William M. Miles scite author profile

The incidence and clinical predictors of amiodarone pulmonary toxicity were examined in 573 patients treated with amiodarone for recurrent ventricular (456 patients) or supraventricular (117 patients) tachyarrhythmias. Amiodarone pulmonary toxicity was diagnosed in 33 of the 573 patients (5.8%), based on symptoms and new chest radiographic abnormalities (32 of 33 patients) and supported by abnormal pulmonary biopsy (13 of 14 patients), low pulmonary diffusion capacity (DLCO) (nine of 13 patients), and/or abnormal gallium lung scan (11 of 16 patients). Toxicity occurred between 6 days and 60 months of treatment for a cumulative risk of 9.1%, with the highest incidence occurring during the first 12 months (18 of 33 patients).Older patients developed it more frequently (62.7± 1.7 versus 57.4±0.5 years,p=0.018), with no cases diagnosed in patients who started therapy at less than 40 years of age. Gender, underlying heart disease, arrhythmia, and pretreatment chest radiographic, spirometric, or lung volume abnormalities did not predict development of amiodarone pulmonary toxicity, whereas pretreatment DLCO was lower in the group developing it (76.0+5.5% versus 90.4±-1.4%, p=0.01). There was a higher mean daily amiodarone maintenance dose in the pulmonary toxicity group (517±25 versus 409±6 mg, p<0.001) but no difference in loading dose. No patient receiving a mean daily maintenance dose less than 305 mg developed pulmonary toxicity. Patients who developed toxicity had higher plasma desethylamiodarone (2.34±0.18 versus 1.92+±0.04 Jg/ml, p=0.009) but not amiodarone concentrations during maintenance therapy. Death due to pulmonary toxicity occurred in three of 33 patients (9.1%). In conclusion: 1) amiodarone pulmonary toxicity occurred in 5.8% of patients and was more common with a higher amiodarone maintenance dose, advanced age, lower pretreatment DLCO, and higher plasma desethylamiodarone concentrations; and 2) pretreatment chest radiographic, spirometric, and lung volume abnormalities were not predictive for development of amiodarone pulmonary toxicity. (Circulation 1990;82:51- The present study was undertaken to determine the incidence and clinical features associated with amiodarone-induced pulmonary toxicity in a large series of patients treated at a single medical center. Also examined were the relations of preexisting pulmonary abnormalities, drug doses, and plasma drug concentrations to the development of amiodarone pulmonary toxicity. Methods PatientsThe study population comprised 573 patients who were treated at the Indiana University Medical Center and initiated amiodarone therapy between April

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Regional sympathetic denervation after myocardial infarction in humans detected noninvasively using I-123-metaiodobenzylguanidine

Stanton

Tuli

Radtke

et al. 1989

Journal of the American College of Cardiology

240

101

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Transmural myocardial infarction in dogs produces denervation of sympathetic nerves in viable myocardium apical to the infarct that may be arrhythmogenic. It is unknown whether sympathetic denervation occurs in humans. The purpose of this study was to use iodine-123-metaiodobenzylguanidine (MIBG), a radiolabeled guanethidine analog that is actively taken up by sympathetic nerve terminals, to image noninvasively the cardiac sympathetic nerves in patients with and without ventricular arrhythmias after myocardial infarction. Results showed that 10 of 12 patients with spontaneous ventricular tachyarrhythmias after myocardial infarction exhibited regions of thallium-201 uptake indicating viable perfused myocardium, with no MIBG uptake. Such a finding is consistent with sympathetic denervation. One patient had frequent episodes of nonsustained ventricular tachycardia induced at exercise testing that was eliminated by beta-adrenoceptor blockade. Eleven of the 12 patients had ventricular tachycardia induced at electrophysiologic study and metoprolol never prevented induction. Sympathetic denervation was also detected in two of seven postinfarction patients without ventricular arrhythmias. Normal control subjects had no regions lacking MIBG uptake. This study provides evidence that regional sympathetic denervation occurs in humans after myocardial infarction and can be detected noninvasively by comparing MIBG and thallium-201 images. Although the presence of sympathetic denervation may be related to the onset of spontaneous ventricular tachyarrhythmias in some patients, it does not appear to be related to sustained ventricular tachycardia induced at electrophysiologic study.

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Regional cardiac sympathetic denervation in patients with ventricular tachycardia in the absence of coronary artery disease

Mitrani

Klein

Miles

et al. 1993

Journal of the American College of Cardiology

139

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William M. Miles

Cardiac troponin I predicts myocardial dysfunction in aneurysmal subarachnoid hemorrhage

Clinical features of amiodarone-induced pulmonary toxicity.

Regional sympathetic denervation after myocardial infarction in humans detected noninvasively using I-123-metaiodobenzylguanidine

Regional cardiac sympathetic denervation in patients with ventricular tachycardia in the absence of coronary artery disease

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