연구동향 분석

Contrast Enhanced Ultrasound Perfusion Imaging in Skeletal Muscle

TheAnh Nguyen Brian P. Davidson 2019년

논문상세정보
인용/피인용
' Contrast Enhanced Ultrasound Perfusion Imaging in Skeletal Muscle' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • Contrast ultrasound
  • Skeletal muscle perfusion
  • microbubbles
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
7 0

0.0%

' Contrast Enhanced Ultrasound Perfusion Imaging in Skeletal Muscle' 의 참고문헌

  • Targeted therapeutic applications of acoustically active microspheres in the microcirculation
    Chappell JC [2006]
  • Systemic adenosine deaminase administration does not reduce active hyperemia in running rats
    Klabunde RE [1988]
  • Success of arterial revascularization determined by contrast ultrasound muscle perfusion imaging
  • Skeletal muscle vasodilatation during maximal exercise in health and disease
    Calbet JA [2012]
  • Skeletal muscle microvascular-linked improvements in glycemic control from resistance training in individuals with type 2 diabetes
    Russell RD [2017]
  • Skeletal muscle microcirculatory abnormalities are associated with exercise intolerance, ventilatory inefficiency, and impaired autonomic control in heart failure
    Manetos C [2011]
  • Skeletal and myocardial microvascular blood flow in hydroxycarbamide-treated patients with sickle cell disease
    Sachdev V [2017]
  • Simplified contrast ultrasound accurately reveals muscle perfusion deficits and reflects collateralization in PAD
  • Sickle cell disease
    Ware RE [2017]
  • Rest-stress limb perfusion imaging in humans with contrast ultrasound using intermediate-power imaging and microbubbles resistant to inertial cavitation
    Davidson BP [2017]
  • Reliability of contrast-enhanced ultrasound for the assessment of muscle perfusion in health and peripheral arterial disease
    Thomas KN [2015]
  • Regulation of increased blood flow (hyperemia) to muscles during exercise: a hierarchy of competing physiological needs
    Joyner MJ [2015]
  • Real-time contrast ultrasound muscle perfusion imaging with intermediate-power imaging coupled with acoustically durable microbubbles
    Seol SH [2015]
  • Quantitative assessment of tissue perfusion using MDCT : comparison of colorectal cancer and skeletal muscle measurement reproducibility
    Goh V [2006]
  • Quantification of residual limb skeletal muscle perfusion with contrast-enhanced ultrasound during application of a focal junctional tourniquet
    Davidson BP [2016]
  • Quantification of myocardial blood flow with ultrasound-induced destruction of microbubbles administered as a constant venous infusion
    Wei K [1998]
  • Noninvasive detection of skeletal muscle underperfusion with near-infrared spectroscopy in patients with heart failure
    Wilson JR [1989]
  • Muscle microvascular recruitment predicts insulin sensitivity in middle-aged patients with type 1 diabetes mellitus
    Chan A [2012]
  • Molecular imaging of the paracrine proangiogenic effects of progenitor cell therapy in limb ischemia
    Ryu JC [2013]
  • Microvascular rheology of Definity microbubbles after intra-arterial and intravenous administration
    Lindner JR [2002]
  • Microbubble contrast for radiological imaging: 1. Principles
    Burns PN [2006]
  • Methods for the determination of skeletal muscle blood flow : development, strengths and limitations
    Gliemann L [2018]
  • Lipoprotein apheresis acutely reverses coronary microvascular dysfunction in patients with severe hypercholesterolemia
    Wu MD [2018]
  • Limb stress-rest perfusion imaging with contrast ultrasound for the assessment of peripheral arterial disease severity
    Lindner JR [2008]
  • Increased endothelial shear stress improves insulin-stimulated vasodilatation in skeletal muscle
    Walsh LK [2019]
  • Imaging technologies and techniques
    Rafter P [2004]
  • Hyperinsulinemia rapidly increases human muscle microvascular perfusion but fails to increase muscle insulin clearance : evidence that a saturable process mediates muscle insulin uptake
  • Hemodynamic responses to small muscle mass exercise in heart failure patients with reduced ejection fraction
  • Exercise versus vasodilator stress limb perfusion imaging for the assessment of peripheral artery disease
    Davidson BP [2017]
  • Exercise limitations in heart failure with reduced and preserved ejection fraction
    Poole DC [2018]
  • Exercise increases human skeletal muscle insulin sensitivity via coordinated increases in microvascular perfusion and molecular signaling
    Sjøberg KA [2017]
  • Epoxyeicosatrienoic acids mediate insulin-mediated augmentation in skeletal muscle perfusion and blood volume
    Shim CY [2014]
  • Effect of microbubble exposure to ultrasound on quantitation of myocardial perfusion
    Leong-Poi H [2005]
  • Echocardiography of the aortic root
    Gramiak R [1968]
  • Dysregulated selectin expression and monocyte recruitment during ischemia-related vascular remodeling in diabetes mellitus
    Carr CL [2011]
  • Dynamic contrast-enhanced ultrasound for assessment of therapy effects on skeletal muscle microcirculation in peripheral arterial disease : pilot study
  • Dynamic contrast-enhanced ultrasound for assessment of skeletal muscle microcirculation in peripheral arterial disease
  • Dynamic contrast-enhanced ultrasound and transient arterial occlusion for quantification of arterial perfusion reserve in peripheral arterial disease
  • Drug and gene delivery using sonoporation for cardiovascular disease
    Castle J [2016]
  • Determinants of exercise intolerance in patients with heart failure and reduced or preserved ejection fraction
  • Detection of peripheral vascular stenosis by assessing skeletal muscle flow reserve
  • Decrease in coronary blood flow reserve during hyperlipidemia is secondary to an increase in blood viscosity
    Rim SJ [2001]
  • Contrast-enhanced ultrasound evaluation of skeletal muscle perfusion in response to left ventricular assist device (LVAD) therapy
  • Contrast-enhanced ultrasound detects differences in microvascular blood flow in adults with sickle cell disease administered regadenoson
    Lindner JR [2014]
  • Contrast ultrasound perfusion imaging of lower extremities in peripheral arterial disease : a novel diagnostic method
  • Contrast enhanced ultrasound evaluation of skeletal muscle perfusion in response to left ventricular assist device therapy
    Reeves GR [2019]
  • Comparison of transient arterial occlusion and muscle exercise provocation for assessment of perfusion reserve in skeletal muscle with real-time contrast-enhanced ultrasound
    Krix M [2011]
  • Comparison of exogenous adenosine and voluntary exercise on human skeletal muscle perfusion and perfusion heterogeneity
    Heinonen I [2010]
  • Comparison of conventional time-intensity curves vs. maximum intensity over time for post-processing of dynamic contrast-enhanced ultrasound
    Palmowski M [2010]
  • Changes in the micro-circulation of skeletal muscle due to varied isometric exercise assessed by contrast-enhanced ultrasound
    Krix M [2010]
  • Cardiovascular drug delivery with ultrasound and microbubbles
    Unger E [2014]
  • Cardiovascular and systemic microvascular effects of anti-vascular endothelial growth factor therapy for cancer
    Belcik JT [2012]
  • Cardiovascular aging and the microcirculation of skeletal muscle : using contrast-enhanced ultrasound
    Dunford EC [2018]
  • Augmentation of muscle blood flow by ultrasound cavitation is mediated by ATP and purinergic signaling
    Belcik JT [2017]
  • Augmentation of limb perfusion and reversal of tissue ischemia produced by ultrasound-mediated microbubble cavitation
    Belcik JT [2015]
  • Abnormal skeletal muscle capillary recruitment during exercise in patients with type 2 diabetes mellitus and microvascular complications
    Womack L [2009]
  • Abnormal regulation of microvascular tone in a murine model of sickle cell disease assessed by contrast ultrasound
    Wu MD [2015]