Coronary spasm during cardiac electrophysiological study following isoproterenol infusion

Isoproterenol Causing Coronary Vasospasm and ST Elevations During Tilt Table Testing

Syncope is a sudden but reversible brief loss of consciousness secondary to an acute reduction of cerebral perfusion. Reflex syncope denotes neurologically mediated syncope, which includes vasovagal, carotid sinus syndrome, and other situational syncope. The most frequent form of syncope is vasovagal, which is triggered by emotional stress or prolonged standing, and may be diagnosed with the tilt table test. A thorough investigation of syncope is necessary as serious cardiovascular disorders may also be a cause. A tilt table test is a widely used tool utilized by clinicians to diagnose vasovagal syncope and is sometimes augmented with isoproterenol, a β-sympathomimetic that acts on the heart. This report seeks to explain a case of a 48-year-old previously healthy woman who experienced inferior wall ST elevations during tilt table test supplemented with isoproterenol. There is reason to believe that the results of this patient's tilt table test were due to vasovagal syncope in conjunction with right coronary artery vasospasm.

Idiopathic Ventricular Fibrillation: Role of Purkinje System and Microstructural Myocardial Abnormalities

Idiopathic ventricular fibrillation is diagnosed in patients who survived a ventricular fibrillation episode without any identifiable structural or electrical cause after extensive investigations. It is a common cause of sudden death in young adults. The study reviews the diagnostic value of systematic investigations and the new insights provided by detailed electrophysiological mapping. Recent studies have shown the high incidence of microstructural cardiomyopathic areas, which act as the substrate of ventricular fibrillation re-entries. These subclinical alterations require high-density endo- and epicardial mapping to be identified using electrogram criteria. Small areas are involved and located individually in various sites (mostly epicardial). Their characteristics suggest a variety of genetic or acquired pathological processes affecting cellular connectivity or tissue structure, such as cardiomyopathies, myocarditis, or fatty infiltration. Purkinje abnormalities manifesting as triggering ectopy or providing a substrate for re-entry represent a second important cause. The documentation of ephemeral Purkinje ectopy requires continuous electrocardiography monitoring for diagnosis. A variety of diseases affecting Purkinje cell function or conduction are potentially at play in their pathogenesis. Comprehensive investigations can therefore allow the great majority of idiopathic ventricular fibrillation to ultimately receive diagnoses of a cardiac disease, likely underlain by a mosaic of pathologies. Precise phenotypic characterization has significant implications for interpretation of genetic variants, the risk assessment, and individual therapy. Future improvements in imaging or electrophysiological methods may hopefully allow the identification of the subjects at risk and the development of primary prevention strategies.

Pro-arrhythmic action of autoantibodies against the second extracellular loop of β1-adrenoceptor and its underlying molecular mechanisms

OBJECTIVES

The incidence of arrhythmia is associated with autoantibodies against the second extracellular loop of β1-adrenergic receptor (β1-AAbs). The current study was designed to determine the mechanisms by which arrhythmia experimentally might be induced by β1-AAbs.

METHODS

Blood samples were collected from patients with varied arrhythmias or coronary heart disease (CHD) and healthy subjects. The titer of β1-AAbs was assessed. Passive immunization rat models with β1-AAbs were established to determine whether β1-AAbs induced arrhythmia. Conventional intracellular microelectrode technique and whole cell patch clamp were employed to record action potential duration (APD), resting potential (RP), L-type calcium current (ICa-L), sodium-calcium exchange current (INCX), transient outward potassium current (Ito), inward rectifier potassium current (Ik1) and delayed rectifier potassium current (Ik).

RESULTS

High levels of β1-AAbs were found in the sera of heart disease patients, especially in ventricular arrhythmia (VA). Transfusion with β1-AAbs could induce arrhythmias in normal rats in vivo. β1-AAbs purified from the sera of active immunized rats induced triggered activity (TA), delayed after depolarization (DAD), and prolonged APD in the papillary muscles of rats. β1-AAbs prolonged QT interval, increased ICa-L and decreased IK1, Ito and INa-Ca in rat ventricular myocytes in vitro. All these effects can be inhibited by β1-AR blocker metoprolol.

CONCLUSIONS

These results demonstrate for the first time that β1-AAbs could directly induce ventricular arrhythmia by prolonging QT interval.