Optical Hemodynamic Imaging of Jugular Venous Dynamics During Altered Central Venous Pressure

TL;DR

This paper introduces a non-contact optical imaging system that quantitatively assesses jugular venous responses to changes in central venous pressure, correlating well with invasive measurements across different cardiovascular conditions.

Contribution

The study presents a novel optical imaging method with a spatial calibration procedure to non-invasively monitor jugular venous dynamics during altered central venous pressure.

Findings

JVA waveforms align with jugular venous pulse dynamics.

Strong correlation between JVA and invasive central venous pressure.

JVA decreases with reduced stroke volume during hypovolemia.

Abstract

An optical imaging system is proposed for quantitatively assessing jugular venous response to altered central venous pressure. The proposed system assesses sub-surface optical absorption changes from jugular venous waveforms with a spatial calibration procedure to normalize incident tissue illumination. Widefield frames of the right lateral neck were captured and calibrated using a novel flexible surface calibration method. A hemodynamic optical model was derived to quantify jugular venous optical attenuation (JVA) signals, and generate a spatial jugular venous pulsatility map. JVA was assessed in three cardiovascular protocols that altered central venous pressure: acute central hypovolemia (lower body negative pressure), venous congestion (head-down tilt), and impaired cardiac filling (Valsalva maneuver). JVA waveforms exhibited biphasic wave properties consistent with jugular venous pulse dynamics when time-aligned with an electrocardiogram. JVA correlated strongly (median, interquartile range) with invasive central venous pressure during graded central hypovolemia (r=0.85, [0.72, 0.95]), graded venous congestion (r=0.94, [0.84, 0.99]), and impaired cardiac filling (r=0.94, [0.85, 0.99]). Reduced JVA during graded acute hypovolemia was strongly correlated with reductions in stroke volume (SV) (r=0.85, [0.76, 0.92]) from baseline (SV: 79$\pm$15 mL, JVA: 0.56$\pm$0.10 a.u.) to -40 mmHg suction (SV: 59$\pm$18 mL, JVA: 0.47$\pm$0.05 a.u.; p$<$0.01). The proposed non-contact optical imaging system demonstrated jugular venous dynamics consistent with invasive central venous monitoring during three protocols that altered central venous pressure. This system provides non-invasive monitoring of pressure-induced jugular venous dynamics in clinically relevant conditions where catheterization is traditionally required, enabling monitoring in non-surgical environments.