1.Effects of Electroacupuncture Stimulation at Baxie on Cold Induced Vasodilation.
Yoshiyuki OKAMOTO ; Tadashi YANO ; Nobuyuki YAMADA ; Masaki HIRO ; Ippei WATANABE ; Tadashi ASADA
The Journal of The Japanese Society of Balneology, Climatology and Physical Medicine 1995;58(3):187-197
We studied the effects of electro acupuncture stimulation of Baxie on local tolerance as an index of cold induced vasodilation (CIVD). The subjects consisted of 22 healthy adult volunteers. The skin temperature and skin blood flow in the middle finger were simultaneously examined before, during, and after immersion of the finger in cold water. Electroacupuncture stimulation at 1 Hz with a 66 to 100V intensity was performed for 5 minutes. Experiments of no stimulation and electroacupuncture stimulation were conducted on the same subject on different days.
The results revealed the following:
1. CIVD was caused by rapid increase of skin blood flow during immersion of the finger in cold water.
2. The minimum skin temperature, minimum skin blood flow, maximum skin blood flow, mean skin temperature in the rising phase of skin temperature, and the index of resistance to frostbite of the electroacupuncture stimulated group were higher than those of the unstilmulated group, and rates of skin temperature increase and decrease during immersion of the finger in cold water in the electroacupuncture stimulated group were significantly higher. These results show that electroacupuncture stimulation increases local cold tolerance in the finger.
2.Effects of Transcutaneous Electrical Nerve Stimulation(TENS) at Baxie on Cold Induced Vasodilation.
Tadashi ASADA ; Yoshiyuki OKAMOYO ; Tadashi YANO ; Nobuyuki YAMADA ; Masaki HIRO ; Ippei WATANABE
The Journal of The Japanese Society of Balneology, Climatology and Physical Medicine 1996;59(3):184-193
We studied the effects of transcutaneous electrical nerve stimulation (TENS) of Baxie on local cold tolerance as an index of cold induced vasodilatation (CIVD). The subjects consisted of 22 healthy adult volunteers.
The skin temperature and skin blood flow in the middle finger were measured simultaneously before, during, and after immersing the finger in cold water. TENS at 1Hz with 100-V intensity was applied for 5 minutes before immersion of the finger.
Experiments were conducted with no stimulation and with TENS on the same subjects on different days.
The results revealed the following:
1. The minimum skin temperature and minimum skin blood flow during immersion of the finger in cold water were higher in the TENS group than in the control (no stimulation) group.
2. The maximum skin temperature, mean skin temperature, and increase and decrease of skin blood flow rate during immersion of the finger in cold water and in the rising phase of skin temperature were higher in the TENS group than in the control group.
3. The index of resistance to frostbite was higher in the TENS group than in the control group.
4. The number of fluctuations in skin temperature during immersion of the finger in cold water was significantly higher in the TENS group than in the control group.
5. The incidence of abnormal perception during immersion of the finger in cold water was lower in the TENS group than in the control group.
These results suggest that TENS enhances the local cold tolerance of fingers by suppressing SSA in the initial falling phase on skin temperature and increasing the motion of skin blood vessels in the rising phase of skin temperature.
3.Incidence of Iliopsoas Muscle Hematoma During Treatment of Acute Myocardial Infarction with Antiplatelet and Anticoagulant Agents
Ayako SAKURAI ; Masahiro OHKOUCHI ; Tetsuya KATSUNO ; Hirokazu NAGANAWA ; Youichi YAMAMOTO ; Shigeki GOUJI ; Tadashi IWAMA ; Kaoru ASADA ; Kouhei HATTORI ; Akitomo GOTO ; Yasutaka KAMIYA ; Tsuneo OHNO
Journal of the Japanese Association of Rural Medicine 2013;61(4):636-642
On July 7, 2010, a 74-year-old man came to our hospital, complaining that he had a nagging pain in his chest that started the preceding day. After performing electrocardiography, blood tests and electrocardiography, we diagnosed the case as acute myocardial infarction. At first, it was thought that blood flow could be restored in due course of time, antiplatelet and anticoagulant agents were used. Intracardiac catheterization was not included in our initial treatment plan. Three days after the initiation of the treatment, the patient had pain in his left inguinocrural region. Computed tomography and magnetic resonance imaging reveled hematoma in his left iliopsoas muscle. We stopped administering antiplatelet and anticoagulant agents to him. But anemia progressed from Hb14.1g/dL to 9.8 g/dL, so blood transfusions had to be given. After that, the patient underwent a rest cure. With the passage of time, the pain and swelling of the left iliopsoas muscle went down. Regarding the cardiac condition, however, the pain in the chest did not abate even when he was taking a rest. The antiplatelet therapy was resumed, with one type of agent given at first and then with another type added. Examinations using a coronary CT and a cadiac catheter found 90% stenosis at the proximal left anterior descending coronary artery. So, a bare metal stent was placed in the near-closed artery. Ever since, there has been no recrudescence of chest pain and no recurrence of iliopsoas muscle hematoma. The extravascated blood mass seemed to be dissolved spontaneously.