ATCC 29523 (A. actinomycetemcomitans), Fusobacterium nucleatum ATCC 25586 (F. nucleatum), Porphyromonas gingivalis ATCC 33277 (P. gingivalis) and Veillonella parvula GAI-0580 (V. parvula), were grown in BHI broth and suspended in PBS to an optical density of 1.0 at 600 nm. Fifty µL of bacterial suspension was exposed for 1, 15 and 60 min in the presence of 0, 0.2, 2.0 or 8% When making dental prosthesis, it is necessary to pay attention to the intraoral environment. In the case above, we observed the lower jaw denture floated due to tongue oedema and swelling and that the denture instability caused the occlusal pain and dysfunction of masticatory. We therefore prescribed Kampo medicines that would improve these symptoms. In this clinical case, we considered that the improvement of sui-tai (fluid stagnation) should be the target of Hyo-Chi, a local and symptomatic treatment, to improve the tongue oedema, so GRS was administered. However, we could not get the expected results, so JTT was also administered in the morning and before going to bed and it presented the trend of improvements from the next day. JTT is a Kampo medicine for hon-chi, that is, the systemic treatment of the fundamental cause of the disease. It is often observed in the dentistry and intraoral medicine that patient's conditions change until the symptom finally surfaces due to the chronical deficiencies. Especially, the entire body is psychologically and mentally affected when malocclusion exists. Under the situation that malocclusion lasts long, it is known that glucocorticoid appears in blood chronically due to the chronical stress from the malocclusion which would induce the malfunction of negative feedback. The Oriental medicine explains that the symptoms of Ki and Ketsu occur and they worsen as the time elapses. In our case above, GRS manifested its effect at early timing by the simultaneous administration of JTT. It not only cured the oedema of the tongue but also mentally stabilized the patient.
JTT is known to improve the pathological condition of the blood circulation and mental stability. When the condition of the disease is found difficult to improve, Kampo medicine of hon-chi (treatment of fundamental cause), in combination would relieve the symptoms.

Bactericidal Effect of Jixueteng
Jixueteng is prepared from the dried stems of Spatholobus suberectus (S. suberectus) Dunn of the family Leguminosae. Jixueteng has beneficial pharmacological properties such as increasing circulation, analgesia and the number of red and white blood cells [18]. Jixueteng contains various types of flavonoids such as flavone, isoflavones, flavanones, flavanonols and chalcone [19]. Flavonoids are natural products that show antibacterial [20] and antioxidant activities [21]. Production of reactive oxygen species (ROS) is decreased by Jixueteng in a dose-dependent manner [22]. Therefore, we focused on the bactericidal effect of Jixueteng on oral bacteria. The gram-positive species, Streptococcus mutans Ingbritt (S. mutans) and the gram-negative species, Aggregatibacter actinomycetemcomitans ATCC 29523 (A. actinomycetemcomitans), Fusobacterium nucleatum ATCC 25586 (F. nucleatum), Porphyromonas gingivalis ATCC 33277 (P. gingivalis) and Veillonella parvula GAI-0580 (V. parvula), were grown in BHI broth and suspended in PBS to an optical density of 1.0 at 600 nm. Fifty µL of bacterial suspension was exposed for 1, 15 and 60 min in the presence of 0, 0.2, 2.0 or 8% Jixueteng extract. The same volume of PBS was used as a control. At the end of the incubation period, a 10-fold serial dilution was inoculated onto BHI sheep blood agar plates and incubated anaerobically at 37 • C for 7 days. The bactericidal effect of Jixueteng was determined by counting the number of bacterial cells. Jixueteng extract reduced the number of viable bacterial cells, such as S. mutans ( Figure 14A), P. gingivalis ( Figure 14B), V. parvula ( Figure 14C) and F. nucleatum ( Figure 14D) (Figure 14). In particular, the bactericidal effects of Jixueteng against F. nucleatum ( Figure 14D) was higher than those of other oral bacteria. After treatment with 8% Jixueteng extract for 60 min, the number of P. gingivalis was decreased from 4.61 × 10 9 to 2.90 × 10 6 per millilitre ( Figure 14B) [23]. Gram-negative periodontal pathogens are late colonizers of dental plaque and promote inflammatory tissue destruction in the oral cavity [24]. Thus, Jixueteng extract may act selectively on periodontal bacteria and break down dental plaque accumulation. Jixueteng extract. The same volume of PBS was used as a control. At the end of the incubation period, a 10-fold serial dilution was inoculated onto BHI sheep blood agar plates and incubated anaerobically at 37°C for 7 days. The bactericidal effect of Jixueteng was determined by counting the number of bacterial cells. Jixueteng extract reduced the number of viable bacterial cells, such as S. mutans ( Figure  14A), P. gingivalis ( Figure 14B), V. parvula ( Figure 14C) and F. nucleatum ( Figure 14D) (Figure 14). In particular, the bactericidal effects of Jixueteng against F. nucleatum ( Figure 14D) was higher than those of other oral bacteria. After treatment with 8% Jixueteng extract for 60 min, the number of P. gingivalis was decreased from 4.61 × 10 9 to 2.90 × 10 6 per millilitre ( Figure 14B) [23]. Gram-negative periodontal pathogens are late colonizers of dental plaque and promote inflammatory tissue destruction in the oral cavity [24]. Thus, Jixueteng extract may act selectively on periodontal bacteria and break down dental plaque accumulation.

Inhibitory Effect of Jixueteng on Osteoblast Differentiation
In periodontitis, several cytokines, such as interleukin (IL)-1, prostaglandin (PG) E2 and RANKL (receptor activator of NF-κB ligand), promote osteoclast differentiation. RANKL, a tumour necrosis factor (TNF)-family member, binds to its receptor RANK, which is on the surface of osteoclasts and preosteoclasts. The interaction between RANK and RANKL signalling is important for osteoclastogenesis [25]. To examine the influence of Jixueteng on osteoclastogenesis, we used mouse co-cultured cells in the presence of 1α,25-(OH)2D3 and dexamethasone. Jixueteng extracts were added to co-cultured cells at a final concentration of 0.1%, 0.01%, 0.001% and 0.0001% and cultivated for 7 days under 5% CO2 atmosphere. After 7 days, cells were fixed and stained for TRAP. TRAP-positive multinucleated cells containing three of more nuclei were counted as osteoclasts. The treatment of Jixueteng extract (at concentrations of 0.1% and 0.01%) significantly inhibited osteoclast formation (P < 0.01). Addition of 0.1% extract completely inhibited TRAP-positive cells and multinucleated osteoclasts. In addition, the inhibitory effect of Jixueteng on osteoclast survival was determined by mouse co-cultured cells in the presence of RANKL and PGE2. The number of osteoclasts was decreased with 0.001 to 0.1 mg/mL Jixueteng in a dose-dependent manner [26]. These results suggest that Jixueteng inhibits osteoclastogenesis and reduces osteoclast activity in periodontitis.

Inhibitory Effect of Jixueteng on Osteoblast Differentiation
In periodontitis, several cytokines, such as interleukin (IL)-1, prostaglandin (PG) E 2 and RANKL (receptor activator of NF-κB ligand), promote osteoclast differentiation. RANKL, a tumour necrosis factor (TNF)-family member, binds to its receptor RANK, which is on the surface of osteoclasts and preosteoclasts. The interaction between RANK and RANKL signalling is important for osteoclastogenesis [25]. To examine the influence of Jixueteng on osteoclastogenesis, we used mouse co-cultured cells in the presence of 1α,25-(OH) 2 D 3 and dexamethasone. Jixueteng extracts were added to co-cultured cells at a final concentration of 0.1%, 0.01%, 0.001% and 0.0001% and cultivated for 7 days under 5% CO 2 atmosphere. After 7 days, cells were fixed and stained for TRAP. TRAP-positive multinucleated cells containing three of more nuclei were counted as osteoclasts. The treatment of Jixueteng extract (at concentrations of 0.1% and 0.01%) significantly inhibited osteoclast formation (P < 0.01). Addition of 0.1% extract completely inhibited TRAP-positive cells and multinucleated osteoclasts. In addition, the inhibitory effect of Jixueteng on osteoclast survival was determined by mouse co-cultured cells in the presence of RANKL and PGE 2 . The number of osteoclasts was decreased with 0.001 to 0.1 mg/mL Jixueteng in a dose-dependent manner [26]. These results suggest that Jixueteng inhibits osteoclastogenesis and reduces osteoclast activity in periodontitis.

Inhibitiory Effect of Alveolar Bone Resorption by Jixueteng on Mice Experimental Periodontitis
Flavonoids are effective ingredients for the inhibition of inflammatory bone resorption [27]. We evaluated the inhibitory effect of alveolar bone resorption by Jixueteng using an experimental periodontitis model, under the guideline of the intramural Committee of Ethics on Animal Experiments. Fifty-four male C57BL/6N 4-week-old mice were used. Mice were given sulfamethoxazole (1 mg/mL) and trimethoprim (200 mg/mL) in their drinking water for 4 days to reduce original oral flora followed by 3 days of an antibiotic-free period before bacterial infection. The bacteria used was P. gingivalis A, which was inoculated in BHI broth under anaerobic conditions. Animals were randomly divided into the following three groups: Group A received only 5% carboxymethylcellulose (CMC) (sham-infected group), group B was infected orally with P. gingivalis and group C was administered Jixueteng extract in drinking water and was infected orally with P. gingivalis. Each mouse in group B and group C was infected orally with P. gingivalis, which was suspended in 5% CMC and received 0.1 ml (1.0 × 10 10 cells/mL) of bacterial suspension. The bacterial infection was given by oral gavage (three times) at 48 h intervals. The mice were sacrificed 2, 4 and 6 weeks after the final bacterial infection to examine the change in alveolar bone resorption every 2 weeks. The left sides of the horizontal alveolar bone resorption around the maxillary molars were evaluated morphometrically as dry specimens to measure horizontal alveolar bone loss. The distance between the cemento-enamel junction (CEJ) and the alveolar bone crest (ABC) was measured at seven palatal sites per mouse. Measurements were made under a dissecting microscope (40× magnification) fitted with a digital high-definition system, standardized to provide measurements in millimetres. The right sides of the upper jaws were analysed for histology. The samples were fixed, decalcified and embedded in paraffin. The paraffin section was cut serially into 5-mm sections in a mesial-distal direction. The sections were stained for haematoxylin-eosin (H-E) and TRAP. In particular, TRAP-positive multinucleated cells were defined as osteoclasts and examined under an optical microscope (40× magnification). The number of osteoclasts was counted in the area of the periodontal tissue between the mesial root of the first molar and the distal root of the third molars. We found apparent horizontal bone loss in C57BL/6N mice challenged with P. gingivalis (group B) but not in the control (group A) or the Jixueteng-administered group (group C) ( Figure 15A). Figure 15B shows the mean values ± standard error (SEM) of the CEJ to ABC derived from seven measurement sites in weeks 2, 4 and 6 after infection. Induction of alveolar bone loss was more reproducible with an infection by P. gingivalis by oral gavage (group B) (p < 0.01) than in the sham-infected control (group A) 4 weeks after infection, whereas no difference was observed 2 weeks after infection. In all experimental groups, the maximum resorption of alveolar bone was observed at the end of the experiment and the mean bone levels of the sham-infected control (group A) and P. gingivalis infection group (group B) were 0.194 ± 0.001 mm and 0.228 ± 0.010 mm, respectively. Alveolar bone loss was significantly lower in the Jixueteng group (group C) (p < 0.01) than that of group B in weeks 4 and 6. The mean bone level of group C in week 6 was 0.188 ± 0.003 mm, which was comparable to that of the control group A (Figure 15) [28].
By histopathological examination, osteoclasts were observed along the alveolar septum in mice periodontal tissues (Figure 16). Table 6 shows the number of osteoclasts in the alveolar bone crest. No significant difference in the number of osteoclasts was observed among the experimental groups 2 weeks after infection.  By histopathological examination, osteoclasts were observed along the alveolar septum in mice periodontal tissues (Figure 16). Table 6 shows the number of osteoclasts in the alveolar bone crest. No significant difference in the number of osteoclasts was observed among the experimental groups 2 weeks after infection.  By histopathological examination, osteoclasts were observed along the alveolar septum in mice periodontal tissues ( Figure 16). Table 6 shows the number of osteoclasts in the alveolar bone crest. No significant difference in the number of osteoclasts was observed among the experimental groups 2 weeks after infection. Figure 16. Histopathological examination of mice periodontal tissues. Specimens obtained from the maxillary bone of mice were evaluated with TRAP staining. Osteoclasts (arrows) were observed along the alveolar septum of the maxillary molars. A, con-infected control; B, infected with P. gingivalis; C, administered Jixueteng and infected with P. gingivalis. Original magnification: × 10 and × 40. Bars: 100 µm. Scanning electron microscopy shows that compared to the normal group (A), morphological degeneration of vessels in vascular networks and abnormality of the vascular lumen caused by P. gingivalis infection were observed (B). However, improvement in degeneration of these vascular networks and prolongation of the vascular plexus were observed by administration of Jixueteng (C). Cited from [28] with permission. After 4 weeks, the number of osteoclasts in the P. gingivalis-infected group B was significantly higher than that of sham-infected group (group A) and the Jixueteng-administered group (group C) (p < 0.01) [28]. P. gingivalis has virulent factors that induce inflammatory responses and alveolar bone resorption [29]. This bacterium also invades and survives in host cells, inducing a network of inflammatory responses [30]. P. gingivalis also increases the likelihood of systemic diseases such as diabetes and cardiovascular disease [31]. We previously reported that Jixueteng improves gingival vascular networks in a P. gingivalis-induced periodontitis [28] (Figure 15). Jixueteng may inhibit the adherence and colonization of P. gingivalis in mice oral cavities. Therefore, our findings suggest that Jixueteng reduces the inflammatory destruction in periodontitis. Jixueteng has bactericidal effects against oral bacteria, inhibits the osteoclastogenesis and reduces the alveolar bone resorption induced by P. gingivalis. Jixueteng reduces the inflammatory tissue destruction in periodontitis and Jixueteng may be a useful ingredient to prevent periodontitis.

History of Mastic (Kampo Name: Yo-Nyuko olibanum)
Mastic is the resin collected from the naturally growing trees in only Chios Island in southeast Aegean Sea of Greece. It was initially called frankincense. Mastic has a long history, it is written in the Old Testament (Genesis 37:25) and many ancient Greek literatures mentioned the medical effect of mastic. Christopher Columbus, before he stayed in Portugal, visited Chios Island during his voyage to the Orient as recorded in his diary in 1474-1475 and he described about mastic; it is sticky sap extracted from tree and becomes resin when solidified. There has been a habit of chewing this in Greece since more than 5000 years ago and it was known that those people who had this habit rarely had digestive diseases. In China's classical Kampo medicine masterpiece of "Zu-Kei Honzo" (masterpiece of plant diagrams) also described it as Kun-roku-ko, kuduruka. The substance called frankincense today is the resin from the trees of Boswellia genus of the Burseraceae family that grow in north-eastern Africa or Arabian coast and it is different from the mastic from Greece. Traditional frankincense to present is the same kuduruka in the book of Honzo and they grow in the Mediterranean coast areas. Resin from the tree that belongs to the Anacardiaceae family is considered MASTICHE RESINA. This is called "mastic" or Yo-Nyuko in Kampo and is known as Pistacia lentiscus locally ( Figure 17). MASTICHE RESINA. This is called "mastic" or Yo-Nyuko in Kampo and is known as Pistacia lentiscus locally ( Figure 17). It is empirically proven that herbs that are used in folk therapies, including the herbal medicines constituting Kampo, have multifunctional medicinal effects. Mastic resin has a unique shape and various efficacy and has been used to promote health from old time. In addition, mastic resin has been used in chewing gums as a material for oral health and hygiene and indicated antiplaque activities. Recently in Japan, mastic has been receiving attention as material for oral cares and many companies are developing and selling mastic-formulated oral gels for toothbrushing paste.
Mastic has been forming a market of high-end products of oral cares. Also, dentists have been paying attentions to its effect and mastic is securing its position in the clinical medicine as the primary care product for oral cavity cares. To cope with the improvements of adult diseases and systemic diseases associated with the oral hygiene in the aging society of Japan and further to improve the oral health in Asia, a group of dentists launched an NPO called "Mastic Clinical Study Group." It has been running the public awareness building programs of the oral hygiene including preventive dentistry. Presently, many dentists are making use of mastic in the clinical studies and are promoting its use in the treatment of patients and to spread the awareness of the primary cares. It is empirically proven that herbs that are used in folk therapies, including the herbal medicines constituting Kampo, have multifunctional medicinal effects. Mastic resin has a unique shape and various efficacy and has been used to promote health from old time. In addition, mastic resin has been used in chewing gums as a material for oral health and hygiene and indicated antiplaque activities. Recently in Japan, mastic has been receiving attention as material for oral cares and many companies are developing and selling mastic-formulated oral gels for toothbrushing paste.
Mastic has been forming a market of high-end products of oral cares. Also, dentists have been paying attentions to its effect and mastic is securing its position in the clinical medicine as the primary care product for oral cavity cares. To cope with the improvements of adult diseases and systemic diseases associated with the oral hygiene in the aging society of Japan and further to improve the oral health in Asia, a group of dentists launched an NPO called "Mastic Clinical Study Group." It has been running the public awareness building programs of the oral hygiene including preventive dentistry. Presently, many dentists are making use of mastic in the clinical studies and are promoting its use in the treatment of patients and to spread the awareness of the primary cares.

Antimicrobial Activity
Compared with the group, which used the PBS mouthwash, the group that used the mastic-formulated gums showed the significant inhibition of the increase of oral bacteria ( Figure 18). Compared with the group that used the gums without mastic formulation, it inhibited the increase of the pathogenic bacteria and the effect was equivalent of benzalkonium chloride. Stick examined the antibacterial effect against gram-negative bacteria. The result of the examination of the minimum inhibitory concentration (MIC) of mastic resin oil against the oral bacterial groups showed it had antibacterial effect (< 0.05%) for adult periodontal bacteria, P. gingivalis. Mastic rein oil also showed great selective effect at < 0.05% against Fusobacterium nucleatum (Table 9). F. nucleatum is an important periodontal bacterium that derives the bacterial agglutination on the dental plaque formation. Mastic rein oil can reduce the dental plaque and promote the prevention of periodontitis.  Stick examined the antibacterial effect against gram-negative bacteria. The result of the examination of the minimum inhibitory concentration (MIC) of mastic resin oil against the oral bacterial groups showed it had antibacterial effect (< 0.05%) for adult periodontal bacteria, P. gingivalis. Mastic rein oil also showed great selective effect at < 0.05% against Fusobacterium nucleatum (Tables 7  and 8). F. nucleatum is an important periodontal bacterium that derives the bacterial agglutination on the dental plaque formation. Mastic rein oil can reduce the dental plaque and promote the prevention of periodontitis.

Anti-inflammatory Activity
Essential oil of mastic showed a strong iron chelating activity (IC 50 = 20 µg/mL) and actively scavenged hydroxyl radical (IC 50 = 3 µg/mL) and protected tert-butyl hydroperoxide-treated lymphocyte [44]. Mastic inhibited the production of nitric oxide (NO) and prostaglandin (PG)E 2 , as well as expression of inducible NO synthase (iNOS) and cyclooxygenase (COX)-2 protein and mRNA, induced by lipopolysaccharide (LPS)-activated mouse macrophage-like RAW264.7 cells. Mastic scavenged hydroxyl radical more potently than NO and superoxide radicals. The narrow range of effective concentration of mastic due to its cytotoxicity may limit its potential application as an anti-inflammatory agent [45].

Inhibition of CYPs
Five days oral treatment with Pistacia lentiscus oil 100 µL per mice did not show any undesirable effect on the function of kidney and liver but significantly inhibited the enzyme activity and expression of CYP1A1, CYP1A2, CYP2E1 and CYP3A4, especially in the liver tissue [46]. The result suggests the possibility that when mastic is used in combination with other pharmacological agents, the biological action of the latter may be more enhanced.

Oral Application of Mastic Gel
Salivary bacteria create healthy microbiomes when the intraoral condition becomes good. In order to maintain the good intraoral environment, we developed a gel toothpaste with mastic (Boswellia carterii, Kampo name: Yo-Nyuko), a mouthwash with Kampo herbs formulated ( Figure 19).
Since the patient had lost the freedom of his hands thus the prevention infection control after treatment would be difficult, it was decided to try treatments using dental laser and Kampo mouth wash and mastic gel to improve the gingival tissue [47][48][49]. Then, we show a clinical case using the mastic gel in oral cavity. The following is the clinical report of patients treated with mastic in our dental clinic, after obtaining the informed consent from the patient, under the condition that the patient is not identified (Figure 20).

21
= 12.1 µg/mL), unfractionated sample (IC50 = 14.3 µg/mL), ethyl acetate extract (IC50=14.8 µg/ml) (C) and, finally, methanol extract (refluxed) (IC50 = 24.4 µg/ml). Washing out these CYP3A4 inhibitory substance with n-hexane may reduce these pharmacological action or side-effects of combined drugs [34]. 6.3.6. Oral Application of Mastic Gel Salivary bacteria create healthy microbiomes when the intraoral condition becomes good. In order to maintain the good intraoral environment, we developed a gel toothpaste with mastic (Boswellia carterii, Kampo name: Yo-Nyuko), a mouthwash with Kampo herbs formulated ( Figure 19). Since the patient had lost the freedom of his hands thus the prevention infection control after treatment would be difficult, it was decided to try treatments using dental laser and Kampo mouth wash and mastic gel to improve the gingival tissue [47][48][49]. Then, we show a clinical case using the mastic gel in oral cavity. The following is the clinical report of patients treated with mastic in our dental clinic, after obtaining the informed consent from the patient, under the condition that the patient is not identified (Figure 20). The patient was a 66 years old male. Showing bleeding due to the mobility of upper right 4th and 5th teeth. He visited us due to his chief complaint of mastication disorder. He had a stroke 3 years ago and is currently seeing the physician once a month. The condition is stable. As his hands tremble, the mouth cleaning was poor and the breath was bad. Poor oral hygiene, bleeding from the gums (+++), red swelling on the gums and inflammation were observed. As it was necessary to create the environment that treatment can be done, Kampo mouthwash and application of mastic gel toothpaste was conducted for three times a day before and after the treatment. Next, we showed the improvement of the chief complaint by the initial treatment. When the patient came to the clinic, his 4th and 5th teeth in upper right were showing medium level of mobility but it was judged from the observation using X-ray that the bone absorption was not bad.
We used the dentifrice that mastic was formulated and expected the effect of preventing the fixation of pathogen bacteria before and after the treatment. Considering that the oral hygiene significantly influences the management of the entire body, the biological study of the natural products is critically important from now on [50][51][52]. The patient was a 66 years old male. Showing bleeding due to the mobility of upper right 4th and 5th teeth. He visited us due to his chief complaint of mastication disorder. He had a stroke 3 years ago and is currently seeing the physician once a month. The condition is stable. As his hands tremble, the mouth cleaning was poor and the breath was bad. Poor oral hygiene, bleeding from the gums (+++), red swelling on the gums and inflammation were observed. As it was necessary to create the environment that treatment can be done, Kampo mouthwash and application of mastic gel toothpaste was conducted for three times a day before and after the treatment. Next, we showed the improvement of the chief complaint by the initial treatment. When the patient came to the clinic, his 4th and 5th teeth in upper right were showing medium level of mobility but it was judged from the observation using X-ray that the bone absorption was not bad.
We used the dentifrice that mastic was formulated and expected the effect of preventing the fixation of pathogen bacteria before and after the treatment. Considering that the oral hygiene significantly influences the management of the entire body, the biological study of the natural products is critically important from now on [50][51][52].

Development of A Dentifrice Gel Containing A Mastic Resin and Jixueteng
Periodontitis is the second most common dental disease worldwide after dental decay. Periodontitis is caused by microorganisms that adhere and grow on tooth surfaces and by an aggressive immune response against these microorganisms. The mouth contains a wide variety of oral bacteria, which is an ideal environment for their growth. Nutrition is supplied from food residues and saliva, nitrogen and amino acids mix in gingival crevicular fluids. Periodontitis is triggered by a complex microbial biofilm in the subgingival area that houses over 700 bacterial species and phylotypes [47]. Bacteria from the red complex group, such as P. gingivalis, predominate in gingivitis and periodontal disease patients by PCR analysis. Three microorganisms are mainly associated with periodontal disease, Treponema denticola, Tannerella forsythia and P. gingivalis and they usually form a complex called red complex bacteria (RCB). These bacteria are Gram negative, non-spore-forming anaerobic organisms and they may be found as pure or mixed infections [48]. RCB possess several virulence factors including fimbriae, proteinases, exopolysaccharides and hemin-binding proteins [49]. RCB have been detected in both subgingival plaque and in the apical root canal and cause periodontal and endodontic diseases [48,53,54]. P. gingivalis is a pathogen that causes periodontal disease, which is a common chronic inflammatory disease [55][56][57].
Jixueteng is a herbal medicine with pharmacological properties, such as increasing circulation, analgesia and the number of red and white blood cells and is composed of the dried stems of Spatholobus suberectus Dunn and Millettia dielsiana Harms, both family Leguminosae [58,59]. Jixueteng has potent local anti-infection effects on oral indigenous bacteria and inhibits alveolar bone loss [23,39]. These findings suggest that Jixueteng is a safe and effective therapeutic agent for periodontal disease because of its antibacterial and immune activities and its ability to improve circulation. However, Jixueteng has not been clinically used in the oral field and its effects on reactive oxygen species (ROS) in inflamed regions and the detailed mechanisms underlying these pharmacological actions remain unclear. ROS is involved in various physiological and pathological events. Overproduction of ROS causes oxidative damage to biomolecules, such as lipids, proteins and DNA, which ultimately results in many chronic diseases in humans such as atherosclerosis, cancer, diabetes, rheumatoid arthritis, post-ischemic perfusion injury, myocardial infarction, cardiovascular diseases, chronic inflammation, stroke, septic shock, aging and other degenerative diseases [60,61].
Because, Jixueteng extract inhibits osteoclast differentiation and survival in a dose-dependent manner, neutralizes oxygen species and improves blood flow, we developed a dentifrice containing Jixueteng in this study. However, Jixueteng alone did not have a satisfactory bactericidal effect on periodontopathic bacteria and fungi. Therefore, the antimicrobial effect was supplemented with a mastic, which effectively suppresses pathogenic bacteria. Furthermore, as a result of searching for plant-derived components that suppress periodontopathic bacteria, we found that antibacterial lotuses had comprehensive and effective antibacterial effects on pathogenic bacteria and fungi. We are commercializing a dentifrice containing these ingredients and named it "IMPLA CARE" (Figure 19).
At our hospital, dental hygienists do not invasively remove dental calculus in primary care. Patients were supplied with an IMPLA CARE at night-time and the dental calculus was removed after the gums were healthy and tight. Improving gingiva before treatment with IMPLA CARE reduced the risk of bacteraemia. IMPLA CARE was important for subsequent treatment, postoperative management and may help prevent systemic diseases such as diabetes, cerebral infarction and myocardial infarction. We investigated natural products with antimicrobial activity. First, the minimum inhibitory concentrations (MIC) of Jixueteng, Sasa veitchii and lotus on oral bacteria were measured. The natural products were dissolved in sterilized phosphate-buffered saline (PBS; pH 7.4) and two-fold serial dilutions were aliquoted in small volumes in microwell plates. Bacterial cells were grown in brain heart infusion (BHI) broth supplemented with hemin (5 µg/mL), vitamin K 1 (0.2 µg/mL) and yeast extract (5 mg/mL) under anaerobic conditions (CO 2 : 10%, H 2 : 10%, N 2 : 80%) at 37 • C for 18 h. Bacterial cells were washed and suspended in PBS to an optical density of 1.0 at 600 nm. The bacterial suspension was exposed for 40 h to two-fold serial dilutions of the natural products. The same volume of PBS was used as a control. Jixueteng had bactericidal effects on S. mutans, L. casei, S. gordonii, F. nucleatum and S. aureus. Sasa veitchii had a strong bactericidal effect on the fungus C. albicans (Table 9). Therefore, the IMPLA CARE contained a mixture of Jixueteng, Sasa veitchii, grapefruit and lotus in the mastic resin. Six patients with periodontal disease, peri-implant inflammation or both were examined. Results were measured after using IMPLA CARE and 1-3 times daily tooth brushing and 1-3 months of light massage of the affected part with fingers (Tables 9 and 10). Periodontal disease improved in all patients (Table 11, Figure 21). We evaluated patients who were not examined by dentists and found a self-reported improvement ( Figure 22). Patient satisfaction also increased, which suggests that IMPLA CARE can be used as a primary care tool after treatment.
Case 1: A patient who was developing diabetes and hypertension. The patient had an implant in the anterior teeth of the maxilla and had teeth cleaned regularly at a dental clinic but gingivitis persisted. The doctor instructed the patient to use the IMPLA CARE before going to bed every night. Gingivitis improved gradually ( Figure 22A). Case 2: A patient with peri-implantitis. After insertion of an implant at 65 years old, a secondary operation was performed but peri-implantitis developed after the second operation. The doctor instructed the patient to use the IMPLA CARE himself before going to bed every night. Conditions gradually improved and a superstructure was formed after one month ( Figure 22B).
Case3: A patient with an ulcer from sleep deprivation and work stress. A patient developed an   0  1  2  3  0  1  2  3  0  1  2  3  0  1  2  3  0  1  2  3  0  1  2  3 We evaluated patients who were not examined by dentists and found a self-reported improvement ( Figure 22). Patient satisfaction also increased, which suggests that IMPLA CARE can be used as a primary care tool after treatment.

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persisted. The doctor instructed the patient to use the IMPLA CARE before going to bed every night. Gingivitis improved gradually ( Figure 22A). Case 2: A patient with peri-implantitis. After insertion of an implant at 65 years old, a secondary operation was performed but peri-implantitis developed after the second operation. The doctor instructed the patient to use the IMPLA CARE himself before going to bed every night. Conditions gradually improved and a superstructure was formed after one month ( Figure 22B).
Case3: A patient with an ulcer from sleep deprivation and work stress. A patient developed an ulcer from work stress and sleep deprivation. An IMPLA CARE was used daily in the morning and evening and improvements were observed with a week, which suggests that the IMPLA CARE containing traditional Chinese medicines did not cause gingival recession ( Figure 22C).

Conclusions and Future Studies
Kampo is a historic traditional medicine that has been adjusted to Japanese culture. The concept of Kampo emphasizes the relationship between the human body and its social and natural environments [2]. Our experiments concluded that Kampo (JTX and Jixueteng) reduce a great effect on oral bacteria and inhibited the bacteria-induced alveolar bone loss. Kampo also suppressed the osteoclast differentiation. Furthermore, Kampo improved the inflammatory response in the periodontal tissues of patients. These findings suggest that Kampo is an effective agent for the prevention of dental caries and periodontitis. The administration of Kampo may ameliorate to infected oral tissue environment. Case 1: A patient who was developing diabetes and hypertension. The patient had an implant in the anterior teeth of the maxilla and had teeth cleaned regularly at a dental clinic but gingivitis persisted. The doctor instructed the patient to use the IMPLA CARE before going to bed every night. Gingivitis improved gradually ( Figure 22A).
Case 2: A patient with peri-implantitis. After insertion of an implant at 65 years old, a secondary operation was performed but peri-implantitis developed after the second operation. The doctor instructed the patient to use the IMPLA CARE himself before going to bed every night. Conditions gradually improved and a superstructure was formed after one month ( Figure 22B).
Case3: A patient with an ulcer from sleep deprivation and work stress. A patient developed an ulcer from work stress and sleep deprivation. An IMPLA CARE was used daily in the morning and evening and improvements were observed with a week, which suggests that the IMPLA CARE containing traditional Chinese medicines did not cause gingival recession ( Figure 22C).

Conclusions and Future Studies
Kampo is a historic traditional medicine that has been adjusted to Japanese culture. The concept of Kampo emphasizes the relationship between the human body and its social and natural environments [2]. Our experiments concluded that Kampo (JTX and Jixueteng) reduce a great effect on oral bacteria and inhibited the bacteria-induced alveolar bone loss. Kampo also suppressed the osteoclast differentiation. Furthermore, Kampo improved the inflammatory response in the periodontal tissues of patients. These findings suggest that Kampo is an effective agent for the prevention of dental caries and periodontitis. The administration of Kampo may ameliorate to infected oral tissue environment.
Oral health is related to life-style such as diet in many ways. The development of dental caries requires high sugar intakes [62]. On the other hand, the high consumptions of smoking and alcohol and the loss of vitamin D affects metabolic functions of periodontal tissue and induce periodontitis. Previous review has been reported that psychological stress reduces human immune system and promotes chronic inflammation in periodontal tissue [63]. Our result demonstrated that JTX affected the correlation between restraint stress and bacteria-induced periodontal destruction [6,14]. Recently, psychological stress is a risk factor of toothache, especially non-odontogenic pain [64]. Odontogenic pain is generally derived from pulpal or periodontal tissue. However, non-odontogenic pain is not often originated from the orofacial regions. The characteristics of non-odontogenic pain indicate various types of symptoms; very mild, intermittent and severe, sharp pain and continuous. The general dentists are difficult to be specified the pain regions, that confuse the exact pain control in any case. In the clinical suggestion of effective pain control, the use of Kampo is expected to reduce the non-odontogenic pain [65]. In the future, the mixed concept of Western medicine and Kampo medicine will contribute in the treatment and prevention of several oral diseases.
Supplementation of alkaline extract of Sasa sp.

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pain is generally derived from pulpal or periodontal tissue. However, non-odontogenic pain is not often originated from the orofacial regions. The characteristics of non-odontogenic pain indicate various types of symptoms; very mild, intermittent and severe, sharp pain and continuous. The general dentists are difficult to be specified the pain regions, that confuse the exact pain control in any case. In the clinical suggestion of effective pain control, the use of Kampo is expected to reduce the non-odontogenic pain [65]. In the future, the mixed concept of Western medicine and Kampo medicine will contribute in the treatment and prevention of several oral diseases.
Supplementation of alkaline extract of Sasa sp. leaves (SE), which can alleviate the deoxorubicininduced keratinocyte cytotoxicity [66] and paclitaxel-induced neurotoxicity [67] by promoting hermetic cell growth. and have anti-HIV activity [68], may enhance the potential of mastic gel tooth paste ( Figure 23).   Yo-kyo Yang-deficiency, pathological condition that chill of ki-kyo is worsened Yo-sho Yang-sho, condition that has characteristics of excitement, activity and warm-heat Shokan-ron A treatise on Shang han, a form of an acute infectious disease