Henry H. Holzgrefe

Cellular basis for improved left ventricular pump function after digoxin therapy in experimental left ventricular failure

OBJECTIVES The present study examined left ventricular (LV) and myocyte contractile performance and electrophysiologic variables after long-term digoxin treatment in a model of LV failure. BACKGROUND A fundamental therapeutic agent for patients with chronic LV dysfunction is the cardiac glycoside digoxin. However, whether digoxin has direct effects on myocyte contractile function and electrophysiologic properties in the setting of chronic LV dysfunction remains unexplored. METHODS Left ventricular and isolated myocyte function and electrophysiologic variables were examined in five control dogs, five dogs after the development of long-term rapid pacing (rapid pacing, 220 beats/min, 4 weeks) and five dogs with rapid pacing given digoxin (0.25 mg/day) during the pacing period (rapid pacing and digoxin). RESULTS Left ventricular ejection fraction decreased in the dogs with rapid pacing compared with that in control dogs (30 +/- 2% vs. 68 +/- 3%, p < 0.05) and was higher with digoxin than that in the rapid pacing group (38 +/- 3%, p = 0.038). Left ventricular end-diastolic volume increased in the rapid pacing group compared with the control group (84 +/- 6 ml vs. 59 +/- 7 ml, p < 0.05) and remained increased with digoxin (79 +/- 6 ml). Isolated myocyte shortening velocity decreased in the rapid pacing group compared with the control group (37 +/- 1 microns/s vs. 59 +/- 1 microns/s, p < 0.05) and increased with digoxin compared with rapid pacing (46 +/- 1 microns/s, p < 0.05). Action potential maximal upstroke velocity was diminished in the rapid pacing group compared with the control group (135 +/- 6 V/s vs. 163 +/- 9 V/s, p < 0.05) and increased with digoxin compared with rapid pacing (155 +/- 12 V/s, p < 0.05). Action potential duration increased in the rapid pacing group compared with the control group (247 +/- 10 vs. 216 +/- 6 ms, p < 0.05) and decreased with digoxin compared with rapid pacing (219 +/- 12 ms, p < 0.05). CONCLUSIONS In this model of rapid pacing-induced LV failure, digoxin treatment improved LV pump function, enhanced isolated myocyte contractile performance and normalized myocyte action potential characteristics. This study provides unique evidence to suggest that the cellular basis for improved LV pump function with digoxin treatment in the setting of LV failure has a direct and beneficial effect on myocyte contractile function and electrophysiologic measures.

The prospective IQ-CSRC trial: A prototype early clinical proarrhythmia assessment investigation for replacing the ICH E14 thorough QTc (TQT) study

INTRODUCTION Early clinical Phase I ECG investigations designed to replace the currently applied thorough QT (TQT) study are reviewed to examine how they could complement and verify the conclusions of nonclinical investigations and, in particular, the Comprehensive in vitro Proarrhythmia Assay (CiPA). TOPICS The IQ-CSRC trial is a prospective ascending multiple-dose first in human (FIH) type investigation performed as a possible replacement for the thorough QT study (TQT). Designed in accordance with the results of a simulation study by the FDA QT Interdisciplinary Review Team (IRT), it succeeded in correctly categorizing 5/5 established QTc-prolonging agents free of notable heart rate effects (dofetilide, dolasetron, moxifloxacin, ondansetron, and quinine) and the QTc-negative drug, levocetirizine. DISCUSSION The positive results obtained with the IQ-CSRC study require additional confirmation with threshold QTc-positive and negative drugs and established QTc prolongers producing both increases and decreases in heart rate. In the future, similar studies should also adopt and validate innovative proarrhythmic metrics, in addition to, or instead of, the traditional proarrhythmic surrogate of QTc, to assess the proarrhythmic safety of candidate drugs.

15th Annual Meeting of the Safety Pharmacology Society: Focus on traditional sensory systems

INTRODUCTION This report summarizes and comments key talks on the five traditional senses (ear, vestibular system, vision, taste, olfaction, and touch) which were delivered during the 2015 Annual Meeting of the Safety Pharmacology (SP) Society. AREAS COVERED The functional observational battery (FOB) can detect major candidate drug liabilities only on ear, touch and vision. Anatomy, physiology, pharmacology, and pathology notions on each sensory system introduce speaker talks. Techniques for evaluating drug effects on hearing functions are reviewed. Nonclinical approaches to assess vestibular toxicity leading to balance deficits are presented. Retinal explants studied with multielectrode arrays allow the identification of drug liability sites on the retina. Routinely performed Safety Pharmacology assays are not powered to address candidate drug-induced disturbances on taste and smell. This weakness needs correction since unintended pharmacological impairment of these sensorial functions may have serious health consequences. Neuropathy produced by chemotherapeutic agents may cause multiple sensorial perception distortions. CONCLUSIONS Safety Pharmacology studies should ensure the safety of any candidate drug on the five sensorial systems.

14th Annual Meeting of the Safety Pharmacology Society: Threading through peripheral and central nervous system presentations.

The 2014 Annual Meeting of the Safety Pharmacology Society discussed pathophysiological mechanisms and novel investigational approaches to assess drug safety. The plenary keynote reviewed past, present, and future research on Alzheimers disease. Polysomnography tools can uncover drug-induced sleep disturbances. FDA examiners currently assess proconvulsive liabilities on a case-by-case basis due to the lack of official guidance. In contrast, abuse liability potential is determined according to established paradigms. The FDA guideline on opioid deterrent formulations was discussed. The mechanisms and treatments of obstructive sleep apnea (OSA) and diabetes-induced neuropathic pain were reviewed. There were salient points arising from the CNS presentations but from a pharmacological point of view we note in particular that safety pharmacology should move to routinely apply polysomnographic technologies to determine whether candidate drugs exert deleterious effects on sleep quality and architecture that may markedly decrease quality of life and impair cognitive functions, including alertness and reaction time.

Vasopeptidase Inhibition In A Canine Model Of Exercise‐Induced Left Ventricular Dysfunction

1. The present study compared the acute efficacies of vasopeptidase inhibition with omapatrilat, nitroglycerin and angiotensin‐converting enzyme (ACE) inhibition in exercise‐induced myocardial dysfunction. Omapatrilat, a vasopeptidase inhibitor, inhibits both neutral endopeptidase and ACE. Whereas vasopeptidase inhibitors have demonstrated clinical efficacy in hypertension and heart failure, their effects in myocardial ischaemia remain unclear.