Scintigraphic assessment of regional cardiac adrenergic innervation.

Dae, Michael W.; O’Connell, Joe; Botvinick, Elias H.; Ahearn, Trevor; Yee, Edward S.; Huberty, John P.; Mori, Hiromu; Chin, Michael C.; Hattner, Robert S.; Herre, John M.

doi:10.1161/01.cir.79.3.634

Cited by 176 publications

(72 citation statements)

References 13 publications

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“…The available literature strongly supports that assumption. Phenol application to the epicardial surface has been employed for selective cardiac sympathetic afferent (5,34,37) and efferent (11,28,35) denervation based on anatomic observations (5) that the cardiac sympathetic afferent fibers course more superficially over the epicardial surface of the heart, whereas vagal afferent fibers run deeper until they reach the epicardial surface in the region of the atrioventricular groove. Most of these studies (5,34,35,37) have been performed in acute preparations like the present one.…”

Section: Discussionmentioning

confidence: 99%

Neural regulation of the proinflammatory cytokine response to acute myocardial infarction

Francis

Zhang

Weiß

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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Neural regulation of the proinflammatory cytokine response to acute myocardial infarction. Am J Physiol Heart Circ Physiol 287: H791-H797, 2004; 10.1152/ajpheart.00099.2004.-Within minutes of acute myocardial infarction (MI), proinflammatory cytokines increase in the brain, heart, and plasma. We hypothesized that cardiac afferent nerves stimulated by myocardial injury signal the brain to increase central cytokines. Urethane-anesthetized male Sprague-Dawley rats underwent ligation of the left anterior descending coronary artery (LAD) or sham LAD ligation after bilateral cervical vagotomy, sham vagotomy, or application of a 10% phenol solution to the epicardial surface of the myocardium at risk. MI caused a significant increase in tumor necrosis factor (TNF)-␣ and interleukin (IL)-1␤ in the plasma and heart, which was blunted by vagotomy. MI also caused a significant increase in hypothalamic TNF-␣ and IL-1␤, which was not affected by vagotomy. In contrast, epicardial phenol blocked MI-induced increases in hypothalamic TNF-␣ and IL-1␤ without affecting increases in the plasma and heart. These findings demonstrate that the appearance of proinflammatory cytokines in the brain after MI is independent of blood-borne cytokines and suggest that cardiac sympathetic afferent nerves activated by myocardial ischemia signal the brain to increase cytokine production. In addition, an intact vagus nerve is required for the full expression of proinflammatory cytokines in the injured myocardium and in the circulation. We conclude that the sympathetic and parasympathetic innervation of the heart both contribute to the acute proinflammatory response to MI. cardiac sympathetic afferents; cardiac vagal afferents; tumor necrosis factor-␣; interleukin-1␤; hypothalamus

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Section: Discussionmentioning

confidence: 99%

Neural regulation of the proinflammatory cytokine response to acute myocardial infarction

Francis

Zhang

Weiß

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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“…13 Scintigraphic imaging in each of the phenol-treated rabbits demonstrated a heterogeneous distribution of MIBG uptake (innervation) and a homogeneous distribution of MIBI uptake (perfusion). Previous studies of MIBG uptake in the phenol model have shown that the reduction in uptake is due to an absence of sympathetic nerve terminals, or denervation.…”

Section: Scintigraphic Imaging Of Sympathetic Innervationmentioning

confidence: 93%

“…The 2 autoradiographs were compared on a pixel-by-pixel basis by a color method described previously. 13 Color slices were then aligned to create a set of 3D reconstructions of the heart.…”

Section: Computer Processing Of Autoradiographsmentioning

confidence: 99%

Heterogeneous Sympathetic Innervation Influences Local Myocardial Repolarization in Normally Perfused Rabbit Hearts

et al. 2000

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Background-Heterogeneity of sympathetic innervation is thought to contribute to the potential for fatal arrhythmia.However, little is known about the effects of heterogeneous innervation on repolarization. Methods and Results-To assess this relationship, we measured activation recovery intervals (ARIs) from 64 epicardial sites in 11 rabbits studied 2 weeks after regional denervation produced by phenol and 4 sham-operated rabbits. ARI results were compared with the distribution of sympathetic innervation measured from 3D reconstructions of serial autoradiographs of [ 125 I]metaiodobenzylguanidine and 99m Tc-sestamibi. ARIs were recorded during baseline sinus rhythm, norepinephrine (NE) infusion (0.1 g ⅐ kg Ϫ1 ⅐ min Ϫ1 ), and left stellate ganglion stimulation (SS). NE shortened ARI in 98% of electrodes in the denervated region. The degree of ARI shortening and dispersion increased (PϽ0.001 and PϽ0.01, respectively) as denervation became more severe. SS shortened ARI in 30% of electrodes in the denervated area, with increased shortening and dispersion related to increased severity of denervation (PϽ0.01). SS prolonged ARI in 70% of electrodes in the denervated area, with no correlation with severity of denervation. Conclusions-The magnitude and dispersion of local repolarization responses are related to the severity of denervation, as well as the type of stimulation: neural (SS) versus humoral (NE). The differences may relate to the concentration of NE released.

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“…Ther e has been long-standing interest in noninvasive imaging of myocardial sympathetic innervation for the prediction of life-threatening ventricular arrhythmias or implantable cardioverter defibrillator discharges using PET (1)(2)(3)(4)(5) or SPECT (6)(7)(8). It has been shown (9)(10)(11) that, in myocardial infarction, the area of reduced innervation often exceeds the area of reduced myocardial blood flow (MBF) (9)(10)(11)(12)(13)(14).…”

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confidence: 99%

Use of a Single ¹¹C-Meta-Hydroxyephedrine Scan for Assessing Flow–Innervation Mismatches in Patients with Ischemic Cardiomyopathy

et al. 2015

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Mismatch between areas of reduced myocardial blood flow (MBF) and reduced myocardial innervation (defect areas) may be used to estimate the risk for ventricular arrhythmias. The presence of a mismatch zone can be derived using a combined protocol consisting of both an MBF scan and an 11 C-meta-hydroxyephedrine ( 11 C-HED) scan. The rate of influx from blood to myocardium (K 1 ) of 11 C-HED is proportional to MBF and can potentially be used as an index for defining MBF defects. The aim of this study was to assess whether K 1 derived from an 11 C-HED scan can be used as an index of MBF, potentially allowing for an assessment of MBF-innervation mismatch areas from a single 11 C-HED scan. Methods: Seventeen patients with known ischemic cardiomyopathy underwent dynamic 15 O-water and 11 C-HED scans. Discrete arterial blood samples were taken during 11 C-HED scans for metabolite correction of the image-derived input function. 11 C-HED influx rate was obtained using a single-tissue-compartment model and compared with transmural MBF (MBF T ), defined as MBF as measured with 15 O-water multiplied by perfusable tissue fraction. Defect sizes were obtained from parametric K 1 and MBF T images, using 50% of a remote control segment as the cutoff value. Results: There was a significant correlation between MBF T and K 1 (y 5 0.40x 1 0.05 mLÁg −1 Ámin −1 , r 5 0.80, P , 0.001), although K 1 was significantly lower than MBF T (slope of the regression line significantly different from 1, P , 0.001). Correlation between MBF T and K 1 defect sizes was high (y 5 0.89x 1 1.38%, r 5 0.95, P , 0.001), with no significant difference in mean defect size based on K 1 or MBF T (20.9% ± 11.3% and 20.1% ± 10.7% for MBF T and K 1 , respectively, P 5 0.41). Conclusion: 11 C-HED influx rate K 1 can be used as an alternative to a separate MBF scan for assessing mismatch areas between MBF and myocardial innervation.

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Scintigraphic assessment of regional cardiac adrenergic innervation.

Cited by 176 publications

References 13 publications

Neural regulation of the proinflammatory cytokine response to acute myocardial infarction

Neural regulation of the proinflammatory cytokine response to acute myocardial infarction

Heterogeneous Sympathetic Innervation Influences Local Myocardial Repolarization in Normally Perfused Rabbit Hearts

Use of a Single ¹¹C-Meta-Hydroxyephedrine Scan for Assessing Flow–Innervation Mismatches in Patients with Ischemic Cardiomyopathy

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Scintigraphic assessment of regional cardiac adrenergic innervation.

Cited by 176 publications

References 13 publications

Neural regulation of the proinflammatory cytokine response to acute myocardial infarction

Neural regulation of the proinflammatory cytokine response to acute myocardial infarction

Heterogeneous Sympathetic Innervation Influences Local Myocardial Repolarization in Normally Perfused Rabbit Hearts

Use of a Single 11C-Meta-Hydroxyephedrine Scan for Assessing Flow–Innervation Mismatches in Patients with Ischemic Cardiomyopathy

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Use of a Single ¹¹C-Meta-Hydroxyephedrine Scan for Assessing Flow–Innervation Mismatches in Patients with Ischemic Cardiomyopathy