2020
DOI: 10.1152/ajpregu.00339.2019
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Reactive hyperemia: a review of methods, mechanisms, and considerations

Abstract: Reactive hyperemia is a well-established technique for noninvasive assessment of peripheral microvascular function and a predictor of all-cause and cardiovascular morbidity and mortality. In its simplest form, reactive hyperemia represents the magnitude of limb reperfusion following a brief period of ischemia induced by arterial occlusion. Over the past two decades, investigators have employed a variety of methods, including brachial artery velocity by Doppler ultrasound, tissue reperfusion by near-infrared sp… Show more

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Cited by 143 publications
(145 citation statements)
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“…mL min −1 ) (Limberg et al . 2020; Rosenberry & Nelson, 2020). Antegrade and retrograde shear stress were calculated as shear stress in the forward (positive) and backward (negative) direction, respectively, and mean shear stress as the sum of antegrade and retrograde (time‐averaged mean shear stress).…”
Section: Methodsmentioning
confidence: 99%
“…mL min −1 ) (Limberg et al . 2020; Rosenberry & Nelson, 2020). Antegrade and retrograde shear stress were calculated as shear stress in the forward (positive) and backward (negative) direction, respectively, and mean shear stress as the sum of antegrade and retrograde (time‐averaged mean shear stress).…”
Section: Methodsmentioning
confidence: 99%
“… 1 , 2 Assessment of reactive hyperemia in microcirculation has been used as a measure of microvascular function. 3 Microvascular dysfunction may lead to rarefaction of downstream vessels and consequent reduction in the number of capillaries, contributing to hypertension and cardiovascular events. 4 Moreover, downstream arterial disease may reduce muscle blood supply, leading to fatigue, cramp, discomfort, or pain in limbs during daily activities.…”
Section: Introductionmentioning
confidence: 99%
“…Stimulus-response protocols reveal the microcirculatory system's ability to constrict or dilate vessels and thereby regulate the blood flow to adapt to periods of ischemia or heating provocation. [2][3][4][5] Oxy-and deoxyhemoglobin, found in RBCs, are strong absorbers in the visible wavelength range in human tissue with unique spectral fingerprints. The amount of oxy-and deoxyhemoglobin may be estimated using diffuse reflectance spectroscopy (DRS) to study hemoglobin oxygen saturation and RBC tissue fraction.…”
Section: Introductionmentioning
confidence: 99%
“…Stimulus–response protocols reveal the microcirculatory system’s ability to constrict or dilate vessels and thereby regulate the blood flow to adapt to periods of ischemia or heating provocation. 2 5 …”
Section: Introductionmentioning
confidence: 99%