Intermittent therapy with levosimendan in patients with advanced heart failure

Introduction Therapeutic options for patients with advanced heart failure on the high-urgent (HU) heart transplant (HTx) waiting list are limited. In view of the limited data on the usefulness of classic inotropes, the calcium sensitizer levosimendan (Lev) may be a possible alternative for patients in need of a repetitive therapy with an inotropic agent as a bridge to HTx. Method In a single-center open-label study we retrospectively analyzed data from 34 HU-listed patients (from a total collective of 95 HU patients) who repetitively received Lev (12.5 mg; 0,05–0.1 μg/kg/min over 24–48h) in 2–8 weeks intervals due to cardiac instability and/or progressive second organ dysfunction. Potential side effects as well as changes of kidney, liver and heart functional parameters were evaluated (0–6 days before, 4–8 days and 14–20 days after Lev infusion). Patient collective: age 51±10 years, 6 women, 28 men; NYHA stage III-IV. 11 Patients with ischemic cardiomyopathy (32%), 19 patients with dilated cardiomyopathy (56%), 4 patients with arrhythmogenic right ventricular cardiomyopathy (12%). Results The waiting time for HTx was up to 12 months (6±5 months). There were no adverse, serious events (resuscitation, defibrillation for ventricular tachycardia (VT), intubation and ventilation, renal replacement therapy) up to 7 days after Lev infusion. Transient cardiac arrhythmias (ventricular bursts or non-sustained VTs) occurred in 11 patients (32%) with spontaneous termination and no need of urgent anti-arrhythmic therapy. The values for sodium, potassium, Hb and CRP did not change significantly after Lev. In contrast, there was a significant reduction in creatinine after 4–8 days (initially 1.43±0.4 mg/dl; after 4–8 days 1.28±0.3; p<0.0005) with an increase again after 14–20 days (1.43±0.3 mg/dl). The bilirubin value was significantly reduced after 4–8 days (initially 1.63±0.7 mg/dl; after 4–8 days 1.30±0.5; p<0.0005) with only partial (non-significant) increases again over the course (1.34±0.5 mg/dl). The BNP value was significantly reduced 4–8 days after administration of Lev (initially 1565±1136 ng/l; after 4–8 days 1103±895; p<0.0001) and increased again in the longer time course (1462±1001 ng/l; p<0.001 versus 4–8 days). 28 patients were successfully transplanted (82%). 6 patients remained without HTx (18%), of which 1 patient (3%) with clinical improvement could be discharged. 2 patients (6%) received an LVAD and 3 patients (9%) died during the waiting period. Conclusion Intermittent therapy with Lev as “a bridge to transplant” is safe and effective concerning deterioration of heart failure and prevention of progressive kidney/hepatic dysfunction. However, a prospective randomized multi-center trial is necessary to underscore the encouraging data of this observational, single center study. FUNDunding Acknowledgement Type of funding sources: None.

The Effect of Levosimendan on Two Distinct Rodent Models of Parkinson’s Disease

Background: Parkinson’s disease (PD) is a common neurodegenerative disorder that is characterized by motor symptoms related to the deficiency in dopamine levels, and cognitive symptoms that are similar in nature to those manifested during Alzheimer’s disease. Levosimendan, on the other hand, is a calcium sensitizer and phosphodiesterase inhibitor that was shown to possess neuroprotective, memory-enhancing, and anti-apoptotic properties. Objective: In the current study, the possible protective effect of levosimendan was investigated in two animal models of Parkinson’s disease. Methods: Both intracerebral injection 6-hydroxydopamine (6-OHDA) and the direct injection of lipopolysaccharide (LPS) into the substantia nigra were used as models to induce Parkinson’s-like behavior. Levosimendan (12 µg/kg intraperitoneally once weekly) was started 7 days before or 2 days after lesioning of the animals. At day 14 post-lesioning, animals were subjected to apomorphine challenge, which was correlated with dopamine levels in the striatum and tyrosine hydroxylase (TH)-positive nigral cells. Results: Results showed that levosimendan restored the number of rotations in the apomorphine challenge test, the levels of dopamine in the striatum, and the TH-positive nigral cells when administered 7 days before, but not two days after 6-OHDA lesioning. In the LPS model of PD, the number of rotations in the apomorphine challenge test, the levels of dopamine in the striatum, and the TH-positive nigral cells were restored when levosimendan was administered 7 days before as well as two days after lesioning. Conclusion: Levosimendan seems to provide a promising agent with potential clinical value for PD.

Abstract 15294: 24-hour Levosimendan Infusion Decreases Biventricular Filling Pressures and Increases Cardiac Output at Rest and Exercise in PH-HFpEF

Background: There are no specific treatments for patients with HFpEF and pulmonary hypertension (PH-HFpEF). Increased central and pulmonary venous pressures (CVP, PCWP) are believed to contribute importantly to symptoms at rest and during exercise. Levosimendan (LEVO), a calcium sensitizer/KATP channel activator, is known to reduce CVP and PCWP in patients with reduced LVEF. We hypothesized that LEVO would have similar effects in PH-HFpEF. Methods: 44 PH-HFpEF patients with mean pulmonary artery (mPAP) ≥35 mmHg, PCWP ≥20 mmHg, LVEF ≥40% and NYHA II or III symptoms underwent hemodynamic measurements at rest, during passive leg raise (PLR) and during supine bicycle exercise for 3 minutes at 25 Watts (EX) at baseline and following a continuous 24-hour infusion of LEVO (0.1 μg/kg/min) as part of a multicenter clinical trial. Measurements included CVP, mPAP, PCWP, mean arterial pressure (MAP) and cardiac index (CI); pulmonary and systemic vascular resistances (PVR, SVR) were calculated. Hemodynamic tracings were analyzed in a core lab blinded to condition and timepoint. The primary endpoint was the change of PCWP at 25 Watts. Results: Patients averaged 69±9.1 years old, 61.4% were female and had a mPAP of 41.0±9.3 mmHg at rest. LEVO decreased mPAP at rest, CVP and PCWP at rest and EX, and increased CI with EX; there were no significant changes in mPAP, PVR or SVR. Resting and EX hemodynamic data are summarized in the Table. 37 of the 44 patients (84%) were considered hemodynamic “responders” based on a pre-specified ≥4 mmHg decrease of EX PCWP. Conclusions: In patients with PH-HFpEF, a 24 hour levosimendan infusion at 0.1 μg/kg/min decreased CVP and PCWP and increased CI at rest and EX, despite no significant effect on SVR or PVR. A majority of patients exhibited acute hemodynamic response. While the underlying mechanism(s) remain to be clarified, LEVO’s effects on CVP and PCWP warrant further study of this drug as a treatment for PH-HFpEF.

Reverse use dependence of calcium sensitizer levosimendan on action potential duration shortening prevents ventricular arrhythmia during therapeutic hypothermia

Background Therapeutic hypothermia (TH) increases the risk of ventricular arrhythmia (VA) by prolonging action potential duration (APD) and steepening the APD restitution (APDR). The calcium sensitizer levosimendan, a medication for heart failure treatment, has been reported to shorten APD by enhancing ATP-sensitive K current and affect the APDR. Purpose We hypothesized that levosimendan might shorten the already prolonged APD particularly at long pacing cycle length (PCL), thus decreases the maximal slope of APDR, and prevent VA during TH. Methods Langendorff-perfused isolated rabbit hearts were subjected to 15-min TH (30°C) followed by 30-min treatment with levosimendan (0.5 μM, n=9) or vehicle (n=8). Using an optical mapping system, APD was evaluated by S1 pacing and APDR curve was plotted using APD70 versus diastolic interval. Ventricular fibrillation (VF) inducibility was evaluated by burst pacing for 30 s at the shortest PCL that achieved 1:1 ventricular capture. Results The APD was shortened from 259±8 ms at TH to 241±18 ms after levosimendan infusion at long PCL of 400 ms (p=0.024). However, at short PCL of 280 ms, the APD was not changed before (194±19) and after (188±23) levosimendan during TH (p=0.61). Levosimendan decreases the maximal slope of APDR curve from 1.99±0.65 at TH to 1.41±0.32 after adding levosimendan (p=0.034). The VF inducibility was decreased by levosimendan from 39±30% at 30°C to 14±12% with levosimendan (p=0.023). In control hearts, the maximal slope of APDR (p=0.75) and VF inducibility (p=0.12) were not changed by vehicle during TH. Conclusion Levosimendan might protect the hearts against VA during TH by shortening APD at long PCL and flattening the APDR. Enhancing ATP-sensitive K current with levosimendan during TH might be a novel approach to prevent VA during TH. Funding Acknowledgement Type of funding source: None

Short-term treatments for acute cardiac care: inotropes and inodilators

Acute heart failure (AHF) continues to be a substantial cause of illness and death, with in-hospital and 3-month mortality rates of 5% and 10%, respectively, and 6-month re-admission rates in excess of 50% in a range of clinical trials and registry studies; the European Society of Cardiology (ESC) Heart Failure Long-Term Registry recorded a 1-year death or rehospitalization rate of 36%. As regards the short-term treatment of AHF patients, evidence was collected in the ESC Heart Failure Long-Term Registry that intravenous (i.v.) treatments are administered heterogeneously in the critical phase, with limited reference to guideline recommendations. Moreover, recent decades have been characterized by a prolonged lack of successful innovation in this field, with a plethora of clinical trials generating neutral or inconclusive findings on long-term mortality effects from a multiplicity of short-term interventions in AHF. One of the few exceptions has been the calcium sensitizer and inodilator levosimendan, introduced 20 years ago for the treatment of acutely decompensated chronic heart failure. In the present review, we will focus on the utility of this agent in the wider context of i.v. inotropic and inodilating therapies for AHF and related pathologies.

Levosmindan: A new step up in Management in Neonatal Cardiogenic shock

We report the use of Levosimendan, calcium sensitizer, inodilator in a neonate with post-operative refractory cardiogenic shock. Currently, no data are available on the use of levosimendan in newborns outside the cardiosurgical setting. A 38-week neonate -with isolated exomphalos major-presented post-operatively with pulmonary hypertension, refractory cardiogenic shock (inspite of receiving, a bolus of 10ml/kg, Dopamine and Dobutamine 15µg/kg/min, Adrenaline up to 1mg/Kg/min, Noradrenaline 0.5mg/Kg/min, Terlipressin 20µg/Kg/hour, Milrinone 25µg/Kg/min) and arrhythmia (supraventricular tachycardia). Levosimendan was introduced as an intravenous infusion with an initial rate of 0.1 up to 0.2µg/Kg/min in addition to Noradrenaline 1µg/Kg/min, Dopamine 15µg/Kg/min and Furosemide infusion 0.1mg/Kg/hour. The patient improved evidenced by normalization of vital signs and restoration of perfusion with better cardiac functions by echocardiography. Conclusion: Levosimendan has positive inotropic, lusitropic and vasodilating effects for the treatment of heart failure yet further studies in neonates are still required.

Levosimendan Prevents Memory Impairment Induced by Diabetes in Rats: Role of Oxidative Stress

Background: Levosimendan is a calcium sensitizer and phosphodiesterase inhibitor that has potent antioxidant and anti-inflammatory activities. Objectives: The aim of the current study is to investigate the potential protective effect of levosimendan on learning and memory impairment induced by diabetes. Methods: Adult Wister rats were randomly divided into four groups (n=15 rats/group): control, levosimendan, streptozotocin (STZ) induced diabetes, and levosimendan-STZ diabetes. Upon confirmation of the success of the STZ diabetic model, intraperitoneal levosimendan (100µg/kg/week) was administrated to the assigned groups for 4 weeks. Then, the radial arm water maze was used to evaluate spatial learning and memory. Oxidative stress biomarkers and brain-derived neurotrophic factor were evaluated in hippocampal tissues. Results: The results showed that Diabetes Mellitus (DM) impaired both short- and long- term memory (P<0.01), while levosimendan protected the animals from memory impairment. In addition, levosimendan prevented DM-induced reduction in the hippocampal levels of superoxide dismutase and glutathione peroxidase (P<0.05). Moreover, the administration of levosimendan prevented DM-induced increases in hippocampal thiobarbituric acid reactive substances level (P<0.05). Furthermore, levosimendan restored the ratio of reduced/oxidized glutathione (GSH/GSSG) in DM rats to that observed in the control group (P<0.05). Conclusions: In summary, DM induced learning and memory impairment, and treatment with levosimendan impeded this impairment probably through preventing alterations in the antioxidant system in the hippocampus.

Rationale, experimental data, and emerging clinical evidence on early and preventive use of levosimendan in patients with ventricular dysfunction

Acute ventricular dysfunction (AVD) is a complex condition with substantial morbidity and mortality, still featuring unique therapeutic challenges. Levosimendan is a calcium sensitizer and ATP-dependent potassium channel opener that was developed as an inodilating drug for the treatment of acute heart failure and cardiogenic shock. Differently from other more widely used inotropic agents, levosimendan has some exclusive characteristics, in terms of mechanisms of action, pharmacodynamic profile, and haemodynamic effects. This may have important clinical implications. In particular, in patients with AVD or in patients with pre-existing severe ventricular impairment undergoing planned myocardial stress, the administration of levosimendan before the onset of overt symptoms or before cardiovascular therapeutic procedures may have the potential to bridge the patient through the critical phase. In this review, we will focus on the rationale, the existing experimental data, and the emerging clinical experience supporting an early, even preventive use of levosimendan in severe ventricular dysfunction, beyond its recognized indications.

P2564Levosimendan shortens action potential duration, decreases alternans threshold and prevents ventricular arrhythmia during therapeutic hypothermia in isolated rabbit hearts

Background Therapeutic hypothermia (TH) increases the susceptibility to ventricular arrhythmias (VA) by prolonging action potential duration (APD) and facilitating arrhythmogenic spatially discordant alternans (SDA). The calcium sensitizer levosimendan has been reported to shorten APD by enhancing ATP-sensitive K current. We hypothesize that levosimendan might shorten the already prolonged APD during TH, decreasing SDA threshold, and prevent the occurrence of VA. Methods Langendorff-perfused isolated rabbit hearts were subjected to 15-min TH (30°C) followed by 30-min treatment with levosimendan (0.5 μM, n=9) or vehicle (n=8). Using an optical mapping system, epicardial APD was evaluated by S1 pacing. SDA threshold was defined as the longest pacing cycle length (PCL) that induced SDA phenomenon. Ventricular fibrillation (VF) inducibility was evaluated by burst pacing for 30 s using the shortest PCL that achieved 1:1 ventricular capture. Results Levosimendan shortened the ventricular APD (at PCL 300 ms, from 229±9 ms to 211±18 ms, p=0.02) and decrease the SDA threshold (from 327±88 ms to 311±68 ms, p=0.001) during TH. The VF inducibility was decreased by levosimendan from 39±30% at 30°C to 14±12% after levosimendan infusion. In control hearts, the APD (p=0.75), SDA threshold (p=ns) and VF inducibility (p=0.12) were not changed by vehicle during TH. Conclusions Levosimendan protects the hearts against VA during TH by shortening APD and decreasing SDA threshold. Enhancing ATP-sensitive K current with levosimendan might be a novel approach to prevent VA during TH.