The Venous Distension Reflex and Orthostatic Hypertension

Not Applicable

Recruiting

• Conditions: Blood Pressure
• Interventions: Other: Tilt + external pressure; Other: Tilt + no external pressure.; Other: Limb occlusion + negative pressure; Other: Limb occlusion + no negative pressure

• Registration Number: NCT03496792
• Lead Sponsor: Milton S. Hershey Medical Center

Brief Summary

This research is being done to find out whether distension of veins in legs will cause a rise in blood pressure (orthostatic hypertension).

Detailed Description

In humans, two-thirds of the blood volume is contained within the venous vasculature. Because of this, changes in peripheral blood volume and alterations in the mechanical properties of peripheral veins can greatly impact cardiac filling, cardiac output and blood pressure (BP) responses to physiologic stress. Work from our laboratory over the past seven years has shown that local upper limb venous distension via volume infusion into an occluded arm (i.e. volume infusion model) or applying negative pressure to an occluded leg (limb suction experimental model) leads to an acute and dramatic increase in Muscle Sympathetic Nerve Activity (MSNA; an index of sympathetic activity directed to skeletal muscle) and BP in humans. Since this venous distension reflex (VDR) differs physiologically from the other reflex systems, and since this system may play a critical role in orthostatic BP control, we believe that it is a significant area of study.

The investigators speculate that VDR from lower limbs contributes to the autonomic adjustment to orthostatic stress. To examine the VDR in lower limbs, an arterial occlusion cuff on the mid-thigh was inflated (250 mm mercury; Hg). Then, limb suction (-100 mmHg) was applied \~10-15 cm below the level of arterial occlusion (i.e. below the knee). MSNA was measured in the opposite control limb. When suction was applied below the level of arterial occlusion (i.e. occlusion + suction), both MSNA and mean arterial BP (MAP) increased. In control trials, arterial occlusion without limb suction (i.e. occlusion alone) did not increase MSNA. Plethysmographic data showed calf circumference increased without detectable arterial pulsations. Pilot data suggest that the fluid shifts from the occluded but non-depressurized zone of the limb (i.e. between the cuff and knee) into the occluded and depressurized region of the limb within the tank. Thus, the results suggest that the VDR was engaged with this limb suction experimental model.

These experimental models "selectively" alter peripheral venous volume as the investigators measure sympathetic reflex responses. This approach is innovative and allows examination of a previously overlooked autonomic reflex in conscious humans. If these studies confirm the hypotheses, the obtained data would challenge the present teaching regarding how the sympathetic nervous system is engaged in humans during postural stress.

In \~2.5-10% of the population, BP rises as the person stands. This has been termed orthostatic hypertension, and is different from the "normal" sustained BP response when a person stands. The incidence of orthostatic hypertension may increase with aging (\~2.4% for 45-64 years old and \~8.7% for \>70 years old). Orthostatic hypertension is a risk factor for the development of stroke, left ventricular hypertrophy, and chronic kidney disease. It is unclear why BP rises with standing in some individuals. Some investigators have speculated that orthostatic hypertension is due to exaggerated baroreceptor withdrawal with standing. Others have speculated that this response is due to an increase in sympathetic output. It has been noted that some patients with orthostatic hypertension have increased venous pooling in their lower legs. Based these data, the investigators postulate that heightened engagement of the VDR reflexly increases MSNA and also serves to reset the aortic baroreflex. In this protocol, the investigators will determine if the MSNA response to leg suction is heightened in the individuals with elevated standing BP, and examine if the baroreflex is altered in these individuals. The investigators will also examine if external pressure on lower limbs, which limits the venous pooling in the lower limbs, will attenuate the increase in BP during standing in those individuals.

Study Timeline

• Study First Submitted: 2018-02-15
• Study First Submitted QC: 2018-04-05
• Study First Posted: 2018-04-12
• Study Start: 2020-03-10
• Status Verified: 2025-03
• Last Update Submitted: 2025-03-21
• Last Update Posted: 2025-03-26
• Primary Completion: 2026-05-01
• Study Completion: 2026-05-30

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

• Are capable of giving informed consent
• Are of any race or ethnicity
• Are fluent in written and spoken English
• Whose history and physical exam did not uncover any exclusion criteria
• Are 18 years of age

For subjects with elevated standing BP

• Systolic BP (SBP) during standing is at least 10 mmHg > the supine SBP
• Patients with a diagnosis of stage I hypertension without other chronic diseases may be INCLUDED

For normal subjects without elevated standing BP

• The change in SBP by standing is within ± 5 mmHg from the supine SBP
• Matched gender, similar age and BMI (within 10%) to participants with elevated standing BP
• Free of acute or chronic medical conditions

Exclusion Criteria

• Age < 18 years of age
• Are a pregnant or nursing woman
• Are a prisoner or institutionalized individual or unable to consent
• Have chronic diseases (e.g. heart, lung, neuromuscular disease, or cancer) other than stage I hypertension
• Have orthostatic hypotension or a history of syncope
• Current smoker
• History of blood clots

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Tilt + external pressure	Tilt + external pressure	Tilt + external pressure on legs performed in both "BP elevated with standing" and "BP maintained with standing" groups.
Tilt + no external pressure	Tilt + no external pressure.	Tilt + no external pressure performed in both "BP elevated with standing" and "BP maintained with standing" groups.
Limb occlusion + negative pressure	Limb occlusion + negative pressure	Limb occlusion + negative pressure performed in both "BP elevated with standing" and "BP maintained with standing" groups.
Limb occlusion + no negative pressure	Limb occlusion + no negative pressure	Limb occlusion + no negative pressure performed in both "BP elevated with standing" and "BP maintained with standing" groups.

Primary Outcome Measures

Name	Time	Method
Muscle Sympathetic Nerve Activity (MSNA) in bursts/min or arbitrary units/min	Recorded continuously during Visit 2, the 4-5 hr Negative Pressure study visit.	MSNA provides direct recordings of sympathetic nerve activity directed to blood vessels in skeletal muscle.

Secondary Outcome Measures

Name	Time	Method
Blood pressure in mmHg	Recorded continuously during the 4-5 hr visit.	Cuffs placed on a finger and arm will monitor blood pressure.
Heart rate in beats per minute	Recorded continuously during the 4-5 hr visit.	Electrocardiogram (ECG) patches attached to a Cardiocap will monitor heart rate.

Trial Locations

Locations (1)

Penn State Milton S. Hershey Medical Center; 🇺🇸 Hershey, Pennsylvania, United States