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1.
To examine how long-lasting microgravity simulated by 6 degrees head-down bed rest (HDBR) induces changes in the baroreflex control of muscle sympathetic nerve activity (MSNA) at rest and changes in responses of MSNA to orthostasis, six healthy male volunteers (range 26-42 yr) participated in Valsalva maneuver and head-up tilt (HUT) tests before and after 120 days of HDBR. MSNA was measured directly using a microneurographic technique. After long-term HDBR, resting supine MSNA and heart rate were augmented. The baroreflex slopes for MSNA during Valsalva maneuver (in supine position) and during 60 degrees HUT test, determined by least-squares linear regression analysis, were significantly steeper after than before HDBR, whereas the baroreflex slopes for R-R interval were significantly flatter after HDBR. The increase in MSNA from supine to 60 degrees HUT was not different between before and after HDBR, but mean blood pressure decreased in 60 degrees HUT after HDBR. In conclusion, the baroreflex control of MSNA was augmented, whereas the same reflex control of R-R interval was attenuated after 120 days of HDBR.  相似文献   

2.
Postural orthostatic tachycardia syndrome (POTS) is characterized by excessive tachycardia during orthostasis. To test the hypothesis that patients with POTS have decreased sympathetic neural responses to baroreflex stimuli, we measured heart rate (HR) and muscle sympathetic nerve activity (MSNA) responses to three baroreflex stimuli including vasoactive drug boluses (modified Oxford technique), Valsalva maneuver, and head-up tilt (HUT) in POTS patients and healthy control subjects. The MSNA response to the Valsalva maneuver was significantly greater in the POTS group (controls, 26 +/- 7 vs. POTS, 48 +/- 6% of baseline MSNA/mmHg; P = 0.03). POTS patients also had an exaggerated MSNA response to 30 degrees HUT (controls, 123 +/- 24 vs. POTS, 208 +/- 30% of baseline MSNA; P = 0.03) and tended to have an exaggerated response to 45 degrees HUT (controls, 137 +/- 27 vs. POTS, 248 +/- 58% of baseline MSNA; P = 0.10). Sympathetic baroreflex sensitivity calculated during administration of the vasoactive drug boluses also tended to be greater in the POTS patients; however, this did not reach statistical significance (P = 0.15). Baseline MSNA values during supine rest were not different between the groups (controls, 23 +/- 4 vs. POTS, 16 +/- 5 bursts/100 heartbeats; P = 0.30); however, resting HR was significantly higher in the POTS group (controls, 58 +/- 3 vs. POTS, 82 +/- 4 beats/min; P = 0.0001). Our results suggest that POTS patients have exaggerated MSNA responses to baroreflex challenges compared with healthy control subjects, although resting supine MSNA values did not differ between the groups.  相似文献   

3.
We tested the hypothesis that differences in sympathetic reflex responses to head-up tilt (HUT) between males (n = 9) and females (n = 8) were associated with decrements in postural vasomotor responses in women. Muscle sympathetic nerve activity (MSNA; microneurography), heart rate, stroke volume (SV; Doppler), and blood pressure (Finapres) were measured during a progressive HUT protocol (5 min at each of supine, 20 degrees, 40 degrees, and 60 degrees ). MSNA and hemodynamic responses were also measured during the cold pressor test (CPT) to examine nonbaroreflex neurovascular control. SV was normalized to body surface area (SV(i)) to calculate the index of cardiac output (Q(i)), and total peripheral resistance (TPR). During HUT, heart rate increased more in females versus males (P < 0.001) and SV(i) and Q(i) decreased similarly in both groups. Mean arterial pressure (MAP) increased to a lesser extent in females versus males in the HUT (P < 0.01) but increases in TPR during HUT were similar. MSNA burst frequency was lower in females versus males in supine (P < 0.03) but increased similarly during HUT. Average amplitude/burst increased in 60 degrees HUT for males but not females. Both males and females demonstrated an increase in MAP as well as MSNA burst frequency, mean burst amplitude, and total MSNA during the CPT. However, compared with females, males demonstrated a greater neural response (DeltaTotal MSNA) due to a larger increase in mean burst amplitude (P < 0.05). Therefore, these data point to gender-specific autonomic responses to cardiovascular stress. The different MSNA response to postural stress between genders may contribute importantly to decrements in blood pressure control during HUT in females.  相似文献   

4.
We tested the hypothesis that women have blunted sympathetic neural responses to orthostatic stress compared with men, which may be elicited under hypovolemic conditions. Muscle sympathetic nerve activity (MSNA) and hemodynamics were measured in eight healthy young women and seven men in supine position and during 6 min of 60 degrees head-up tilt (HUT) under normovolemic and hypovolemic conditions (randomly), with approximately 4-wk interval. Acute hypovolemia was produced by diuretic (furosemide) administration approximately 2 h before testing. Orthostatic tolerance was determined by progressive lower body negative pressure to presyncope. We found that furosemide produced an approximately 13% reduction in plasma volume, causing a similar increase in supine MSNA in men and women (mean +/- SD of 5 +/- 7 vs. 6 +/- 5 bursts/min; P = 0.895). MSNA increased during HUT and was greater in the hypovolemic than in the normovolemic condition (32 +/- 6 bursts/min in normovolemia vs. 44 +/- 15 bursts/min in hypovolemia in men, P = 0.055; 35 +/- 9 vs. 45 +/- 8 bursts/min in women, P < 0.001); these responses were not different between the genders (gender effect: P = 0.832 and 0.814 in normovolemia and hypovolemia, respectively). Total peripheral resistance increased proportionately with increases in MSNA during HUT; these responses were similar between the genders. However, systolic blood pressure was lower, whereas diastolic blood pressure was similar in women compared with men during HUT, which was associated with a smaller stroke volume or stroke index. Orthostatic tolerance was lower in women, especially under hypovolemic conditions. These results indicate that men and women have comparable sympathetic neural responses during orthostatic stress under normovolemic and hypovolemic conditions. The lower orthostatic tolerance in women is predominantly because of a smaller stroke volume, presumably due to less cardiac filling during orthostasis, especially under hypovolemic conditions, which may overwhelm the vasomotor reserve available for vasoconstriction or precipitate neurally mediated sympathetic withdrawal and syncope.  相似文献   

5.
Although orthostatic hypotension is a common clinical syndrome after spaceflight and its ground-based simulation model, 6 degrees head-down bed rest (HDBR), the pathophysiology remains unclear. The authors' hypothesis that a decrease in sympathetic nerve activity is the major pathophysiology underlying orthostatic hypotension after HDBR was tested in a study involving 14-day HDBR in 22 healthy subjects who showed no orthostatic hypotension during 15-min 60 degrees head-up tilt test (HUT) at baseline. After HDBR, 10 of 22 subjects demonstrated orthostatic hypotension during 60 degrees HUT. In subjects with orthostatic hypotension, total activity of muscle sympathetic nerve activity (MSNA) increased less during the first minute of 60 degrees HUT after HDBR (314% of resting supine activity) than before HDBR (523% of resting supine activity, P < 0.05) despite HDBR-induced reduction in plasma volume (13% of plasma volume before HDBR). The postural increase in total MSNA continued during several more minutes of 60 degrees HUT while arterial pressure was maintained. Thereafter, however, total MSNA was paradoxically suppressed by 104% of the resting supine level at the last minute of HUT (P < 0.05 vs. earlier 60 degrees HUT periods). The suppression of total MSNA was accompanied by a 22 +/- 4-mmHg decrease in mean blood pressure (systolic blood pressure <80 mmHg). In contrast, orthostatic activation of total MSNA was preserved throughout 60 degrees HUT in subjects who did not develop orthostatic hypotension. These data support the hypothesis that a decrease in sympathetic nerve activity is the major pathophysiological factor underlying orthostatic hypotension after HDBR. It appears that the diminished sympathetic activity, in combination with other factors associated with HDBR (e.g., hypovolemia), may predispose some individuals to postural hypotension.  相似文献   

6.
The present study was performed to test the hypothesis that application of lower body positive pressure (LBPP) during orthostasis would reduce the baroreflex-mediated enhancement in sympathetic activity in humans. Eight healthy young men were exposed to a 70 degrees head-up tilt (HUT) on application of 30 mmHg LBPP. Muscle sympathetic nerve activity (MSNA) was microneurographically recorded from the tibial nerve, along with hemodynamic variables. We found that in the supine position with LBPP, MSNA remained unchanged (13.4 +/- 3.3 vs. 11.8 +/- 2.3 bursts/min, without vs. with LBPP; P > 0.05), mean arterial pressure was elevated, but arterial pulse pressure and heart rate did not alter. At 70 degrees HUT with LBPP, the enhanced MSNA response was reduced (33.8 +/- 5.0 vs. 22.5 +/- 2.2 bursts/min, without vs. with LBPP; P < 0.05), mean arterial pressure was higher, the decreased pulse pressure was restored, and the increased heart rate was attenuated. We conclude that the baroreflex-mediated enhancement in sympathetic activity during HUT was reduced by LBPP. Application of LBPP in HUT induced an obvious cephalad fluid shift as well as a restoration of arterial pulse pressure, which reduced the inhibition of the baroreceptors. However, the activation of the intramuscular mechanoreflexes produced by 30 mmHg LBPP might counteract the effects of baroreflexes.  相似文献   

7.
Sympathetic outflow increases during head-up tilt (HUT) to stabilize blood pressure in the presence of decreases in venous return and stroke volume (SV). Otherwise, orthostatic hypotension would develop. Gender differences in orthostatic tolerance have been noted but the mechanisms are still uncertain. More recently, Waters et al. reported in a limited sample, greater susceptibility of women to demonstrate orthostatic intolerance following space flight. Therefore, it is important to understand gender differences in reflex blood pressure regulation. Recently, we reported smaller increments in muscle sympathetic nerve activity (MSNA) in healthy women during graded HUT and a non-baroreflex cold pressor test. The purpose of this report is to examine the hypothesis that gender differences in blood pressure control during HUT are related to important variations in MSNA discharge patterns.  相似文献   

8.
The purpose of the present study is to examine the changes in the arterial baroreflex control of muscle sympathetic nerve activity (MSNA) after head-down bed rest (HDBR), in relation to orthostatic hypotension after HDBR. Therefore, we performed 60 degrees head-up tilt (HUT) tests before and after 14 days of HDBR, with monitoring MSNA, heart rate and blood pressure. We calculated the gain of the arterial baroreflex control of MSNA, and compared the gains between the subjects who did (defined as the fainters) and those who did not (defined as the nonfainters) become presyncopal in HUT tests after HDBR.  相似文献   

9.
Sympathetic activation during orthostatic stress is accompanied by a marked increase in low-frequency (LF, approximately 0.1-Hz) oscillation of sympathetic nerve activity (SNA) when arterial pressure (AP) is well maintained. However, LF oscillation of SNA during development of orthostatic neurally mediated syncope remains unknown. Ten healthy subjects who developed head-up tilt (HUT)-induced syncope and 10 age-matched nonsyncopal controls were studied. Nonstationary time-dependent changes in calf muscle SNA (MSNA, microneurography), R-R interval, and AP (finger photoplethysmography) variability during a 15-min 60 degrees HUT test were assessed using complex demodulation. In both groups, HUT during the first 5 min increased heart rate, magnitude of MSNA, LF and respiratory high-frequency (HF) amplitudes of MSNA variability, and LF and HF amplitudes of AP variability but decreased HF amplitude of R-R interval variability (index of cardiac vagal nerve activity). In the nonsyncopal group, these changes were sustained throughout HUT. In the syncopal group, systolic AP decreased from 100 to 60 s before onset of syncope; LF amplitude of MSNA variability decreased, whereas magnitude of MSNA and LF amplitude of AP variability remained elevated. From 60 s before onset of syncope, MSNA and heart rate decreased, index of cardiac vagal nerve activity increased, and AP further decreased to the level at syncope. LF oscillation of MSNA variability decreased during development of orthostatic neurally mediated syncope, preceding sympathetic withdrawal, bradycardia, and severe hypotension, to the level at syncope.  相似文献   

10.
Ray, Chester A., and Kathryn H. Gracey. Augmentation ofexercise-induced muscle sympathetic nerve activity during muscle heating. J. Appl. Physiol. 82(6):1719-1725, 1997.The muscle metabo- and mechanoreflexes have beenshown to increase muscle sympathetic nerve activity (MSNA) duringexercise. Group III and IV muscle afferents, which are believed tomediate this response, have been shown to be thermosensitive inanimals. The purpose of the present study was to evaluate the effect ofmuscle temperature on MSNA responses during exercise. Eleven subjectsperformed ischemic isometric handgrip at 30% of maximal voluntarycontraction to fatigue, followed by 2 min of postexercise muscleischemia (PEMI), with and without local heating of the forearm. Localheating of the forearm increased forearm muscle temperature from 34.4 ± 0.2 to 38.9 ± 0.3°C(P = 0.001). Diastolic andmean arterial pressures were augmented during exercise in the heat.MSNA responses were greater during ischemic handgrip with local heatingcompared with control (no heating) after the first 30 s. MSNA responsesat fatigue were greater during local heating. MSNA increased by 16 ± 2 and 20 ± 2 bursts per 30 s for control and heating,respectively (P = 0.03). Whenexpressed as a percent change in total activity (total burstamplitude), MSNA increased 531 ± 159 and 941 ± 237% forcontrol and heating, respectively (P = 0.001). However, MSNA was not different during PEMI between trials.This finding suggests that the augmentation of MSNA during exercisewith heat was due to the stimulation of mechanically sensitive muscleafferents. These results suggest that heat sensitizes skeletal muscleafferents during muscle contraction in humans and may play a role inthe regulation of MSNA during exercise.

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11.
The benefits of lower body positive pressure (LBPP) are generally accepted for clinical treatment in medical emergencies caused by massive bleeding to maintain the systemic blood pressure. They are also used by NASA post spaceflight for preventing orthostatic hypotension in the astronauts. However, controversy still exists concerning the mechanisms underlying LBPP benefits. The purpose of this study was to test the hypothesis that the baroreflex-mediated enhancement in sympathetic activity would be attenuated by LBPP during an orthostatic challenge in humans. Specifically, we studied 1) the sympathetic activity responses by the microneurographic technique, using direct intraneural measurement of muscle sympathetic nerve activity (MSNA); and 2) the contributions of preload and afterload to the chances in MSNA response during orthostasis on application of LBPP. To accomplish these issues, MSNA was recorded microneurographically along with noninvasive measurement of the cardiovascular variables in all the subjects during exposure to a 70 degrees HUT with 30-mm Hg LBPP.  相似文献   

12.
Arterial hypocapnia has been associated with orthostatic intolerance. Therefore, we tested the hypothesis that hypocapnia may be detrimental to increases in muscle sympathetic nerve activity (MSNA) and total peripheral resistance (TPR) during head-up tilt (HUT). Ventilation was increased approximately 1.5 times above baseline for each of three conditions, whereas end-tidal PCO(2) (PET(CO(2))) was clamped at normocapnic (Normo), hypercapnic (Hyper; +5 mmHg relative to Normo), and hypocapnic (Hypo; -5 mmHg relative to Normo) conditions. MSNA (microneurography), heart rate, blood pressure (BP, Finapres), and cardiac output (Q, Doppler) were measured continuously during supine rest and 45 degrees HUT. The increase in heart rate when changing from supine to HUT (P < 0.001) was not different across PET(CO(2)) conditions. MSNA burst frequency increased similarly with HUT in all conditions (P < 0.05). However, total MSNA and the increase in total amplitude relative to baseline (%DeltaMSNA) increased more when changing to HUT during Hypo compared with Hyper (P < 0.05). Both BP and Q were higher during Hyper than both Normo and Hypo (main effect; P < 0.05). Therefore, the MSNA response to HUT varied inversely with levels of PET(CO(2)). The combined data suggest that augmented cardiac output with hypercapnia sustained blood pressure during HUT leading to a diminished sympathetic response.  相似文献   

13.
The purpose ofthis study was to determine the effects of concentric (Con) andeccentric (Ecc) muscle actions on leg muscle sympathetic nerve activity(MSNA). Two protocols were utilized. In protocol1, eight subjects performed Con and Ecc arm curls for 2 min, with a resistance representing 50% of one-repetition maximum forCon curls. Heart rate (HR) and mean arterial pressure (MAP) weregreater (P < 0.05) during Con thanduring Ecc curls. Similarly, the MSNA was greater(P < 0.05) during Con than during Ecc curls. In protocol 2, eightdifferent subjects performed Con and Ecc arm curls to fatigue, followedby postexercise muscle ischemia, by using the same resistanceas in protocol 1. Endurance time wassignificantly greater for Ecc than for Con curls. The increase in HR,MAP, and MSNA was greater (P < 0.05)during Con than during Ecc curls. However, when the data werenormalized as a function of endurance time, the differences in HR, MAP,and MSNA between Con and Ecc curls were no longer present. HR, MAP, andMSNA responses during postexercise muscle ischemia were similar for Con and Ecc curls. Con curls elicited greater increase(P < 0.05) in blood lactateconcentration than did Ecc curls. In summary, Con actions contributesignificantly more to the increase in cardiovascular and MSNA responsesduring brief, submaximal exercise than do Ecc actions. However, whenperformed to a similar level of effort (i.e., fatigue), Con and Eccmuscle actions elicit similar cardiovascular and MSNA responses. Theseresults indicate that the increase in MSNA during a typical bout ofsubmaximal dynamic exercise is primarily mediated by the musclemetaboreflex, which is stimulated by metabolites produced predominantlyduring Con muscle action.  相似文献   

14.
Sympathetic discharge and vascular resistance after bed rest   总被引:2,自引:0,他引:2  
Shoemaker, J. Kevin, Cynthia S. Hogeman, Urs A. Leuenberger,Michael D. Herr, Kristen Gray, David H. Silber, and Lawrence I. Sinoway. Sympathetic discharge and vascular resistance after bedrest. J. Appl. Physiol. 84(2):612-617, 1998.The effect of 6° head-down-tilt bedrest (HDBR) for 14 days on supine sympathetic discharge andcardiovascular hemodynamics at rest was assessed. Mean arterialpressure, heart rate (n = 25), musclesympathetic nerve activity (MSNA; n = 16) burst frequency, and forearm blood flow(n = 14) were measured, and forearmvascular resistance (FVR) was calculated. Stroke distance,our index of stroke volume, was derived from measurements of aorticmean blood velocity (Doppler) and R-R interval(n = 7). With these data, an index oftotal peripheral resistance was determined. Heart rate at rest wasgreater in the post (71 ± 2 beats/min)- compared with the pre-HDBRtest (66 ± 2 beats/min; P < 0.003), but mean arterial pressure was unchanged. Aortic strokedistance during post-HDBR (15.5 ± 1.1 cm/beat) was reduced frompre-HDBR levels (20.0 ± 1.5 cm/beat)(P < 0.03). Also, MSNA burstfrequency was reduced in the post (16.7 ± 2.8 beats/min)- comparedwith the pre (25.2 ± 2.6 beats/min)-HDBR condition(P < 0.01). Bed rest did not alterforearm blood flow, FVR, or total peripheral resistance. Thusreductions in MSNA with HDBR were not associated with a decrease inFVR.

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15.
In congestive heart failure (CHF), themechanisms of exercise-induced sympathoexcitation are poorly defined.We compared the responses of sympathetic nerve activity directed tomuscle (MSNA) and to skin (SSNA, peroneal microneurography) duringrhythmic handgrip (RHG) at 25% of maximal voluntary contraction andduring posthandgrip circulatory arrest (PHG-CA) in CHF patients with those of an age-matched control group. During RHG, the CHF patients fatigued prematurely. At end exercise, the increase in MSNA was similarin both groups (CHF patients, n = 12;controls, n = 10). However, duringPHG-CA, in the controls MSNA returned to baseline, whereas it remainedelevated in CHF patients (P < 0.05).Similarly, at end exercise, the increase in SSNA was comparable in bothgroups (CHF patients, n = 11;controls, n = 12), whereas SSNAremained elevated during PHG-CA in CHF patients but not in the controls (P < 0.05). In a separate controlgroup (n = 6), even high-intensity static handgrip was not accompanied by sustained elevation of SSNAduring PHG-CA. 31P-nuclear magneticresonance spectroscopy during RHG demonstrated significant muscleacidosis and accumulation of inorganic phosphate in CHF patients(n = 7) but not in controls(n = 9). We conclude that in CHFpatients rhythmic forearm exercise leads to premature fatigue andaccumulation of muscle metabolites. The prominent PHG-CA response ofMSNA and SSNA in CHF patients suggests activation of the musclemetaboreflex. Because, in contrast to controls, in CHF patients bothMSNA and SSNA appear to be under muscle metaboreflex control, themechanisms and distribution of sympathetic outflow during exerciseappear to be different from normal.

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16.
The purpose of this study was to assess the endocrine status, thoracic impedance, blood concentration, and hemodynamic dose-responses using different angles of passive head-up tilt (HUT) ranging from 12 degrees to 70 degrees in the same subjects. Measurements were performed during 20 min supine position (pre-HUT), 30 min upright (HUT12, HUT30, HUT53, or HUT70), and 20 min supine (post-HUT); subjects 70 min in the supine position only (HUT0) served as resting controls. Norepinephrine increased above resting control values by 19, 44, 80, and 102%; epinephrine by 30, 41, 64, and 68%; aldosterone by 29, 62, 139, and 165%; plasma renin activity n. s., 41, 91, and 89%; vasopressin n.s., 27, 47, and 59%; thoracic bioimpedance n. s., 8, 13, and 16%; heart rate n. s., 5, 26, and 45%, and mean arterial pressure n. s., 5, 7, and 10%; at min 27 of HUT12, HUT30, HUT53, and HUT70, respectively. Pulse pressure decreased with HUT53 and HUT70 by 4 and 10%. Hematocrit increased by 0.2, 1.7, 6.3, and 7.2%, respectively. Blood density increased by 2.3 and 3.0 g/l, plasma density by 1.7 and 1.8 g/l with HUT53 and HUT70. After finishing HUT, heart rate fell to values which stayed below pre-HUT, and also below resting control levels for > or = 5 min ("post-orthostatic bradycardia") even after the lowest orthostatic load (HUT12). Thoracic impedance and arterial pressure remained increased after terminating HUT30, HUT53, and HUT70. In conclusion, passive orthostatic loading of different extent produces specific dose-responses of different magnitude in the endocrine system, blood composition, thoracic impedance, and hemodynamic variables. The heart rate is depressed even after HUT12, while arterial blood pressure and thoracic impedance exceed pre-stimulus levels after greater head-up tilt, indicating altered cardiovascular response after passive orthostasis.  相似文献   

17.
Ray, Chester A., and Keith M. Hume. Neck afferents andmuscle sympathetic activity in humans: implications for the vestibulosympathetic reflex. J. Appl.Physiol. 84(2): 450-453, 1998.We have shownpreviously that head-down neck flexion (HDNF) in humans elicitsincreases in muscle sympathetic nerve activity (MSNA). The purpose ofthis study was to determine the effect of neck muscle afferents onMSNA. We studied this question by measuring MSNA before and after headrotation that would activate neck muscle afferents but not thevestibular system (i.e., no stimulation of the otolith organs orsemicircular canals). After a 3-min baseline period with the head inthe normal erect position, subjects rotated their head to the side(~90°) and maintained this position for 3 min. Head rotation wasperformed by the subjects in both the prone(n = 5) and sitting(n = 6) positions. Head rotation did not elicit changes in MSNA. Average MSNA, expressed asburst frequency and total activity, was 13 ± 1 and 13 ± 1 bursts/min and 146 ± 34 and 132 ± 27 units/min during baselineand head rotation, respectively. There were no significant changes incalf blood flow (2.6 ± 0.3 to 2.5 ± 0.3 ml · 100 ml1 · min1;n = 8) and calf vascular resistance(39 ± 4 to 41 ± 4 units; n = 8). Heart rate (64 ± 3 to 66 ± 3 beats/min;P = 0.058) and mean arterial pressure(90 ± 3 to 93 ± 3; P < 0.05)increased slightly during head rotation. Additional neck flexionstudies were performed with subjects lying on their side(n = 5). MSNA, heart rate, and meanarterial pressure were unchanged during this maneuver, which also doesnot engage the vestibular system. HDNF was tested in 9 of the 13 subjects. MSNA was significantly increased by 79 ± 12% (P < 0.001) during HDNF. Thesefindings indicate that neck afferents activated by horizontal neckrotation or flexion in the absence of significant force development donot elicit changes in MSNA. These findings support the concept thatHDNF increases MSNA by the activation of the vestibular system.

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18.
We comparedreflex responses to static handgrip at 30% maximal voluntarycontraction (MVC) in 10 women (mean age 24.1 ± 1.7 yr) during twophases of their ovarian cycle: the menstrual phase (days 1-4) and the follicularphase (days10-12). Changes in muscle sympathetic nerve activity (MSNA; microneurography) in response tostatic exercise were greater during the menstrual compared withfollicular phase (phase effect P = 0.01). Levels of estrogen were less during the menstrual phase(75 ± 5.5 vs. 116 ± 9.6 pg/ml, days 1-4 vs.days 10-12;P = 0.002). Generated tension did not explain differences in MSNA responses (MVC: 29.3 ± 1.3 vs. 28.2 ± 1.5 kg, days 1-4 vs.days 10-12;P = 0.13). In a group of experiments with the use of 31P-NMRspectroscopy, no phase effect was observed forH+ andH2PO4 concentrations(n = 5). During an ischemicrhythmic handgrip paradigm (20% MVC), a phase effect was notobserved for MSNA or H+ orH2PO4 concentrations,suggesting that blood flow was necessary for the expression of thecycle-related effect. The present studies suggest that, during statichandgrip exercise, MSNA is increased during the menstrual compared withthe follicular phase of the ovarian cycle.

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19.
To test the hypothesis that systemic inhibition of nitric oxide (NO) synthase does not alter the regulation of sympathetic outflow during head-up tilt in humans, in eight healthy subjects NO synthase was blocked by intravenous infusion of NG-monomethyl-L-arginine (L-NMMA). Blood pressure, heart rate, cardiac output, total peripheral resistance (TPR), and muscle sympathetic nerve activity (MSNA) were recorded in the supine position and during 60 degrees head-up tilt. In the supine position, infusion of L-NMMA increased blood pressure, via increased TPR, and inhibited MSNA. However, the increase in MSNA evoked by head-up tilt during L-NMMA infusion (change in burst rate: 24 +/- 4 bursts/min; change in total activity: 209 +/- 36 U/min) was similar to that during head-up tilt without L-NMMA (change in burst rate: 23 +/- 4 bursts/min; change in total activity: 251 +/- 52 U/min, n = 6, all P > 0.05). Moreover, changes in TPR and heart rate during head-up tilt were virtually identical between the two conditions. These results suggest that systemic inhibition of NO synthase with L-NMMA does not affect the regulation of sympathetic outflow and vascular resistance during head-up tilt in humans.  相似文献   

20.
Acute alcohol consumption is reported to decrease mean arterial pressure (MAP) during orthostatic challenge, a response that may contribute to alcohol-mediated syncope. Muscle sympathetic nerve activity (MSNA) increases during orthostatic stress to help maintain MAP, yet the effects of alcohol on MSNA responses during orthostatic stress have not been determined. We hypothesized that alcohol ingestion would blunt arterial blood pressure and MSNA responses to lower body negative pressure (LBNP). MAP, MSNA, and heart rate (HR) were recorded during progressive LBNP (-5, -10, -15, -20, -30, and -40 mmHg; 3 min/stage) in 30 subjects (age 24 ± 1 yr). After an initial progressive LBNP (pretreatment), subjects consumed either alcohol (0.8 g ethanol/kg body mass; n = 15) or placebo (n = 15), and progressive LBNP was repeated (posttreatment). Alcohol increased resting HR (59 ± 2 to 65 ± 2 beats/min, P < 0.05), MSNA (13 ± 3 to 19 ± 4 bursts/min, P < 0.05), and MSNA burst latency (1,313 ± 16 to 1,350 ± 17 ms, P < 0.05) compared with placebo (group × treatment interactions, P < 0.05). During progressive LBNP, a pronounced decrease in MAP was observed after alcohol but not placebo (group × time × treatment, P < 0.05). In contrast, MSNA and HR increased during all LBNP protocols, but there were no differences between trials or groups. However, alcohol altered MSNA burst latency response to progressive LBNP. In conclusion, the lack of MSNA adjustment to a larger drop in arterial blood pressure during progressive LBNP, coupled with altered sympathetic burst latency responses, suggests that alcohol blunts MSNA responses to orthostatic stress.  相似文献   

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