The Influence of Adipose Tissue on Spatially Resolved Near-infrared Spectroscopy Derived Skeletal Muscle Oxygenation: the Extent of the Problem

Overview

Journal Physiol Meas

Specialties Biomedical Engineering
Biophysics
Physiology

Date 2017 Feb 3

PMID 28151429

Citations 21

Authors

Victor M Niemeijer

Jasper P Jansen

Thomas van Dijk

Ruud F Spee

Eduard J Meijer

Hareld M C Kemps

Pieter F F Wijn

Affiliations

Soon will be listed here.

Abstract

Objective: Near-infrared spectroscopy (NIRS) measurements of tissue oxygen saturation (StO) are useful for the assessment of skeletal muscle perfusion and function during exercise, however, they are influenced by overlying skin and adipose tissue. This study explored the extent and nature of the influence of adipose tissue thickness (ATT) on StO.

Approach: NIR spatially resolved spectroscopy (SRS) derived oxygenation was measured on vastus lateralis in 56 patients with chronic heart failure (CHF) and 20 healthy control (HC) subjects during rest and moderate intensity exercise with simultaneous assessment of oxygen uptake kinetics (τ [Formula: see text]). In vitro measurements were performed on a flow cell with a blood mixture with full oxygen saturation (100%), which was gradually decreased to 0% by adding sodium metabisulfite. Experiments were repeated with 2 mm increments of porcine fat layer between the NIRS device and flow cell up to 14 mm.

Main Results: Lower ATT, higher τ [Formula: see text], and CHF were independently associated with lower in vivo StO in multiple regression analysis, whereas age and gender showed no independent relationship. With greater ATT, in vitro StO was reduced from 100% to 74% for fully oxygenated blood and increased from 0% to 68% for deoxygenated blood.

Significance: This study shows that ATT independently confounds NIR-SRS derived StO by overestimating actual skeletal muscle oxygenation and by decreasing its sensitivity for deoxygenation. Because physiological properties (e.g. presence of disease and slowing of τ [Formula: see text]) also influence NIR-SRS, a correction based on optical properties is needed to interpret calculated values as absolute StO.

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