| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1152/PHYSREV.1974.54.3.566 |
| P953 | full work available at URL | https://www.physiology.org/doi/pdf/10.1152/physrev.1974.54.3.566 |
| P698 | PubMed publication ID | 4601623 |
| P2093 | author name string | S. A. Bergman | |
| R. A. Wolthuis | |||
| A. E. Nicogossian | |||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | physiology | Q521 |
| P304 | page(s) | 566-595 | |
| P577 | publication date | 1974-07-01 | |
| P1433 | published in | Physiological Reviews | Q1091827 |
| P1476 | title | Physiological effects of locally applied reduced pressure in man | |
| P478 | volume | 54 |
| Q54148395 | A carbohydrate meal attenuates the forearm vasoconstrictor response to lower body subatmospheric pressure in healthy young adults. |
| Q72383913 | A comparison of the effects of salbutamol, etilefrine and dextran during hypotension and low cardiac output states in rabbit |
| Q43448997 | Acute hemodynamic effects of a new inotropic agent (OPC-8212) in patients with congestive heart failure |
| Q35415225 | Assessing cerebral autoregulation via oscillatory lower body negative pressure and projection pursuit regression |
| Q72611052 | Body fluid distribution in man in space and effect of lower body negative pressure treatment |
| Q93671315 | Cardiac responses to lower body negative pressure and dynamic leg exercise |
| Q54064826 | Cardiovascular response to acute hypovolemia in relation to age. Implications for orthostasis and hemorrhage. |
| Q71799606 | Carotid baroreceptor reflex regulation of forearm vascular resistance in man |
| Q38596687 | Cerebral Blood-Flow Regulation During Hemorrhage |
| Q36563930 | Cerebral blood velocity regulation during progressive blood loss compared with lower body negative pressure in humans |
| Q38698623 | Changes in arterial cerebral blood volume during lower body negative pressure measured with MRI. |
| Q46912591 | Colloid volume loading does not mitigate decreases in central blood volume during simulated haemorrhage while heat stressed |
| Q33174070 | Combined head-up tilt and lower body suction: a test of orthostatic tolerance |
| Q33436760 | Construction of a lower body negative pressure chamber. |
| Q54968061 | Development and evaluation of a novel system for inducing orthostatic challenge by tilt tests and lower body negative pressure. |
| Q41332740 | Differences in autonomic nerve function in patients with silent and symptomatic myocardial ischaemia |
| Q78491902 | Do vestibular otolith organs participate in human orthostatic blood pressure control? |
| Q35203326 | Effect of hemodialysis on left ventricular function. Dissociation of changes in filling volume and in contractile state |
| Q67356732 | Effect of lower body negative pressure on human muscle nerve sympathetic activity |
| Q72936474 | Effect of lower body negative pressure on plasma ACTH and cortisol concentrations in man |
| Q70929963 | Effect of lower body negative pressure upon local regulation of blood flow in human subcutaneous tissue |
| Q37202519 | Effect of rowing ergometry and oral volume loading on cardiovascular structure and function during bed rest |
| Q52388943 | Effects of lower-body negative pressure on blood flow with applications to the human cardiovascular system. |
| Q45309265 | Effects of withdrawal and reinfusion of blood on limb circulation at rest and during contralateral isometric handgrip |
| Q37100134 | Evidence for unloading arterial baroreceptors during low levels of lower body negative pressure in humans |
| Q36685467 | Global cerebral ischemia in the rat: online monitoring of oxygen free radical production using chemiluminescence in vivo. |
| Q54308563 | Haemodynamic responses to nonhypotensive central hypovolaemia induced by lower body negative pressure in men and women |
| Q44476825 | Haemodynamics of leg veins during a 30-days-6 degrees head-down bedrest with and without lower body negative pressure |
| Q33156465 | Hemodynamic responses to simulated weightlessness of 24-h head-down bed rest and KAATSU blood flow restriction |
| Q33484275 | Heterogeneous regional vascular responses to simulated transient hypovolemia in man. |
| Q93537987 | Human cardiovascular reactions to simulated hypovolaemia, modified by the opiate antagonist naloxone |
| Q33165175 | Human cardiovascular responses to passive heat stress. |
| Q31041597 | Human cutaneous vascular responses to whole-body tilting, Gz centrifugation, and LBNP. |
| Q51504975 | Impact of central hypovolemia on photoplethysmographic waveform parameters in healthy volunteers. Part 1: time domain analysis. |
| Q90275257 | Impact of environmental stressors on tolerance to hemorrhage in humans |
| Q36339268 | Increasing blood flow to exercising muscle attenuates systemic cardiovascular responses during dynamic exercise in humans |
| Q44507297 | Influence of glucose and insulin on transcapillary fluid absorption from the arm during lower body negative pressure in man. |
| Q34560982 | Interaction of cardiopulmonary and carotid baroreflex control of vascular resistance in humans |
| Q47355838 | Long-duration bed rest modifies sympathetic neural recruitment strategies in males and females. |
| Q39142537 | Lower Body Negative Pressure and Effects of Autonomic Heart Blockade on Cardiovascular Responses |
| Q33154168 | Modulation of the control of muscle sympathetic nerve activity during severe orthostatic stress |
| Q33157728 | Muscle sympathetic nerve activity during intense lower body negative pressure to presyncope in humans |
| Q51334563 | Noninvasive investigation of blood pressure changes using the pulse wave transit time: a novel approach in the monitoring of hemodialysis patients. |
| Q72144097 | Oral L-arginine supplementation has no effect on cardiovascular responses to lower body negative pressure in man |
| Q51377530 | Orthostatic hypotension in aging humans. |
| Q72829447 | Physiological unloading of cardiopulmonary mechanoreceptors by posture change does not influence the pressor response to isometric exercise in healthy humans |
| Q33171979 | Postural effects on muscle nerve sympathetic activity in man |
| Q41404372 | Propranolol blocks ventricular refractory period changes with orthostatic stress in humans |
| Q51139979 | Pulse wave transit time for monitoring respiration rate. |
| Q50632449 | Reactive hyperemia in the human liver. |
| Q69027237 | Reduction of serum parathyroid hormone levels during sympathetic stimulation in man |
| Q68465321 | Regional blood volume in man determined by radiolabeled erythrocytes |
| Q36357588 | Reproducibility of a continuous ramp lower body negative pressure protocol for simulating hemorrhage |
| Q41749124 | Supine lower body negative pressure exercise during bed rest maintains upright exercise capacity. |
| Q33161628 | Sweat loss during heat stress contributes to subsequent reductions in lower-body negative pressure tolerance |
| Q54285778 | Sympathetic control of vascular resistance in skeletal muscle and skin of man |
| Q35914947 | Sympathetic responses to central hypovolemia: new insights from microneurographic recordings |
| Q72590530 | Systemic hemodynamic, forearm vascular, renal, and humoral responses to sustained cardiopulmonary baroreceptor deactivation in well-compensated cirrhosis |
| Q33160750 | Teaching fluid shifts during orthostasis using a classic paper by Foux et al. |
| Q67441237 | The Effect of Amitriptyline on Forearm Blood Flow |
| Q47892182 | The cerebrovascular response to lower-body negative pressure vs. head-up tilt. |
| Q33166567 | The role of cerebral oxygenation and regional cerebral blood flow on tolerance to central hypovolemia |
| Q33482992 | Tissue compliance in superficial tissues along body axis in man. |
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