1.Acupuncture treatment for diabetes mellitus. (8). Clinical study on patient with noninsulin-dependant diabetes mellitus.
Journal of the Japan Society of Acupuncture and Moxibustion 1987;37(4):285-290
A series of studies on the acupuncture treatment for diabetes mellitus demonstrated that insulin secretion is accelerated by acupuncture stimulation during oral glucose loading.
In this study patients with noninsulin-dependant diabetes mellitus (type II) were treated by placing needle at Quichi (LI-11), Ganshu (UB-18), Taichong (Liv-3), Pishu (UB-20) and Zhongwan (Ren-12) twice a week for 6-8 weeks. The results showed improvements in blood sugar level and increased insulin response to administered glucose in those patients with noninsulin-dependant diabetes mellitus.
On the basis of this evidence it seems to suggest that insulin deficiency, which is basic pathogenesis of diabetes mellitus, is improved by acupuncture treatment, in particular reserved ability of insulin secretion being revived.
2.Influence of acupuncture and moxibustion upon the R-R interval on an electrocardiogram.
Mitsuru NAKAMURA ; Hiroshi KITAKOUJI ; Hiroshi HASEGAWA
Journal of the Japan Society of Acupuncture and Moxibustion 1989;39(2):262-266
It is said that the R-R interval on an ECG, showing the period of the cardiac cycle, reflects the activity of the vagus.
In this paper, the changes in the R-R interval brought by acupuncture and moxibustion were investigated by using Ximen (P-4) and Shenmen (H-7).
In the case of acupuncture and/or moxibustion to Ximen as well as Shenmen, the prolonged R-R interval was noted, while the increased coefficient of alteration of R-R interval was showed in the case of acupuncture. The coefficient of the alteration showed a decrease, however, in the case of moxibustion to Shenmen. Remarkable reduction in the coefficient of the alteration were observed immediately after acupuncture to Ximen under administration of atropine, but moxibustion did not produce any remarkable fluctuations. On the other hand, acupuncture to Ximen under administration of propranolol produced no remarkable fluctuation, while moxibustion brought an increased coefficient of the alteration.
The results suggested that there were considerable variations in the influence on the autonomic nervous system which participated with the cardiac rhythm by different stimulation to the same meridian point.
3.Effects of Acupuncture on the Secretion of Gastric Juices
Takaharu Ikeuchi ; Hiroshi Hasegawa ; Munenori Tawa
Journal of the Japan Society of Acupuncture and Moxibustion 1982;31(3):238-242
From ancient times the oriental medicine has applied the acupuncture therapy, choosing various meridian points, to the diseases of the digestive system.
Against the gastric diseases meridian points Tsusanli (S36), Yangling-chuan (G34) etc. are usually used. However, it is traditionally handed down that the puncture to Tsusanli tends to increase gastric secretion, therefore the puncture to Yanglingchuan is better for gastric hyperacidity than that to Tsusanli.
On these meridian points, its pathophysiological mechanism for the diseases of the digestive system of these meridian points still remains unknown.
In these paper, an evaluation on the change of pH value of gastric juice was carried out by using Telemeter for gastroenteric pH value, concerning Tsusanli, Yanglingchuan, Liangchiu (S34), and Waichiu (G36).
It was obtained that the tendency to increase the secretion of HCI in gastric juice in the group stimulated to Tsusanli and the group to Lingchiu, and the tendency to inhibit the secretion in the group to Yanglingchuan.
4.Acupuncture and renal function. 1 Assessment by radioisotope renography.
Takaaki OKAMOTO ; Mitsuru NAKAMURA ; Hiroshi HASEGAWA
Journal of the Japan Society of Acupuncture and Moxibustion 1986;36(2):90-94
Radioisotope renography, which is a technique for extracorporeal examination of kidney utilizing radionuclides, can provide the data of renal dynamics such as blood flow and excretion of urine about individual kidney. Since this technique allowes simple and noninvasive examination of renal functions, it is now commonly used clinically.
The present study was designed to elucidate a relationship between renal function and meridian point by using radioisotope renography. In this paper the effect of acupuncture applied placing-needle wlth low frequency wave to Shenshu (UB-23) of the urinary bladder channel of foot-taiyang on renal function, especially excretion of urine, was observed.
It was found that urinary elimination of radioisotope after acupuncture increased, although no marked change was noted on the pattern of renogram curve.
5.Acupuncture therapy for diabetes mellitus. (VI). Blocking phenomenon of the jingluo through insulin secretion.
Hiroshi HASEGAWA ; Sohten TERASAWA ; Tomino YUASA
Journal of the Japan Society of Acupuncture and Moxibustion 1987;37(2):120-123
A relationship of meridian point-jingluo to secretion of insulin was evaluated by blocking the large intestine channel of hand-yangming.
Subjects were divided into three groups; (1) group of subjects in whom saline was injected in Quchi (LI-11), (2) group of subjects whose Quchi was cooled by an ice bag, and (3) group of subjects whose Quchi was pressed. Insulin secretion following acupuncture stimulation to Hege (LI-4) was measured in these groups. As a result, all three groups showed significant reduction in secretion of insulin and integrated insulin response for 60 minutes during oral glucose tolerance test.
The result obtained seems to suggest that stimuli given to Hege are blocked to transmit due to the interferance given to Quchi. This implies that blocking phenomenon of the jingluo take place in the large intestine channel of hand-yangming.
6.Effect of increase in body temperature on cognitive function during prolonged exercise
Akira Kazama ; Satomi Takatsu ; Hiroshi Hasegawa
Japanese Journal of Physical Fitness and Sports Medicine 2012;61(5):459-467
This study examined the effect of prolonged exercise with and without hyperthermia on cognitive function. In this study, 9 male subjects cycled at 50% watt max for 60 min in a room maintained at 23°C. Water-perfused suits with water at 7°C (COOL) and 47°C (HOT) were randomly used during the 2 cycling periods. Rectal temperature, skin temperatures, heart rate, ratings of perceived exertion (RPE), and thermal sensation were evaluated during exercise. The Stroop color-word test (SCWT) and executive processing test (EPT) were conducted every 15min during exercise to evaluate cognitive function. In the COOL trial, the core temperature stabilized at 37.5 ± 0.1°C (mean ± SE), whereas in the HOT trial, the core temperature increased to 39.1 ± 0.1°C, with a concomitant increase in RPE and thermal sensation. Although the reaction time for the simple task of the SCWT improved when the body temperature increased slightly during the COOL trial, the conflict task of the SCWT was impaired during the latter stages of exercise during the HOT trial. The reaction time for the HOT trial was significantly longer than that for the COOL trial. Compared to the bigining of exercise the reaction time for the EPT was impaired at 60 min during the HOT trial, and this reaction time was longer than that for the COOL trial. The present findings indicate that exercise-induced hyperthermia during the latter stages of exercise impairs cognitive as well as physiological functions.
7.THE GENDER DIFFERENCES IN THERMOREGULATORY RESPONSES DURING EXERCISE RECOVERY
SATOMI TAKATSU ; MASAHIRO YAMASAKI ; HIROSHI HASEGAWA
Japanese Journal of Physical Fitness and Sports Medicine 2008;57(3):295-304
The purpose of this study was to investigate the gender differences in thermoregulatory responses during the recovery from prolonged exercise. Fourteen (7 males and 7 females) subjects cycled for 45 minutes at 55%VO2max and then rested for 105 minutes in the hot and humid environment (30℃, 80% relative humidity) or cool environment (20℃, 60% relative humidity). Both males and females showed same variations in rectal temperature (Tre) during exercise and recovery periods. Total sweat volume and water intake were significantly larger in males than in females during recovery in the both environments. In the heat condition, mean skin temperature (Tsk) decreased immediately after the cessation of exercise in females but not in males (the recovery period (R) 5–15 min : p<0.01, R15–20 min : p<0.05). These results suggested there are gender-related differences in the mechanisms and also the process maintaining the balance of heat production and heat loss response during recovery from prolonged exercise. Moreover the heat might modify gender differences of heat loss response during recovery as an important factor.
8.Acupuncture Therapy for Diabetes Mellitus
Hiroshi Hasegawa ; Soten Terasawa ; Yoshie Kumamoto ; Yoshinobu Odahara ; Tomino Yuasa
Journal of the Japan Society of Acupuncture and Moxibustion 1981;31(1):55-59
As reported in a previous paper, acupuncture stimulus at 8 meridian points, CV-3, ST-25, BL-20, BL-18, LI-11, ST-36, SP-8 and LV-3 revealed significant increase in supplementary secretion of insulin during OGTT in normal subjects.
In this study it was cauied out to evaluate effect on secretion of insulin during OGTT using the same 8 meridian points individually as acupuncture stimulus.
It was clear that supplementay secretion, total secretion and secretion response of insulin during OGTT showed a highly significant increase by acupuncture stimalus at LI-11 and supplementary secretion and secretion response of it resulted in a marked increase at LV-3. However, no significant changes of insulin secretion were observed at ST-36 and ST-25.
The results suggested that significant differeuce in insulin secretion existed among these meridian points which used popularly for diabetes mellitus.
9.Acupuncture therapy for diabetes mellitus. (V). The large intestine channel of hand-yangming and insulin secretion.
Hiroshi HASEGAWA ; Munenori TAWA ; Sohten TERASAWA ; Tomino YUASA
Journal of the Japan Society of Acupuncture and Moxibustion 1987;37(1):39-42
A relationship of acupuncture stimulation to secretion of insulin was investigated by stimulating various meridian points which are usually used for the treatment of diabetes mellitus. As a result, it was demonstrated that Quchi (LI-11) is closely related to insulin secretion. This study was carried out to investigate a relationship of each of Hege (LI-4), Shousanli (LI-10), Jugu (LI-16), Yingxing (LI-20), which are located on the large intestine channel of hand-yangming, to secretion of insulin.
When stimulated by a 30 minutes placing needle, all four meridian points evidently increased secretion of insulin and integrated insulin response for 60 minutes during oral glucose tolerance test. Among others, Hege stimulation showed the most remarkable increase in insulin secretion.
The result obtained seems to suggest that is a close relationship between insulin secretion and the large intestine channel of hand-yangming.
10.Acupuncture therapy for diabetes mellitus. (VII). Insulin secretion and the twelve segmentations of HIRATA.
Hiroshi HASEGAWA ; Sohten TERASAWA ; Tomino YUASA ; Nobutaro OHTA
Journal of the Japan Society of Acupuncture and Moxibustion 1987;37(3):175-179
Studies on relationship between insulin secretion and 8 meridian points, namely St-39, Ren-12, LI-11, UB-20, UB-18, St-36, Sp-8, and Liv-3 which are extensively used for the treatment of diabetes mellitus, revealed that LI-11 and UB-18 are closely related to secretion of insulin.
The twelve segmentations of Hirata, LI-11 corresponds to the 5th response zone of upper extremity region and UB-18 to the 5th response zone of truncal region, respectively. In order to investigate relationship between insulin secretion and the 5th response zone of Hirata's twelve segmentations, GB-10 of capital region, St-3 of collar region, SI-16 of facial region and Sp-6 of lower extremity region were stimulated by placing needle during oral glucose loading and insulin secretion was evaluated.
As a result, none of the meridian point locating in the 5th response zone in each region of Hirata's twelve segmentations showed positive relation to insulin secretion, except LI-11 of upper extrmity region and UB-18 of truncal region.