2.Exercise training and cutaneous vasodilator function
Fumio Yamazaki ; Katsuhiro Minokoshi
Japanese Journal of Physical Fitness and Sports Medicine 2017;66(3):185-193
Cutaneous vasodilator function plays a role in the thermoregulatory system during rest and exercise, and its dysfunction, especially in elderly people, can influence the system’s vulnerability in heat-stressed conditions. In this review, firstly, we describe the mechanisms that control the cutaneous vasculature in humans. The reflex mechanisms by which sympathetic nerves mediate vasoconstriction and active vasodilation during whole-body thermal stress are examined, including discussions of the mechanisms involving cotransmission, nitric oxide (NO) and other mediators. The mechanisms that effect local cutaneous vasomotor responses to local skin warming are also examined, including the roles of axon reflexes as well as NO and other mediators. Next, we highlight the effects of aerobic exercise training on reflexes and local vasomotor control in the skin. Factors that modulate control mechanisms of the cutaneous vasculature, such as aging and clinical conditions, are discussed. Finally, the beneficial influences of exercise training on cutaneous vasodilator function in healthy young and elderly people with or without chronic diseases are emphasized.
3.Relationship between respiratory period and respiratory cardiac cycle variability. The influence of respiratory blood pressure variability.
RYOKO SONE ; YOSHIYUKI FUKUOKA ; FUMIO YAMAZAKI ; SACHIKO HOMMA ; HARUO IKEGAMI
Japanese Journal of Physical Fitness and Sports Medicine 1992;41(3):330-338
This study was undertaken to clarify the influence of respiratory blood pressure variability upon the relationship between respiratory period and respiratory cardiac cycle variability. In 4 healthy male university students respiratory period was varied over the range of 6-20 sec while tidal volume was maintained constant (21) and in 5 other male students tidal volume was varied over the range of 1.0-2.5l while respiratory period was maintained constant (6 sec) . For cardiac cycle (RR) and systolic and diastolic blood pressure (SBP and DBP), amplitude of respiratory variability and phase difference between respiratory variability and respiration were measured.
1. Patterns of change of amplitude of RR and of SBP were similar when respiratory period was changed.
2. When respiratory period was short (6sec), RR was nearly in phase with SBP. However, as respiratory period increased, the phases of RR and SBP had a tendency to proceed, with the tendency being more pronounced in the latter. Thus, when respiratory period was prolonged (20 sec), SBP led RR.
3. Phase relationship between respiratory SBP variability and respiration did not change when tidal volume was changed.
4. Respiratory DBP variability became more marked as respiratory period increased, and showed more marked phase shift than did respiratory SBP variability. Therefore, of those parameters DBP occurred earlier.
Based on these results, it is concluded that respiratory RR variability is closely related to respiratory SBP variability when respiratory period is changed, but that the phase difference between RR and SBP reflects the effect of pulmonary stretch reflex which is dependent on respiratory period.
4.Recovery of respiratory cardiac cycle variability after strenuous exercise.
RYOKO SONE ; FUMIO YAMAZAKI ; NOBUHARU FUJII ; YOSHIHARU NABEKURA ; HARUO IKEGAMI
Japanese Journal of Physical Fitness and Sports Medicine 1993;42(5):465-474
A study was conducted to examine the recovery of vagal activity after strenuous exercise based on changes in the magnitude of respiratory cardiac cycle variability, changes in the phase of this variability and the mechanism of the change. Six healthy male university students were studied for 5 h after exhaustive treadmill running. For cardiac cycle (RR) and blood pressure, the magnitude of respiratory variability and phase difference between respira-tory variability and respiration were measured. Respiratory period and tidal volume were maintained at 6 s and 21, respectively.
1. The amplitude of respiratory RR variability decreased markedly after exercise and returned almost to normal after 2 h of recrvery. The phase of RR delayed with exercise, proceeded rapidly 2 h after exercise and progressively after that.
2. The amplitude and phase of respiratory systolic blood pressure variability were almost stable before and after exercise.
Based on these results, we conclude that vagal activity inhibited by strenuous exercise recovers about 2 h after the end of exercise. The delay in the phase of respiratory cardiac cycle variability with exercise may reflect inhibition of vagal activity.
5.CARDIOVASCULAR RESPONSE TO STATIC AND DYNAMIC MUSCLE CONTRACTIONS AT EQUIVALENT TENSION-TIME INDICES
RYOKO SONE ; TAKAHARU NAITO ; FUMIO YAMAZAKI ; NOBUSUKE TAN
Japanese Journal of Physical Fitness and Sports Medicine 2006;55(3):319-330
In the present study, we examined cardiovascular response to static and dynamic hand-grip exercise at equivalent work load (peak tension) and tension-time index (TTI, integrated tension for time) in healthy young (n=8) and elderly (n=8) males. Static and dynamic exercises were conducted for 75 s and 150 s at 30% of maximal voluntary contraction (MVC) and for 45 s and 90 s at 50%MVC, respectively. Arterial pressure was continuously measured on a beat basis. Blood pressure at the end of exercise and the magnitude of pressor response induced by exercise did not differ significantly between static and dynamic exercises at the two work loads. The magnitude of pressor response tended to depend on work load. These findings were the same in both age groups. Consequently, it was indicated that blood pressure responses to static and dynamic hand-grip exercise at equivalent work load and TTI did not differ both in young and elderly people. Furthermore, it was suggested that central command and muscle metabolite induced stimulation of the exercise pressor reflex during static and dynamic exercise were similar based on the results of relative perceived exertion and blood pressure response during post-exercise arterial occlusion.
6.A Case of Aortic Valve Replacement Complicated by Autoimmune Hemolytic Anemia
Hidetoshi Masumoto ; Mitsuomi Shimamoto ; Fumio Yamazaki ; Shoji Fujita ; Masanao Nakai ; Masatsugu Hamaji
Japanese Journal of Cardiovascular Surgery 2005;34(6):429-431
A 72-year-old woman, who had been treated for autoimmune hemolytic anemia with prednisolone and azathioprine since 2002, was found to have mild aortic stenosis in 1994. In December 2003, she suffered congestive heart failure, and was on temporary mechanical ventilation. In February 2004, the maximum pressure gradient between left ventricle and aorta increased to 115.8mmHg on echocardiographic examination. On April 6, aortic valve replacement was carried out with a 19mm bioprosthesis (Carpentier-Edwards PERIMOUNT®, Edwards Lifesciences, Irvine, California). Preoperative prednisolone administration was continued until the day of the operation. Four packs of washed red blood cells were transfused intraoperatively and four packs of red blood cells were transfused postoperatively. Before transfusion, haptoglobin and water-soluble prednisolone were administrated to prevent hemolysis. Oral prednisolone and azathioprine were reestablished on the third postoperative day. Her postoperative course was uneventful and she did not suffer either infection or hemolysis. She was discharged on the 30th postoperative day.
8.Relationship between respiratory period and respiratory arrhythmia.
RYOKO SONE ; OSUNG GWON ; NOBUHARU FUJII ; FUMIO YAMAZAKI ; YOSHIHARU NABEKURA ; HARUO IKEGAMI
Japanese Journal of Physical Fitness and Sports Medicine 1991;40(5):475-482
This study was undertaken to clarify the relationship between respiratory period and respiratory arrhythmia. Five healthy male university students voluntarily changed the respiratory period over a range of 3-30 seconds while maintaining tidal volume constant (; 21) . Maximum and minimum cardiac cycles (RRmax and RRmin) and amplitude of cardiac cycle variability (ΔRR), the difference between RRmax and RRmin, were measured from electrocardiogram and respiratory curve.
1. Amplitude of cardiac cycle variability was small for shorter respiratory periods and increased with respiratory period, attaining maximum at respiratory periods of 8-14 seconds followed by decrease at longer respiratory periods.
2. The time from the onset of inspiration to the minimum cardiac cycle was the same for respiratory periods of 8-14 seconds (about 3.6 seconds) .
3. Phase difference between cardiac cycle variability and respiration was determined at each respiratory period. When the minimum or maximum cardiac cycle coincided with the onset of inspiration, this situation being defined as 0°, RRmin was delayed by 180°, 90°, and 0° at respiratory periods of 2.3, 14.4, and 26.5 seconds, respectively and by 360°, 270°, and 180° at respiratory periods of 2.7, 15.0, and 27.3 seconds, respectively.
Based on these results, respiratory arrhythmia is concluded to be quite stable at respiratory periods of 8-14 seconds. At short respiratory periods, tachycardia was found to occur during inspiration and bradycardia during expiration. During long respiratory periods, bradycardia was noted during inspiration and tachycardia during expiration.
9.Heart rate and plasma catecholamines responses to exercise at various intensities.
NOBUHARU FUJII ; YOSHIHARU NABEKURA ; OSUNG GWON ; FUMIO YAMAZAKI ; SACHIKO HOMMA ; HARUO IKEGAMI
Japanese Journal of Physical Fitness and Sports Medicine 1992;41(3):313-321
To investigate the responses of heart rate and plasma catecholamines to exercise at various intensities, seven healthy adult males performed 6-min bouts of cycling exercise at 30, 50, 70 and 90% of maximal oxygen consumption (VO2max) . Heart rate (HR), plasma noradrenaline (NA), plasma adrenaline (A), blood lactate (La) and coefficient of variation of R-R intervals (CVRR) were determined i n each case.
The following results were obtained:
1) CVRR showed a sharp decline to the extent of 50%VO2max, then fell more slightly for heavier exercise.
2) NA and A significantly increased from resting value at 50%VO2max, and followed by further increase with exercise intensity. NA/A increasd in proportion to exercise intensity.
3) The results of multiple regression analysis of HR (dependent variable) and NA, A and CVRR (independent variables) indicated the greatest standardized partial regression coefficient for CVRR in the case of low intensity exercise, and for NA with high intensity exercise.
4) La increased abruptly at 70%VO2max, whereas NA and A rose drastically at 90%VO2max.
The conclusion based on these results is as follows: HR is mainly influenced by change in parasympathetic tone to the extent of 50%VO2max, whereas sympathetic and adrenomedullary activity are the main factors controlling HR in heavier exercise. Within the submaximal level of exercise, sympathetic activity increases more markedly than that of adrenomedullary activity. Abrupt increase in La may be independent of catecholamines.
10.Application of Mohs paste for patients with easy-bleeding superficial malignant tumor regarding control of bleeding
Yuko Ohi ; Masahiro Oana ; Yutaka Hayashi ; Akinori Aikawa ; Fumio Yamazaki ; Shizuyo Ishimaki ; Michiaki Suzuki ; Yuriko Kondo ; Miwa Yamamoto
Palliative Care Research 2009;4(2):346-350
In Palliative care, we meet patients with easy-bleeding superficial malignant tumors, such as head and neck cancer, skin metastasis of all kinds of cancer and unresectable breast cancer. But it is not easy to control bleeding even though we use various means, and many doctors have difficulties in stopping bleeding. We report a case with a recurrent tumor of pharyngeal cancer that showed easy-bleeding and discharged massive exudates. Although she received several alcohol local injections because of bleeding of the tumor, she needed a dressing change over 5 times in a day. It made her QOL worse. In this case, we used Mohs paste and after using it, the surface had been fixed and dried up, resulting in a decrease in bleeding, exudate, frequency of dressing change and bad odor. Mohs paste was made of distilled water, zinc chloride, zinc starch and Glycerol. Zinc chloride changes to zinc ion by water in the wound and makes protein cohere and thereafter tissues, vessels and cell membrane of bacteria are fixed chemically. We could stop bleeding for 15 days with only 20 minutes contact with Mohs paste, and massive exudates and bad odor decreased. Mohs paste, which is made in your hospital pharmacy with cheap materials, can be used for bleeding or massive exudates repeatedly if there is not a thick blood vessel anatomically under the tumor. It was effective to improve her QOL. Palliat Care Res 2009; 4(2): 346-350