A Brief Report on the Effects of Vasoactive Agents on Peripheral Venous Waveforms in a Porcine Model

Overview

Journal JRSM Cardiovasc Dis

Specialty Cardiology & Vascular Diseases

Date 2020 Sep 1

PMID 32864123

Citations 2

Authors

Monica Polcz

Kyle M Hocking

Devin Chang

Philip Leisy

Jenna H Sobey

Jessica Huston

Susan Eagle

Colleen Brophy

Bret D Alvis

Affiliations

Soon will be listed here.

Abstract

Objectives: Non-invasive venous waveform analysis (NIVA) is a recently described, novel technique to assess intravascular volume status. Waveforms are captured with a piezoelectric sensor; analysis in the frequency domain allows for calculation of a "NIVA value" that represents volume status. The aim of this report was to determine the effects of vasoactive agents on the venous waveform and calculated NIVA values.

Design: Porcine experimental model.

Setting: Operating theatre.

Participants: A piezoelectric sensor was secured over the surgically exposed saphenous vein in eight anesthetized pigs.

Main Outcome Measures: NIVA value, pulmonary capillary wedge pressure (PCWP), and mean arterial pressure prior to and post intravenous administration of 150-180 µg of phenylephrine or 100 µg of sodium nitroprusside.

Results: Phenylephrine led to a decrease in NIVA value (mean 9.2 vs. 4.6, < 0.05), while sodium nitroprusside led to an increase in NIVA value (mean 9.5 vs. 11.9, < 0.05). Mean arterial pressure increased after phenylephrine ( < 0.05) and decreased after sodium nitroprusside ( < 0.05). PCWP did not change significantly after phenylephrine ( = 0.25) or sodium nitroprusside ( = 0.06).

Conclusions: Vasoactive agents lead to changes in non-invasively obtained venous waveforms in euvolemic pigs, highlighting a potential limitation in the ability to NIVA to estimate static volume in this setting. Further studies are indicated to understand the effects of vasoactive agents in the setting of hypovolemia and hypervolemia.

Citing Articles

Norepinephrine Infusion and the Central Venous Waveform in a Porcine Model of Endotoxemic Hypotension with Resuscitation: A Large Animal Study.

Bergman Z, Kiberenge R, Bianco R, Beilman G, Brophy C, Hocking K J Invest Surg. 2025; 38(1):2445603.

PMID: 39761972 PMC: 11709120. DOI: 10.1080/08941939.2024.2445603.

Hemodynamic Parameters in the Assessment of Fluid Status in a Porcine Hemorrhage and Resuscitation Model.

Wise E, Hocking K, Polcz M, Beilman G, Brophy C, Sobey J Anesthesiology. 2021; 134(4):607-616.

PMID: 33635950 PMC: 7946734. DOI: 10.1097/ALN.0000000000003724.

Physiology and clinical utility of the peripheral venous waveform.

Chang D, Leisy P, Sobey J, Reddy S, Brophy C, Alvis B JRSM Cardiovasc Dis. 2020; 9:2048004020970038.

PMID: 33194174 PMC: 7605016. DOI: 10.1177/2048004020970038.

References

Alvis B, Polcz M, Miles M, Wright D, Shwetar M, Leisy P . Non-invasive venous waveform analysis (NIVA) for volume assessment in patients undergoing hemodialysis: an observational study. BMC Nephrol. 2020; 21(1):194. PMC: 7245891. DOI: 10.1186/s12882-020-01845-2. View

Hocking K, Sileshi B, Baudenbacher F, Boyer R, Kohorst K, Brophy C . Peripheral Venous Waveform Analysis for Detecting Hemorrhage and Iatrogenic Volume Overload in a Porcine Model. Shock. 2016; 46(4):447-52. DOI: 10.1097/SHK.0000000000000615. View

Miles M, Alvis B, Hocking K, Baudenbacher F, Guth C, Lindenfeld J . Peripheral Intravenous Volume Analysis (PIVA) for Quantitating Volume Overload in Patients Hospitalized With Acute Decompensated Heart Failure-A Pilot Study. J Card Fail. 2018; 24(8):525-532. DOI: 10.1016/j.cardfail.2018.05.003. View

Gelman S . Venous function and central venous pressure: a physiologic story. Anesthesiology. 2008; 108(4):735-48. DOI: 10.1097/ALN.0b013e3181672607. View

Alvis B, Polcz M, Huston J, Hopper T, Leisy P, Mishra K . Observational Study of Noninvasive Venous Waveform Analysis to Assess Intracardiac Filling Pressures During Right Heart Catheterization. J Card Fail. 2019; 26(2):136-141. DOI: 10.1016/j.cardfail.2019.09.009. View