Diffuse correlation spectroscopy and frequency-domain near-infrared spectroscopy for measuring microvascular blood flow in dynamically exercising human muscles

Quaresima, Valentina; Anderson, Pamela G.; D, Wiese; Carp, Stefan A.; Ferrari, Marco; Franceschini, Maria Angela

doi:10.1152/japplphysiol.00324.2019

Cited by 22 publications

(22 citation statements)

References 43 publications

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“…5,8 DCS takes advantage of this physical phenomenon to monitor time-varying blood flow non-invasively and is currently being used in various research applications. 5,[8][9][10][11][12][13][14][15] A particularly successful application area is the CBF monitoring of neonates, for whom the relatively thin skull results in high brain sensitivity. 16,17 Extending the application of DCS to bedside brain monitoring of adults, however, requires accounting for the influence of systemic variations of scalp blood flow (SBF) that have the potential to strongly contaminate changes in the calculated cerebral blood flow index (CBF i ).…”

Section: Introductionmentioning

confidence: 99%

Improved accuracy of cerebral blood flow quantification in the presence of systemic physiology cross-talk using multi-layer Monte Carlo modeling

Chan

Mazumder

et al. 2021

Neurophoton.

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Section: Introductionmentioning

confidence: 99%

Improved accuracy of cerebral blood flow quantification in the presence of systemic physiology cross-talk using multi-layer Monte Carlo modeling

Chan

Mazumder

et al. 2021

Neurophoton.

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“…Further investigations and technological developments (e.g. combined NIRS and diffuse correlation spectroscopy, Quaresima et al 2019 ) are, therefore, required to determine how differences in muscle activation and/or local O 2 might contribute to the unique O 2 transport characteristics of the VLd noted herein.…”

Section: Discussionmentioning

confidence: 99%

Impact of supine versus upright exercise on muscle deoxygenation heterogeneity during ramp incremental cycling is site specific

et al. 2021

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Purpose We tested the hypothesis that incremental ramp cycling exercise performed in the supine position (S) would be associated with an increased reliance on muscle deoxygenation (deoxy[heme]) in the deep and superficial vastus lateralis (VLd and VLs, respectively) and the superficial rectus femoris (RFs) when compared to the upright position (U). Methods 11 healthy men completed ramp incremental exercise tests in S and U. Pulmonary $$\dot{V}$$ V ˙ O2 was measured breath-by-breath; deoxy[heme] was determined via time-resolved near-infrared spectroscopy in the VLd, VLs and RFs. Results Supine exercise increased the overall change in deoxy[heme] from baseline to maximal exercise in the VLs (S: 38 ± 23 vs. U: 26 ± 15 μM, P < 0.001) and RFs (S: 36 ± 21 vs. U: 25 ± 15 μM, P < 0.001), but not in the VLd (S: 32 ± 23 vs. U: 29 ± 26 μM, P > 0.05). Conclusions The present study supports that the impaired balance between O2 delivery and O2 utilization observed during supine exercise is a regional phenomenon within superficial muscles. Thus, deep muscle defended its O2 delivery/utilization balance against the supine-induced reductions in perfusion pressure. The differential responses of these muscle regions may be explained by a regional heterogeneity of vascular and metabolic control properties, perhaps related to fiber type composition.

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“…However, DCS is sensitive to fiber and probe motion. For this reason its usage in dynamic, rhythmically exercise requires signal gating in order to exclude the time periods corresponding to limb movement [48–50]. We have chosen to perform an isometric exercise in order to avoid motion artifacts in DCS recording.…”

Section: Discussionmentioning

confidence: 99%

Microvascular blood flow changes of the abductor pollicis brevi muscle during sustained static exercise

Giovannella

Urtane

Karadeniz

et al. 2020

Preprint

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A practical assessment of the health of the palm muscle, abductor pollicis brevis (APB), is important for diagnosis of different conditions. Here we have developed a protocol and a probe to utilize diffuse correlation spectroscopy (DCS) to characterize microvascular blood flow changes in the APB during and after sustained isometric exercise, during and after thumb abduction at at 55% of maximum voluntary contraction (MVC). Blood flow in the APB decreased during exercise in the subjects (n=13) with high MVC (n=7) and stayed constant in the ones with low MVC (n=6) suggesting that the mechanical occlusion due to increased intramuscular pressure exceeded the vasodilation elicited by the higher demand. Blood flow changes during exercise negatively correlated with the absolute force applied by each subject. Muscular blood flow increased after exercise compared to the values reached during exercise. In conclusion, DCS allows the study of the response of a small muscle to static exercise.

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Diffuse correlation spectroscopy and frequency-domain near-infrared spectroscopy for measuring microvascular blood flow in dynamically exercising human muscles

Cited by 22 publications

References 43 publications

Improved accuracy of cerebral blood flow quantification in the presence of systemic physiology cross-talk using multi-layer Monte Carlo modeling

Improved accuracy of cerebral blood flow quantification in the presence of systemic physiology cross-talk using multi-layer Monte Carlo modeling

Impact of supine versus upright exercise on muscle deoxygenation heterogeneity during ramp incremental cycling is site specific

Microvascular blood flow changes of the abductor pollicis brevi muscle during sustained static exercise

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