Exercise versus vasodilator stress limb perfusion imaging for the assessment of peripheral artery disease

Purpose Our aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery disease (PAD). Methods Quantitative contrast‐enhanced ultrasound (CEU) perfusion imaging of the bilateral anterior thigh and calf was performed...

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Published in	Echocardiography (Mount Kisco, N.Y.) Vol. 34; no. 8; pp. 1187 - 1194
Main Authors	Davidson, Brian P., Belcik, J. Todd, Landry, Gregory, Linden, Joel, Lindner, Jonathan R.
Format	Journal Article
Language	English
Published	United States 01.08.2017
Subjects	Aged Ankle Brachial Index Blood Flow Velocity - physiology contrast echocardiography Contrast Media - pharmacology Dipyridamole - pharmacology exercise Exercise Test - methods Extremities - blood supply Female Humans Male Middle Aged Muscle, Skeletal - blood supply perfusion imaging Perfusion Imaging - methods Peripheral Arterial Disease - diagnosis Peripheral Arterial Disease - physiopathology Regional Blood Flow - physiology Ultrasonography - methods ultrasound contrast vascular imaging Vasodilator Agents - pharmacology contrast echocardiography perfusion imaging exercise vascular imaging ultrasound contrast
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ISSN	0742-2822 1540-8175 1540-8175
DOI	10.1111/echo.13601

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Abstract	Purpose Our aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery disease (PAD). Methods Quantitative contrast‐enhanced ultrasound (CEU) perfusion imaging of the bilateral anterior thigh and calf was performed in nine control subjects and nine patients with moderate to severe PAD at rest and during vasodilator stress with dipyridamole. For those who were able, CEU of the calf was then performed during modest plantar flexion exercise (20 watts). CEU time‐intensity data were analyzed to quantify microvascular blood flow (MBF) and its parametric components of microvascular blood volume and flux rate. Results Thigh and calf skeletal muscle MBF at rest was similar between control and PAD patients. During dipyridamole, MBF increased minimally (<twofold) for all groups and there were only nonsignificant trends for a reduction in calf MBF in those with PAD (13.5±6.9, 10.0±4.7, and 8.2±6.1 IU/s, for controls, moderate, and severe PAD, respectively; P=.11). In contrast, MBF during modest planar flexion exercise increased markedly in controls but not PAD patients (87.9±79.9 vs 15.2±12.9 IU/s, P<.05). In three moderate PAD patients restudied after undergoing surgical revascularization, MBF during dipyridamole did not change, whereas exercise MBF increased by an average of sevenfold. Conclusions Resting limb skeletal muscle MBF in patients with moderate to severe PAD is similar to that in normal subjects. However, differences in hyperemic flow during contractile exercise but not during dipyridamole allow evaluation of the degree of flow impairment from PAD and the degree of improvement with revascularization.
AbstractList	Our aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery disease (PAD).PURPOSEOur aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery disease (PAD).Quantitative contrast-enhanced ultrasound (CEU) perfusion imaging of the bilateral anterior thigh and calf was performed in nine control subjects and nine patients with moderate to severe PAD at rest and during vasodilator stress with dipyridamole. For those who were able, CEU of the calf was then performed during modest plantar flexion exercise (20 watts). CEU time-intensity data were analyzed to quantify microvascular blood flow (MBF) and its parametric components of microvascular blood volume and flux rate.METHODSQuantitative contrast-enhanced ultrasound (CEU) perfusion imaging of the bilateral anterior thigh and calf was performed in nine control subjects and nine patients with moderate to severe PAD at rest and during vasodilator stress with dipyridamole. For those who were able, CEU of the calf was then performed during modest plantar flexion exercise (20 watts). CEU time-intensity data were analyzed to quantify microvascular blood flow (MBF) and its parametric components of microvascular blood volume and flux rate.Thigh and calf skeletal muscle MBF at rest was similar between control and PAD patients. During dipyridamole, MBF increased minimally (<twofold) for all groups and there were only nonsignificant trends for a reduction in calf MBF in those with PAD (13.5±6.9, 10.0±4.7, and 8.2±6.1 IU/s, for controls, moderate, and severe PAD, respectively; P=.11). In contrast, MBF during modest planar flexion exercise increased markedly in controls but not PAD patients (87.9±79.9 vs 15.2±12.9 IU/s, P<.05). In three moderate PAD patients restudied after undergoing surgical revascularization, MBF during dipyridamole did not change, whereas exercise MBF increased by an average of sevenfold.RESULTSThigh and calf skeletal muscle MBF at rest was similar between control and PAD patients. During dipyridamole, MBF increased minimally (<twofold) for all groups and there were only nonsignificant trends for a reduction in calf MBF in those with PAD (13.5±6.9, 10.0±4.7, and 8.2±6.1 IU/s, for controls, moderate, and severe PAD, respectively; P=.11). In contrast, MBF during modest planar flexion exercise increased markedly in controls but not PAD patients (87.9±79.9 vs 15.2±12.9 IU/s, P<.05). In three moderate PAD patients restudied after undergoing surgical revascularization, MBF during dipyridamole did not change, whereas exercise MBF increased by an average of sevenfold.Resting limb skeletal muscle MBF in patients with moderate to severe PAD is similar to that in normal subjects. However, differences in hyperemic flow during contractile exercise but not during dipyridamole allow evaluation of the degree of flow impairment from PAD and the degree of improvement with revascularization.CONCLUSIONSResting limb skeletal muscle MBF in patients with moderate to severe PAD is similar to that in normal subjects. However, differences in hyperemic flow during contractile exercise but not during dipyridamole allow evaluation of the degree of flow impairment from PAD and the degree of improvement with revascularization. Purpose Our aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery disease (PAD). Methods Quantitative contrast‐enhanced ultrasound (CEU) perfusion imaging of the bilateral anterior thigh and calf was performed in nine control subjects and nine patients with moderate to severe PAD at rest and during vasodilator stress with dipyridamole. For those who were able, CEU of the calf was then performed during modest plantar flexion exercise (20 watts). CEU time‐intensity data were analyzed to quantify microvascular blood flow (MBF) and its parametric components of microvascular blood volume and flux rate. Results Thigh and calf skeletal muscle MBF at rest was similar between control and PAD patients. During dipyridamole, MBF increased minimally (<twofold) for all groups and there were only nonsignificant trends for a reduction in calf MBF in those with PAD (13.5±6.9, 10.0±4.7, and 8.2±6.1 IU/s, for controls, moderate, and severe PAD, respectively; P=.11). In contrast, MBF during modest planar flexion exercise increased markedly in controls but not PAD patients (87.9±79.9 vs 15.2±12.9 IU/s, P<.05). In three moderate PAD patients restudied after undergoing surgical revascularization, MBF during dipyridamole did not change, whereas exercise MBF increased by an average of sevenfold. Conclusions Resting limb skeletal muscle MBF in patients with moderate to severe PAD is similar to that in normal subjects. However, differences in hyperemic flow during contractile exercise but not during dipyridamole allow evaluation of the degree of flow impairment from PAD and the degree of improvement with revascularization. Our aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery disease (PAD). Quantitative contrast-enhanced ultrasound (CEU) perfusion imaging of the bilateral anterior thigh and calf was performed in nine control subjects and nine patients with moderate to severe PAD at rest and during vasodilator stress with dipyridamole. For those who were able, CEU of the calf was then performed during modest plantar flexion exercise (20 watts). CEU time-intensity data were analyzed to quantify microvascular blood flow (MBF) and its parametric components of microvascular blood volume and flux rate. Thigh and calf skeletal muscle MBF at rest was similar between control and PAD patients. During dipyridamole, MBF increased minimally (<twofold) for all groups and there were only nonsignificant trends for a reduction in calf MBF in those with PAD (13.5±6.9, 10.0±4.7, and 8.2±6.1 IU/s, for controls, moderate, and severe PAD, respectively; P=.11). In contrast, MBF during modest planar flexion exercise increased markedly in controls but not PAD patients (87.9±79.9 vs 15.2±12.9 IU/s, P<.05). In three moderate PAD patients restudied after undergoing surgical revascularization, MBF during dipyridamole did not change, whereas exercise MBF increased by an average of sevenfold. Resting limb skeletal muscle MBF in patients with moderate to severe PAD is similar to that in normal subjects. However, differences in hyperemic flow during contractile exercise but not during dipyridamole allow evaluation of the degree of flow impairment from PAD and the degree of improvement with revascularization.
Author	Linden, Joel Lindner, Jonathan R. Davidson, Brian P. Landry, Gregory Belcik, J. Todd
AuthorAffiliation	La Jolla Institute for Allergy and Immunology and UCSD, San Diego, CA Knight Cardiovascular Institute, Oregon Health & Science University, Portland, OR VA Portland Health Care System, Portland, OR
AuthorAffiliation_xml	– name: La Jolla Institute for Allergy and Immunology and UCSD, San Diego, CA – name: Knight Cardiovascular Institute, Oregon Health & Science University, Portland, OR – name: VA Portland Health Care System, Portland, OR
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CitedBy_id	crossref_primary_10_1016_j_ultrasmedbio_2022_02_002 crossref_primary_10_1152_ajpheart_00232_2018 crossref_primary_10_1016_j_echo_2021_12_014 crossref_primary_10_1177_1358863X231155299 crossref_primary_10_4250_jcvi_2019_27_e31 crossref_primary_10_1177_1358863X20945794 crossref_primary_10_1016_j_ultrasmedbio_2020_01_028 crossref_primary_10_14814_phy2_14580 crossref_primary_10_3390_jcm9082575 crossref_primary_10_1016_j_echo_2019_05_001
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Notes	Funding information Dr. Davidson is supported by the Clinician Research Program 12CRP11890055 from the American Heart Association. Dr. Lindner is supported by grants R01‐HL 078610, R01‐HL130046, and R01‐HL111969 from the National Institutes of Health, Bethesda, MD. This study was also supported by an investigator‐initiated grant from GE Healthcare. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 DR. BRIAN DAVIDSON (Orcid ID : 0000-0002-2965-1873)
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Snippet	Purpose Our aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery... Our aim was to determine whether pharmacologic vasodilation is an alternative to exercise stress during limb perfusion imaging for peripheral artery disease...
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SubjectTerms	Aged Ankle Brachial Index Blood Flow Velocity - physiology contrast echocardiography Contrast Media - pharmacology Dipyridamole - pharmacology exercise Exercise Test - methods Extremities - blood supply Female Humans Male Middle Aged Muscle, Skeletal - blood supply perfusion imaging Perfusion Imaging - methods Peripheral Arterial Disease - diagnosis Peripheral Arterial Disease - physiopathology Regional Blood Flow - physiology Ultrasonography - methods ultrasound contrast vascular imaging Vasodilator Agents - pharmacology
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Title	Exercise versus vasodilator stress limb perfusion imaging for the assessment of peripheral artery disease
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