Assessment of coronary microcirculation in a swine animal model

Zhang, Zhang; Takarada, Shigeho; Molloi, Sabee

doi:10.1152/ajpheart.00213.2011

Cited by 13 publications

(11 citation statements)

References 43 publications

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“…However, the cutoff value for CFR is very sensitive to hemodynamic changes (29). Also, CFR cannot differentiate between the relative contributions of the epicardial or microvascular compartments toward changes in blood flow (47). From the current ROC analysis, the diagnostic abilities of CFR a and CFR q were similar.…”

Section: Discussionmentioning

confidence: 68%

“…All procedures can be completed during a routine diagnostic cardiac catheterization (46). The arterial lumen volume can be used to 1) predict the expected maximum blood flow in an arterial tree (21,26), and 2) normalize the maximum hyperemic blood flow for different size arteries (46,47). Lumen volume can be used to calculate FFR using only image data (45).…”

Section: Advantages Of the Angiographic Measurement Based On Fpamentioning

confidence: 99%

“…This assumes that there is at least one artery or arterial branch without epicardial disease and the arteries of interest share the same level of microvascular disease. In the cases where there are no arterial branches without epicardial disease (three vessel disease) or microvascular disease is not uniform for different territories, it might be necessary to use FFR a in conjunction with FFR p (47).…”

Section: Advantages Of the Angiographic Measurement Based On Fpamentioning

confidence: 99%

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Quantification of absolute coronary flow reserve and relative fractional flow reserve in a swine animal model using angiographic image data

Zhang

Takarada

Molloi

2012

American Journal of Physiology-Heart and Circulatory Physiology

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Coronary flow reserve (CFR) and fractional flow reserve (FFR) are important physiological indexes for coronary disease. The purpose of this study was to validate the CFR and FFR measurement techniques using only angiographic image data. Fifteen swine were instrumented with an ultrasound flow probe on the left anterior descending artery (LAD). Microspheres were gradually injected into the LAD to create microvascular disruption. An occluder was used to produce stenosis. Contrast material injections were made into the left coronary artery during image acquisition. Volumetric blood flow from the flow probe (Q(q)) was continuously recorded. Angiography-based blood flow (Q(a)) was calculated by using a time-density curve based on the first-pass analysis technique. Flow probe-based CFR (CFR(q)) and angiography-based CFR (CFR(a)) were calculated as the ratio of hyperemic to baseline flow using Q(q) and Q(a), respectively. Relative angiographic FFR (relative FFR(a)) was calculated as the ratio of the normalized Q(a) in LAD to the left circumflex artery (LC(X)) during hyperemia. Flow probe-based FFR (FFR(q)) was measured from the ratio of hyperemic flow with and without disease. CFR(a) showed a strong correlation with the gold standard CFR(q) (CFR(a) = 0.91 CFR(q) + 0.30; r = 0.90; P < 0.0001). Relative FFR(a) correlated linearly with FFR(q) (relative FFR(a) = 0.86 FFR(q) + 0.05; r = 0.90; P < 0.0001). The quantification of CFR and relative FFR(a) using angiographic image data was validated in a swine model. This angiographic technique can potentially be used for coronary physiological assessment during routine cardiac catheterization.

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Section: Discussionmentioning

confidence: 68%

Section: Advantages Of the Angiographic Measurement Based On Fpamentioning

confidence: 99%

Section: Advantages Of the Angiographic Measurement Based On Fpamentioning

confidence: 99%

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Quantification of absolute coronary flow reserve and relative fractional flow reserve in a swine animal model using angiographic image data

Zhang

Takarada

Molloi

2012

American Journal of Physiology-Heart and Circulatory Physiology

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“…Furthermore, physiological functions have only been attributed to a handful of RGS proteins in the heart and vasculature. Among these, RGS2 is a key regulator of vascular smooth muscle cell contractility and control of blood pressure (Heximer et al, 2003; Tang et al, 2003) and both RGS2 and RGS5 have been implicated as key inhibitors of cardiac hypertrophy and fibrosis in response to pressure overload (Takimoto et al, 2009; Li et al, 2010; Zhang et al, 2011). …”

Section: Introduction: Cardiac Automaticitymentioning

confidence: 99%

RGS proteins in heart: brakes on the vagus

2012

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It has been nearly a century since Otto Loewi discovered that acetylcholine (ACh) release from the vagus produces bradycardia and reduced cardiac contractility. It is now known that parasympathetic control of the heart is mediated by ACh stimulation of Gi/o-coupled muscarinic M2 receptors, which directly activate G protein-coupled inwardly rectifying potassium (GIRK) channels via Gβγ resulting in membrane hyperpolarization and inhibition of action potential (AP) firing. However, expression of M2R–GIRK signaling components in heterologous systems failed to recapitulate native channel gating kinetics. The missing link was identified with the discovery of regulator of G protein signaling (RGS) proteins, which act as GTPase-activating proteins to accelerate the intrinsic GTPase activity of Gα resulting in termination of Gα- and Gβγ-mediated signaling to downstream effectors. Studies in mice expressing an RGS-insensitive Gαi2 mutant (G184S) implicated endogenous RGS proteins as key regulators of parasympathetic signaling in heart. Recently, two RGS proteins have been identified as critical regulators of M2R signaling in heart. RGS6 exhibits a uniquely robust expression in heart, especially in sinoatrial (SAN) and atrioventricular nodal regions. Mice lacking RGS6 exhibit increased bradycardia and inhibition of SAN AP firing in response to CCh as well as a loss of rapid activation and deactivation kinetics and current desensitization for ACh-induced GIRK current (IKACh). Similar findings were observed in mice lacking RGS4. Thus, dysregulation in RGS protein expression or function may contribute to pathologies involving aberrant electrical activity in cardiac pacemaker cells. Moreover, RGS6 expression was found to be up-regulated in heart under certain pathological conditions, including doxorubicin treatment, which is known to cause life-threatening cardiotoxicity and atrial fibrillation in cancer patients. On the other hand, increased vagal tone may be cardioprotective in heart failure where acetylcholinesterase inhibitors and vagal stimulation have been proposed as potential therapeutics. Together, these studies identify RGS proteins, especially RGS6, as new therapeutic targets for diseases such as sick sinus syndrome or other maladies involving abnormal autonomic control of the heart.

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“…The angiographic FFR technique, which includes the effects of both epicardial and microvascular disease, can be used to assess coronary flow reserve (14), microvascular resistance (13,15), as well as FFR to provide a detailed diagnosis for the entire coronary arterial system.…”

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confidence: 99%

Reply to “Letter to the editor: ‘A novel angiographic fractional flow reserve’”

Zhang

Molloi

2013

American Journal of Physiology-Heart and Circulatory Physiology

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REPLY: We thank Dr. Yang and colleagues (7a) for their interest in our angiographic fractional flow reserve (FFR) study. This FFR technique, based on first-pass distribution analysis, was validated in a swine animal model. We share their enthusiasm for this angiographic technique that enables direct measurement of coronary flow and FFR for the determination of lesion-specific ischemia.In this study, FFR measurements were made at various stages of severity of microvascular disruption in the left anterior descending artery. Also, an external vascular occluder was used to produce a moderate epicardial stenosis. Therefore, the angiographic FFR technique was validated not only in the microvascular disruption model but also in the epicardial stenosis model (14). However, continued injections of microspheres may cause heterogeneous microinfarcts, which are not the same pathological change as normal myocardial infarction or diffused microvascular disease. The microspheres are not chemoattractant and thus are different from human microvascular disease (1). In human microcircular disease, dysfunction is usually caused by physical obstruction and active thrombogenic, vasoconstrictive, and inflammatory effects and their interactions with the vascular wall. Furthermore, other disease conditions, such as ventricular hypertrophy, diabetes mellitus, flow limiting diffuse coronary artery disease, and previous myocardial infarction, should be considered. The impact of other disease conditions on angiographic FFR requires additional studies.Angiographic FFR is calculated based on angiographic flow measurement. It was validated with direct flow measurements using flow probes, which is the gold standard. Previous studies have also correlated angiographic FFR with pressure-wire derived FFR (4,11,12), which is currently being used for clinical application. The results indicated that the FFR measured from pressure ratios overestimated the measurements using gold standard flow-probe FFR, especially at low FFR values (8). These results were in agreement with a previous report that compared coronary FFR, as defined by flow ratio, to myocardial FFR, calculated by a pressure ratio (10). Pijls et al. (6, 7) compared (P d Ϫ P v )/(P a Ϫ P v ) with the coronary flow ratio, where P d , P v , and P a are coronary distal, coronary venous, and aortic pressures, respectively. Their results showed that with increasing stenosis severity, the coronary flow ratio progressively underestimated the pressure-based index. Siebes et al. (8) and Spaan et al. (9) have demonstrated the curved nature of pressure-flow relation and how this shape relates to the pressure dependence of minimal coronary microvascular resistance (5). As expected, the flow-based FFR and pressure-derived FFR correlated well at the linear range of pressure and flow. The clinical trials that established the guidelines for FFR are based on pressure measurements. Therefore, it will be necessary to perform clinical trials to establish the guidelines of FFR based on angiographic flow measur...

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Assessment of coronary microcirculation in a swine animal model

Cited by 13 publications

References 43 publications

Quantification of absolute coronary flow reserve and relative fractional flow reserve in a swine animal model using angiographic image data

Quantification of absolute coronary flow reserve and relative fractional flow reserve in a swine animal model using angiographic image data

RGS proteins in heart: brakes on the vagus

Reply to “Letter to the editor: ‘A novel angiographic fractional flow reserve’”

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