Temporary application of lower body positive pressure improves intracranial velocities in symptomatic acute carotid occlusion or tight stenosis: A pilot study

Abstract

Background

Patients with isolated cervical carotid artery occlusion not eligible to recanalization therapies but with compromised intracranial hemodynamics may be at risk of further clinical events. Apart from lying flat until spontaneous recanalization or adjustment of the collateral circulation hopefully occurs, no specific treatment is currently implemented. Improving collateral flow is an attractive option in this setting. Lower body positive pressure (LBPP) is known to result in rapid venous blood shift from the lower to the upper body part, in turn improving cardiac preload and output, and is routinely used in acute hemorrhagic shock. We report here cerebral blood flow velocities measured during LBPP in this patient population.

Methods

This is a retrospective analysis of the clinical, physiological, and transcranial Doppler monitoring data collected during and 15 min after LBPP in 21 consecutive patients (10 females, median age: 54 years) with recently symptomatic isolated carotid occlusion/tight stenosis (unilateral in 18) mostly due to atherosclerosis or dissection. LBPP was applied for 90 min at a median 5 days after symptom onset.

Results

At baseline, middle-cerebral artery velocities were markedly lower on the symptomatic, as compared to asymptomatic, side. LBPP significantly improved blood flow velocities in both the symptomatic and asymptomatic middle-cerebral artery as well as the basilar artery, which persisted 15 min after discontinuing the procedure. LBPP also resulted in mild but significant increases in mean arterial blood pressure.

Conclusions

LBPP improved intracranial hemodynamics downstream recently symptomatic carotid occlusion/tight stenosis as well as in the contralateral and posterior circulations, which persisted after LBPP deflation. Randomized trials should determine if this easy-to-use, noninvasive, nonpharmacologic approach has long-lasting benefits on the intracranial circulation and improves functional outcome.

Keywords

ischemic stroke treatment ultrasound transcranial Doppler intervention therapy

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References

Liebeskind

. Collateral circulation. Stroke 2003; 34: 2279–2284.

Shuaib

Butcher

Mohammad

Saqqur

Liebeskind

. Collateral blood vessels in acute ischaemic stroke: a potential therapeutic target. Lancet Neurol 2011; 10: 909–921.

Bondurant

Hickam

. Circulatory and pulmonary effects of acute central vascular engorgement in normal subjects. Dis Chest 1959; 35: 83–87.

Gilbert

Regnard

Lenner

Nelson

McFadden

Jr . Intrathoracic airstream temperatures during acute expansions of thoracic blood volume. Clin Sci (Lond) 1991; 81: 655–661.

Payen

Brun-Buisson

Carli

, et al. Hemodynamic, gas exchange, and hormonal consequences of LBPP during PEEP ventilation. J Appl Physiol (1985) 1987; 62: 61–70.

Risch

Koubenec

Beckmann

Lange

Gauer

. The effect of graded immersion on heart volume, central venous pressure, pulmonary blood distribution, and heart rate in man. Pflugers Arch 1978; 374: 115–118.

Risch

Koubenec

Gauer

Lange

. Time course of cardiac distension with rapid immersion in a thermo-neutral bath. Pflugers Arch 1978; 374: 119–120.

Greenleaf

Shvartz

Kravik

Keil

. Fluid shifts and endocrine responses during chair rest and water immersion in man. J Appl Physiol Respir Environ Exerc Physiol 1980; 48: 79–88.

Ponce

Moreira

. Water immersion in an anuric cirrhotic patient. Nephron 1986; 43: 144–147.

10.

Hensleigh

. Anti-shock garment provides resuscitation and haemostasis for obstetric haemorrhage. BJOG 2002; 109: 1377–1384.

11.

Pileggi-Castro

Nogueira-Pileggi

Tuncalp

Oladapo

Vogel

Souza

. Non-pneumatic anti-shock garment for improving maternal survival following severe postpartum haemorrhage: a systematic review. Reprod Health 2015; 12: 28.

12.

Perry

Schlader

Raman

Cochrane

Lucas

Mundel

. Middle cerebral artery blood flow velocity in response to lower body positive pressure. Clin Physiol Funct Imaging 2013; 33: 483–488.

13.

Berthet K, Lukaszewicz AC, Bousser MG and Payen D. Lower body positive pressure application with an antigravity suit in acute carotid occlusion. Stroke Res Treat 2010; 2010: 950524. doi: 10.4061/2010/950524.

14.

Arnolds

von Reutern

. Transcranial Doppler sonography. Examination technique and normal reference values. Ultrasound Med Biol 1986; 12: 115–123.

15.

Brothers

Zhang

. CrossTalk opposing view: the middle cerebral artery diameter does not change during alterations in arterial blood gases and blood pressure. J Physiol 2016; 594: 4077–4079.

16.

Alvares

VRC

Ramos

Pereira

, et al. Pneumatic compression, but not exercise, can avoid intradialytic hypotension: a randomized trial. Am J Nephrol 2017; 45: 409–416.

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