Cardiovascular responses to lower body negative pressure in endurance and static exercise-trained men

The cardiovascular responses to lower body negative pressure (LBNP) (to -50 torr) were examined in 8 sedentary control (UT), 8 endurance-trained (ET), and 8 weight-trained (WT) human subjects. The results were used to compare and contrast the blood pressure control system of the three subject groups. The primary differences in response included a more effective maintenance of blood pressure, by reason of greater stroke volume and cardiac indices of the WT subjects during LBNP (P less than 0.05). Peripheral vascular resistances were not different (P greater than 0.05) throughout LBN P between the three groups. Therefore, the improved blood pressure maintenance of the WT subjects was attributed to a cardiac effect. The ET subjects were less effective in maintaining blood pressure than UT or WT subjects. This finding was apparently due to an attenuated baroreflex sensitivity, as evidenced by a significantly (P less than 0.05) lower delta heart rate/delta systemic blood pressure ratio, 0.99 for ET vs 1.51 and 1.38 or the UT and WT groups respectively, calculated from the responses observed from 0 to -50 torr of LBNP.     

提踵动作对下体负压耐力的影响

目的验证提踵动作对提高下体负压耐力的有效性,并探讨其可能的作用机制。方法健康男性志愿者10名,在下体负压(LBNP)条件下分别随机进行2次头高位倾斜检查(HUT)测定其下体负压耐力。一次为志愿者的基础下体负压耐力(对照组),另外一次要求志愿者在LBNP条件下做提踵动作,直至耐力终点(提踵组)。结果提踵组下体负压耐受时间(DNP)和累计应激指数(CSI)均显著增加(P<0.05)。在下体负压过程中,提踵组平均动脉压呈升高趋势,心率增加呈降低趋势,每搏量增加,且均在-40 mmHg及-50 mmHg时达到显著水平(P<0.05)。结论提踵动作可以提高下体负压耐力,可望作为航天员在长期太空飞行后引起立位耐力不良时的应对措施,也可作为血管迷走性晕厥患者的预防措施和治疗手段。     

坐位下体负压下人体大脑中动脉血流速度及血氧饱和度的改变

目的探讨坐位下体负压对人体大脑中动脉血流速度、心率和血氧饱和度的影响。方法 15名健康青年男性在坐位下体负压 - 4.0 0kPa、 - 6.67kPa条件下 ,分别测试负压前、下体负压暴露 0 .5、1、2、3、4、5min和卸压后 1、3、5min的大脑中动脉血流速度、心率和血氧饱和度。结果在 - 4.0kPa下体负压作用 4、5min时 ,脑血流速度减慢 (P <0 .0 5 ) ;负压作用 3、4、5min时心率增快 (P <0 .0 5 ) ;血氧饱和度无明显改变。在 - 6.67kPa下体负压作用 2、3min时 ,脑血流速度减慢 (P <0 .0 5 ) ,在 4min和 5min时显著减慢 (P <0 .0 1) ,卸压后 1min尚未恢复 (P <0 .0 5 ) ,随后恢复至对照水平 ;负压作用后各时间点心率均显著增快 (P <0 .0 1) ;血氧饱和度在负压暴露 5min时显著下降 (P <0 .0 5 )。结论坐位下体负压造成血液在下肢淤积 ,大脑中动脉血流速度减慢 ,引起大脑血供减少 ,为空中晕厥和立位耐力不良的医学鉴定提供了人体实验依据     

下体负压对抗21d头低位卧床后立位耐力不良的研究

目的观察ＬＢＮＰ对２１ｄＨＤＴ－６°卧床模拟失重所致立位耐力不良的对抗效果。方法１２名健康男性青年志愿者,进行２１ｄＨＤＴ－６°卧床实验。随机分为对照组和下体负压组,每组６人。与对照组不同,下体负压组在最后一周,每天进行１ｈ、－４．０ｋＰａ的下体负压锻炼。结果卧床前,１２名受试者顺利通过７５°、２０ｍｉｎ立位耐力检查。卧床第１０ｄ立位耐力检查时,对照组有５人、ＬＢＮＰ组有４人出现晕厥前或晕厥症状,两组平均耐受时间均低于卧床前（Ｐ＜０．０５）;第２１ｄ时,对照组有５人未通过,平均耐受时间较卧床前显著降低（Ｐ＜０．０５）;而ＬＢＮＰ组有１人未通过,平均耐受时间显著高于对照组（Ｐ＜０．０５）。结论２１ｄ头低位卧床后立位耐力显著降低。下体负压能够有效对抗头低位卧床导致的立位耐力降低。     

Effect of lower body negative pressure against orthostatic intolerance induced by 21 days head-down tilt bed rest

BACKGROUND: Exposure to actual or simulated weightlessness is known to induce orthostatic intolerance in humans. Many different methods have been suggested to counteract orthostatic hypotension. The repetitive or prolonged application of lower body negative pressure (LBNP) has shown beneficial effects to counter orthostatic intolerance, but devoting so much time to countermeasures is not compatible with space mission objectives or costs. The purpose of the present study was to assess the effects of brief LBNP sessions against orthostatic intolerance during a 21-d head-down tilt (HDT) bed rest. METHODS: There were 12 healthy male volunteers who were exposed to -6 degrees HDT bed rest for 21 d. Six subjects received -30 mm Hg LBNP sessions for 1 h x d(-1) from day 15 to day 21 of the HDT, and six others served as control. Orthostatic tolerance was assessed by means of standard tilt test. RESULTS: Before HDT, all the subjects in the two groups completed the tilt tests. After 21 d of HDT, five subjects of the control group and one subject of the LBNP group could not complete the tilt test due to presyncopal or syncopal symptoms. The mean upright time in the control group 13.0 +/- 4.0 min) was significantly shorter (p < 0.05) than that in the LBNP group (19.0 +/- 2.2 min). Body weight decreased significantly in the control group during HDT, while increasing significantly on day 21 of HDT in the LBNP group. Urine volume increased on days 15-21 of HDT in the control group, but remained unchanged throughout HDT in the LBNP group. A significant decrease in cardiac output and cardiac index, and a significant increase in total peripheral resistance, pre-ejection period, plasma renin activity, aldosterone, and prostaglandin 12 were observed during HDT in both groups. There were no significant differences in these parameters between the two groups. CONCLUSIONS: Brief daily LBNP sessions were effective in preventing orthostatic intolerance induced by 21 d HDT bed rest. However, it did not improve cardiac pump and systolic functions and did not preserve volume regulating hormones.     

Cerebrovascular responses during lower body negative pressure-induced presyncope

BACKGROUND: Reduced orthostatic tolerance is commonly observed after spaceflight, occasionally causing presyncopal symptoms which may be due to low cerebral blood flow (CBF). It has been suggested that CBF decreases in early stages of exposure to orthostatic stress. The purpose of this study was to investigate cerebrovascular responses during presyncope induced by lower body negative pressure (LBNP). HYPOTHESIS: Although CBF decreases during LBNP exposure, blood pressure (BP) or heart rate (HR) contributes more to induce presyncopal conditions. METHODS: Eight healthy male volunteers were exposed to LBNP in steps of 10 mm Hg every 3 min until presyncopal symptoms were detected. Electrocardiogram (ECG) was monitored continuously and arterial BP was measured by arterial tonometry. CBF velocity at the middle cerebral artery was measured by transcranial Doppler sonography (TCD). Cerebral tissue oxygenation was detected using near-infrared spectroscopy (NIRS). We focused our investigation on the data obtained during the final 2 min before the presyncopal endpoint. RESULTS: BP gradually decreased from 2 min to 10 s before the endpoint, and fell more rapidly during the final 10 s. HR did not change significantly during presyncope. CBF velocity did not change significantly, while cerebral tissue oxygenation decreased prior to the presyncopal endpoint in concert with BP. Our results suggest that CBF is maintained in the middle cerebral artery during presyncope, while BP decreases rapidly. CONCLUSIONS: Cerebrovascular hemodynamics are relatively well maintained while arterial hypotension occurs just prior to syncope.     

Physical fitness and hemodynamic response of women to lower body negative pressure

Aerobic fitness as assessed by maximal aerobic capacity (VO2max) has been shown to be associated with an attenuated baroreflex function during lower body negative pressure (LBNP) in men. Sixteen women (mean age = 24.7 yrs) were evaluated during progressive LBNP to -50 torr. Each subject's VO2max was determined using indirect calorimetry during the Bruce protocol exercise test. Eight subjects [mean VO2max = 56.8 (ml O2 X min-1) X kg-1] were designated as trained, and eight subjects [mean VO2max = 39.4 (ml O2 X min-1) X kg-1] were designated as untrained. During LBNP, heart rate, blood pressure, cardiac index, forearm blood flow, and leg circumference were measured. All subjects completed the LBNP protocol without clinical symptoms of pre-syncope. The over-all hemodynamic responses of both groups to LBNP were qualitatively similar to previous findings reported for males. However, no significant differences in response of hemodynamic variables were observed between trained and untrained subjects during LBNP to -50 torr (P greater than 0.05) except for vascular resistance and diastolic blood pressure at -50 torr where the untrained value was greater than the trained value. This would suggest that a fitness-related difference may have been present at higher levels of LBNP. Furthermore, in contrast to previous reports in males, the index of baroreflex responsiveness (delta heart rate/delta systolic blood pressure) was similar for both groups (P greater than 0.05). When these data were compared with a similar subject pool of males, the females displayed a significantly greater (P less than 0.05) tolerance of LBNP to -50 torr regardless of fitness.(ABSTRACT TRUNCATED AT 250 WORDS)     

Aerobic fitness: II. Orthostasis and VO2peak following head-down tilt.

To determine whether endurance exercise trained (ET) subjects would experience greater reductions in peak oxygen delivery and orthostatic tolerance (OT) than untrained (UT) subjects, both peak oxygen uptake (VO2peak) during upright bicycle ergometry and tolerance time during 70 degrees head-up tilt (HUT) were compared within and between groups before and after 4 h of -6 degrees head-down tilt (HDT). Eight ET subjects with a mean VO2peak of 61.7 +/- 1.6 ml.kg-1.min-1 were matched for age, height, and weight with eight UT subjects (VO2peak = 38.4 +/- 1.7 ml.kg-1.min-1). Following HDT, decreases in plasma volume (PV) were larger for ET subjects (-3.7 +/- 0.5 ml.kg-1) than for UT subjects (-2.3 +/- 0.3 ml.kg-1), P less than 0.03. Reductions in VO2peak for ET subjects (-5.4 +/- 1.1 ml.kg-1.min-1) were also greater than for UT subjects (-2.4 +/- 0.8 ml.kg-1.min-1), P less than 0.05. The ET (N = 6) subjects also had a significant decrease in OT time (-13.0 +/- 4.2 min) during post-HDT HUT, which was not observed for the UT group (N = 6). A significant inverse correlation was found pre-HDT VO2peak and the change in OT time, r = -0.74, P less than 0.01. The decrease in OT was also significantly correlated to the PV decrease, r = 0.59, P less than 0.04. The UT subjects had significantly augmented pressor responses to HUT manifested by the increases in both HR and MAP following HDT.(ABSTRACT TRUNCATED AT 250 WORDS)     

血容量减少对立位应激反应影响的仿真研究

目的 研究不同程度的血容量减少对心血管系统立位应激反应的影响,探讨血容量降低在航天失重后心血管失调和立位耐力降低机理中的意义。方法 在仿真下体负压（LBNP）暴露时心血管系统反应模型的血液重新分配子模型中引入血容量减少因素,仿真血容量减少0－25％后LBNP时心率（HR）和血压BP变化,结果 血容量减少低于总血量的5％条件下,心血管系统可以通过压力反射调节作用维持LBNP时政党的HR和BP;血容量减少超过约15％,在安静仰卧位时,HR和BP正常,但LBNP时BP迅速降低,系统可失去稳定性。结论 血容量减少将导致心血管系统对立位应激反应的改变。     

Effect of G-suit protection on carotid-cardiac baroreflex function

INTRODUCTION: To test the hypothesis that G-suit inflation could increase cardiac chronotropic responses to baroreceptor stimulation and enhance baroreflex buffering of BP, the carotid-cardiac baroreflex response of 12 subjects was measured across two levels of lower body negative pressure (LBNP = 0 and 50 mm Hg) and two levels of G-suit inflation (0 and 50 mm Hg) in random order. METHODS: Carotid-cardiac baroreflex stimulation was delivered via a silastic neck pressure cuff and responsiveness quantified by determination of the maximum slope of the stimulus-response function between R-R intervals (ms) and their respective carotid distending pressures (mmHg). RESULTS: Mean +/- SE baseline control baroreflex responsiveness was 3.8+/-0.4 ms x mm Hg(-1). LBNP reduced the baroreflex response to 2.7+/-0.4 ms x mm Hg(-1), but G-suit inflation with LBNP restored the baroreflex response to 4.3+/-0.6 ms x mm Hg(-1). CONCLUSIONS: These results suggest that, in addition to increased venous return and elevated peripheral resistance, G-suit inflation may provide protection against the debilitating effects of blood distribution to the lower extremities during orthostatic challenges such as standing or high +Gz acceleration by increasing cardiovascular responsiveness to carotid baroreceptor stimulation.     

Cardiovascular adaptation during simulated microgravity: lower body negative pressure to counter orthostatic hypotension

The cardiovascular function is one of the main functions disturbed by microgravity. It is particularly affected by the astronaut's return to Earth, where one of the symptoms of the cardiovascular adaptation syndrome is orthostatic hypotension; the clinical consequence can be presyncopal state or a syncope. Lower body negative pressure (LBNP) is intended to stimulate the venous system of the lower limbs. Studies performed in the U.S. have shown that LBNP constitutes an efficient countermeasure, but this approach is impractical because 4 to 6 h/d of application are required. Five volunteers took part in two recent antiorthostatic bed rest experiments for 30 days. In the first experiment, three subjects were submitted to several sessions of LBNP per day and two others were controls; in the second, the LBNP group of the first experiment became control and vice versa. Two orthostatic investigations were performed: 5 d before bed rest; and at the end of the 30-d bed rest period. The results showed that: 1) when the subjects were controls, a high orthostatic hypotension post bed rest with three syncopes and one presyncopal state during the first minutes of the tilt test appeared; 2) when the subjects were submitted to LBNP sessions, no orthostatic hypotension was noted. These two experiments proved the beneficial effects of the LBNP as a countermeasure against orthostatic hypotension.     

Baroreflex control of heart rate during heating in subjects with low orthostatic tolerance

BACKGROUND: Heat stress induces a reduction of orthostatic tolerance. The cardiovascular responses, including the cardiac baroreflex response to heat stress, were examined to test the hypothesis that subjects with orthostatically low tolerance demonstrate an impaired baroreflex control of heart rate (HR) during heat stress. METHODS: There were 44 healthy young volunteers who underwent whole body heat stress produced by a hot-water-perfused suit during supine rest for 45 min and 75 degrees head-up tilt (HUT) for 6 min. Esophageal temperature, HR, arterial pressure, and skin blood flow in the forearm and palm were measured continuously throughout the experiment. The sensitivity of the arterial baroreflex control of HR was calculated from the spontaneous changes in beat-to-beat arterial pressure and HR. RESULTS: The HUT was uneventful for 22 volunteers (higher tolerance group), but 22 volunteers (lower tolerance group) reached presyncope after 195 +/- 19 s. Esophageal temperature, HR, arterial pressure, and skin blood flow changed similarly in the two groups during heating. In the preheating condition, the sensitivity of the baroreflex control of HR did not differ significantly between the two groups. Heating did not alter the sensitivity of baroreflex control of HR in the higher tolerance group, but decreased it significantly in the lower tolerance group. Heating increased the number of heartbeats used for analysis of the baroreflex sensitivity in the higher tolerance group, but did not change it in the lower tolerance group. CONCLUSIONS: These results suggest that the impairment of vagal baroreflex control of HR during heat exposure aggravates the orthostatic intolerance in heat-stressed humans.     

Lower-body negative-pressure exercise and bed-rest-mediated orthostatic intolerance

PURPOSE: Supine, moderate exercise is ineffective in maintaining orthostatic tolerance after bed rest (BR). Our purpose was to test the hypothesis that adding an orthostatic stress during exercise would maintain orthostatic function after BR. METHODS: Seven healthy men completed duplicate 15-d 6 degrees head-down tilt BR using a crossover design. During one BR, subjects did not exercise (CON). During another BR, subjects exercised for 40 min.d(-1) on a supine treadmill against 50-60 mm Hg LBNP (EX). Exercise training consisted of an interval exercise protocol of 2- to 3-min intervals alternating between 41 and 65% (.)VO(2max). Before and after BR, an LBNP tolerance test was performed in which the LBNP chamber was decompressed in 10-mm Hg stages every 3 min until presyncope. RESULTS: LBNP tolerance, as assessed by the cumulative stress index (CSI) decreased after BR in both the CON (830 +/- 144, pre-BR vs 524 +/- 56 mm Hg.min, post-BR) and the EX (949 +/- 118 pre-BR vs 560 +/- 44 mm Hg.min, post-BR) conditions. However, subtolerance (0 to -50 mm Hg LBNP) heart rates were lower and systolic blood pressures were better maintained after BR in the EX condition compared with CON. CONCLUSION: Moderate exercise performed against LBNP simulating an upright 1-g environment failed to protect orthostatic tolerance after 15 d of BR.     

Reduction in LBNP tolerance following prolonged endurance exercise training.

Eight young men underwent an 8-month endurance exercise training program. Prior to and following the training program, the subjects' maximal oxygen uptake (VO2max), total blood volume (TBV) and plasma volume (PV), tolerance to lower body negative pressure (LBNP) assessed by the cumulative stress index (CSI) to presyncope, and their hemodynamic responses to 0 to -45 torr LBNP was determined. Hemodynamic measures included rebreathe carbon dioxide cardiac output (Qc), heart rate (HR), directly measured arterial blood pressures (ABP), and strain gauge determination of forearm blood flow (FBF) and leg volume changes (delta LgV). Calculated values of stroke volume (SV), forearm, vascular resistance (FVR), and peripheral vascular resistance (PVR) were made. Following training, each subject had an increased VO2max (mean = +27.4%, P < 0.001), TBV (mean = +15.8%, P < 0.02), and PV (mean = +16.5%, P < 0.02) and each subject had a decreased tolerance to LBNP (mean CSI = -24%, P < 0.001). Stepwise linear regression identified that the major factors to significantly predict the decreased CSI pre- to post-training were a reduced response of PVR to LBNP from -15 to -45 torr (Model R2 = 0.853), the delta TBV (model R2 = 0.981), and the greater post-training reduction in SBP to LBNP of 0 to -45 torr (model R2 = 1.0). These data suggest that physiologic adaptations associated with the increased VO2max and TBV resulting from a prolonged endurance exercise training program can alter the reflex control of vasomotion and cardiac output during LBNP and reduce the LBNP tolerance.     

Aerobic fitness: I. Response of volume regulating hormones to head-down tilt.

We investigated the relationship of aerobic fitness to the response of volume-regulating hormones to acute simulated microgravity. Six untrained (UT) and six endurance-trained (ET) healthy young males were studied in the head-down tilt (HDT) position of -6 degrees for 4 h. Peak oxygen uptake (VO2peak) and plasma volume (PV) were significantly greater in the ET (VO2peak = 61.7 +/- 1.6 ml.min-1.kg-1 and PV = 53.1 +/- 2.8 ml.kg-1) than in the UT (VO2peak = 38.4 +/- 1.7 ml.min-1.kg-1 and PV = 38.8 +/- 1.0 ml.kg-1). Plasma concentrations of atrial natriuretic peptide (ANP), arginine vasopressin (AVP), norepinephrine (NE), renin activity (PRA), and aldosterone (PA) were measured prior to HDT and at minutes 2, 5, 15, 30, 60, 120, 180, and 240 during HDT. PRA and PA significantly decreased during the time of HDT in both groups. The changes in ANP and NE concentrations were not significantly different between the groups nor across time. However, in the ET subjects, the changes in PRA and NE were significantly correlated with the changes in ANP (r = 0.49, P less than 0.01; and r = 0.86, P less than 0.001, respectively); in the UT subjects, the changes in AVP, PRA, and PA were significantly associated with changes in NE (r = 0.34, P less than 0.03; and r = 0.59; and r = 0.53, P less than 0.01, respectively). PV significantly decreased during HDT, and was primarily related to the decrease in PA in both groups.(ABSTRACT TRUNCATED AT 250 WORDS)     

Gender differences in tolerance to lower body negative pressure

BACKGROUND: Previous studies suggest that women have lower tolerance than men do to lower body negative pressure (LBNP). The mechanism(s) responsible has not been determined. HYPOTHESES: Women would be less tolerant to presyncopal LBNP than men as determined by several indices of LBNP tolerance. Additionally, men and women, regardless of LBNP tolerance, would have similar cardiovascular responses to LBNP as presyncope was reached. METHODS: The subjects were 18 men and 18 women (average age 25) of similar fitness levels who volunteered for the study. A step-wise LBNP protocol to presyncope was employed. HR, stroke volume (SV), cardiac output (Q), BP, and systemic vascular resistance (SVR) were measured before and throughout the LBNP stress. Data from women were compared with those from all men, and to men with similar and higher LBNP tolerance. RESULTS: Women had significantly less LBNP tolerance than men regardless of index used: 30% less by duration of LBNP, 21% less by maximal LBNP tolerated, 44% less by a cumulative stress index, and 27% less by a linear tolerance index. Cardiovascular responses to LBNP were similar for women and men as presyncope was approached, whether the men were low-tolerant (LT) or high-tolerant (HT). In the 2 min pre-presyncope, HR increased by 80 +/- 6% in women, 72 +/- 7% in LT men and 96 +/- 14% in HT men; Q decreased by 47 +/- 3% in women, 52 +/- 6% in LT men and 55 +/- 2% in HT men. Similar comparisons occurred for the decline in BP and the rise in SVR. CONCLUSION: Women have lower LBNP tolerance than do men, although there is considerable gender overlap in tolerances. The cardiovascular response to LBNP is similar regardless of gender or tolerance level as presyncope is approached. Understanding the gender differences in LBNP tolerance may lie in determining how the LBNP stress is translated into a "trigger" for cardiovascular decompensation.     

Results of a 4-week head-down tilt with and without LBNP countermeasure: II. Cardiac and peripheral hemodynamics--comparison with a 25-day spaceflight.

Cardiovascular hemodynamics were assessed by ultrasound echography and Doppler during a 28-d head-down tilt "CNES HDT: 87-88," and during the 25-d French-Soviet spaceflight "Aragatz 88." For both studies we used the same ultrasound methodology. The main hemodynamic parameters of the left heart function and of the peripheral arterial system (cerebral, renal, femoral arteries) were measured four times during the HDT (day 7, 14, 21, 28) and twice post-HDT. The same measurements were performed six times during the flight (day 4, 5, 15, 18, 20, 24) and five times postflight. During the HDT, two groups were studied: six subjects no countermeasures and six subjects with repeated lower body negative pressure (LBNP). In the first group the cardiac volumes and the cardiac output were significantly decreased, whereas in the group with LBNP these parameters were superior to the basal value. In the group without LBNP the cerebral flow was maintained because of a decrease of the brain vascular resistance. In this group the renal vascular resistance was decreased as inflight. In the lower limbs we observed a loss of the vasomotor control. The vascular resistance was decreased after the end of the HDT and the subjects suffered orthostatic intolerance. In the population with LBNP, we did not observe the same decrease of vascular resistance during the HDT, and after the HDT no sign of orthostatic intolerance was observed. During the flight, the left ventricular volume was significantly decreased. The carotid flow was maintained owing to a decrease of the cerebral vascular resistance.(ABSTRACT TRUNCATED AT 250 WORDS)     

Moderate sodium restriction does not alter lower body negative pressure tolerance.

HYPOTHESIS: Space travel with exposure to microgravity leads to a significant reduction in orthostatic tolerance on return to Earth, for which countermeasures are only partially successful. The purpose of this study was to examine the effect of moderate dietary sodium restriction on tolerance to LBNP. METHODS: Eight healthy men, age 25.1+/-1.3 yr, volunteered for the study. Subjects were exposed to presyncopal LBNP after consuming their "typical" diet (C) for 5 d and after consuming a sodium restricted (SR) diet for 5 d. Diet sequence was randomized and adherence was verified by 24-h urine collection on the 4th and 5th days of each diet. RESULTS: All subjects reached presyncope during the LBNP, regardless of diet. Urinary sodium excretion was 3390+/-950 mg on the C diet and 1174+/-560 mg on the SR diet. Urinary potassium was not different between the diets. Cumulative stress index scores were 655+/-460 (mm Hg x min) on the C diet and 639+/-388 (mm Hg x min) during SR. Cardiac volumes, BP and total peripheral resistance were not different at any stage of the LBNP between the diets, nor were catecholamines. Plasma renin activity, determined by radioimmunoassay, was significantly higher during SR at rest, and during all stages of LBNP in comparison with the control diet. CONCLUSION: Moderate dietary sodium restriction is not detrimental to orthostatic tolerance.     

模拟失重对心血管功能的影响及下体负压的对抗作用

总结了近年来本实验室有关模拟失重对心血管功能影响及下体负压对抗作用的研究，讨论了模拟失重致立位耐力不良的机理可能与心血管功能降低，脑血流降低及内分泌改变等有关，以及采用数学模型方法探讨失重致立位耐力降低机制的作用意义，重点论述了下体负压对抗方案问题。     

Relationship between aerobic endurance training and dynamic cerebral blood flow regulation in humans

The incidence of orthostatic intolerance is elevated in endurance‐trained individuals. We sought to test the hypothesis that aerobic endurance training is associated with an attenuated control of the cerebral vasculature. Endurance trained (ET, n = 13) and age‐matched untrained (UT, n = 11) individuals (peak O₂ consumption, mean ± SEM; 63 ± 1 vs 42 ± 1 mL/min/kg, P < 0.05) were examined while supine and seated upright. Dynamic cerebral autoregulation (CA) was assessed by calculation of the rate of regulation (RoR) from the arterial blood pressure (ABP) and middle cerebral artery (MCA) mean blood velocity (V_mean) responses to a bilateral thigh cuff release, which evoked a transient hypotension. Cerebral oxygenation (oxyhemoglobin; HbO₂) was determined with near‐infrared spectroscopy. When seated upright, cuff release evoked a greater decrease in ABP (P < 0.001), MCA V_mean (P = 0.096) and HbO₂ (P < 0.001) in ET compared with UT. However, RoR was similar in ET and UT individuals while seated upright (to 0.193 ± 0.039 vs 0.129 ± 0.029/s, P > 0.05), and there was no significant difference in the relative change in RoR from the supine to upright positions (ΔRoR: ?65 ± 7 and ?69 ± 7%, for ET and UT, respectively). These findings suggest that aerobic endurance training is not associated with an attenuation in dynamic CA.