OPtimizing Aldosterone Receptor Antagonist Therapy by Sodium Zirconium Cyclosilicate in Heart Failure...
Heart FailureHyperkalemiaMineralocorticoid receptor antagonists (MRA) is one of cornerstones in the treatment of heart failure with reduced ejection fraction (HFrEF). However, MRA has been extremely under-used globally. The main reason for this seems to be increased risk of hyperkalemia in individuals on MRA. Theoretically, by limiting the risk of hyperkalemia it could thus be possible to optimize MRA therapy. This is studied in this randomized controlled trial in which it is investigated whethere adding a potassium-binder in combination with MRA treatment prevent hyperkalemia to a greater extent than only using MRA. The specific aim of this study is to demonstrate the efficacy and safety of Sodium Zirconium Cyclosilicate (SZC) in optimizing MRA in symptomatic patients with HFrEF. A multicenter, randomized, placebo-controlled, double-blinded study in Sweden (n=110) The study consists of 2 phases: 1) open-label run-in within maximum 2 months, where all are treated with SZC to test tolarability, and 2) a 1:1 randomized, double-blinded and placebo-controlled treatment during 6 months. The open-label phase, in turn, consists of three periods: run-in (1 - 2 weeks), correc-tion (maximum 72 hours) and maintenance (4-7 weeks). In addition, post-randomization phase, all patients will be followed by 3 visits (Follow-Up 1, 2 and 3) at 1, 2 and 4 weeks after End of Study (EOS) / End of Treatment (EOT) (which comes first) for further control of kalium and creatinine levels and documentation of current MRA use incl dose. Sodium Zirconium Cyclosilicate (SZC) (Lokelma)®, 5 g, 10 g, orally, is an approved drug in Sweden. For correction of hyperkalemia, the recommended starting dose is 10 g, three times daily. Once normokalemia has been achieved, the maintenance reg-imen should be started with 5 g once daily. The dose can be titrated up to 10 g once daily or lowered to 5 g once every other day as needed, to maintain a normal level of potassium. Primary Objective: To demonstrate the efficacy of Sodium Zirconium Cyclosilicate (SZC) on optimiz-ing MRA in HFrEF, SZC vs Placebo. Outcome measure: Whether a patient maintains MRA either at a dose ≥ 25 mg daily (for those without MRA at base-line) or a dose increase by 25 mg daily (for those with MRA ≤ 25 mg daily at baseline) and K level in the normal range (3.5-5.0 mmol/L) at the end of study, without rescue therapy due to hy-perkalemia at any point during the randomization phase.
Study to Assess Efficacy and Safety of SZC for the Management of High Potassium in Patients With...
HyperkalaemiaHeart Failure With Reduced Ejection FractionThe main objective of this study is to evaluate the efficacy of SZC as compared with placebo in keeping potassium levels within the normal range (3.5-5.0 mEq/L) while on spironolactone ≥25 mg daily without assistance of rescue therapy for hyperkalaemia (HK).
Levalbuterol Compared to Albuterol Regarding Cardiac Side Effects and Potassium Lowering Effects....
HyperkalemiaHyperkalemia is a common life-threatening electrolyte disturbance which may impair cardiac and many other organs' functions. Unfortunately, a well-established guideline for the treatment of hyperkalemia in the emergency setting is still missing. However, the last "Kidney Disease: Improving Global Outcomes (KDIGO)" conference proposed a treatment protocol for hyperkalemia and addressed controversies in this matter. Beta2-agonists were one of the main lines in the approach towards managing a patient with hyperkalemia. However, this evidence was only available for racemic albuterol. Levalbuterol is the isolated R-enantiomer of racemic albuterol which is comprised of S- and R-enantiomers. Several lab and clinical studies have assessed the effect, affinity, and selectivity of each of the enantiomers. Few studies in medical literature have compared the difference between these two drugs regarding cardiac effects with inconclusive results, and even fewer studies have compared the efficacies of these two drugs regarding potassium lowering effect. To the investigators' knowledge, no study to date has compared the efficacy and safety of albuterol compared to levalbuterol in hyperkalemic patients with the properly adjusted dosing. So, in clinical practice, the investigators wanted to know based on evidence if levalbuterol can be an effective substitute for albuterol in lowering potassium levels in hyperkalemia patients while yielding fewer cardiac side effects. To answer this question, the investigators designed a single-centered controlled clinical trial that includes adult hyperkalemia patients in Aleppo University Hospital.
Potassium Supplementation in CKD
Renal InsufficiencyChronic3 moreThe current high-sodium, low-potassium diet contributes to the high prevalence of high blood pressure (hypertension). Indeed, the anti-hypertensive effects of potassium supplementation are well-established. Hypertension is even more prevalent and resistant in patients with chronic kidney disease (CKD) and contributes to further decline in kidney function. Four recent epidemiological studies (published 2014 - 2016) showed that higher dietary potassium intake was associated with better renal outcomes. All studies recommended an intervention study with potassium supplementation in patients with CKD, but this has not been performed. The aim of this study is to study the renoprotective effect of potassium supplementation in patients with CKD (stage 3b or 4, i.e. estimated glomerular filtration rate [eGFR] 15 - 45 ml/min/1.73 m2).
A Study to Evaluate the Effect of Sodium Zirconium Cyclosilicate on Chronic Kidney Disease (CKD)...
Renal InsufficiencyChronic1 moreThe purpose of this study is to evaluate the effect of Sodium Zirconium Cyclosilicate (SZC), as adjunct to ACEi/ARB therapy (lisinopril or valsartan), on slowing CKD progression (assessed as the reduction in participant's glomerular filtration rate [eGFR] decline over time) in participants with hyperkalaemia or at high risk of hyperkalaemia.
Insulin Dextrose Infusion vs Nebulized Salbutamol vs Combination of Salbutamol and Insulin Dextrose...
HyperkalemiaHyperkalemia is a common electrolyte disorder, especially among patients with chronic kidney disease, diabetes mellitus, or heart failure. Globally, the reported incidence of hyperkalemia varies from 1.1 to 10 per 100 hospitalizations, depending on the patient cohort and comorbidities. Hyperkalemia is a potentially life-threatening electrolyte disturbance that can be fatal if left untreated. Several studies have established the association between hyperkalemia and all-cause mortality. Because of the deleterious cardiac effects of hyperkalemia, its management is an emergency intervention. However, robust evidence is lacking to guide the emergency management of patients with hyperkalemia. Emergency treatment approaches are largely based on small studies, anecdotal experience, and traditionally accepted practice patterns within institutions. Therefore, a rigorous evaluation of the first-line treatments of hyperkalemia in emergency departments is needed and a large scale randomized clinical trial is warranted before robust recommendations for clinical practice can be made. Our clinical trial will improve the safety of patients with acute hyperkalemia and will help clinicians in their day by day practice to choose the treatment that significantly reduces morbidity and mortality during acute hyperkalemia management. Our results will be delivered in a timely fashion, owing to the high prevalence of hyperkalemia in the emergency department setting and to the commitment of the INI-CRCT network of Excellence, along with ED specialists used to work jointly. the primary objective of our trial is to compare insulin/dextrose intravenous infusion, nebulized salbutamol or combination of nebulized salbutamol and insulin/dextrose intravenous infusion to reduce serum potassium concentration at 60 minutes, as first-line treatment, in emergency departments.
Comparison of Potassium Binders in the ER
Acute HyperkalemiaOral Potassium BindersCompare efficacy of 3 oral potassium binders (cation exchange resins) on lowering blood potassium, in hospital patients with acute hyperkalemia.
Lokelma for RAAS Maximisation in CKD & Heart Failure.
Chronic Kidney DiseasesHeart Failure With Reduced Ejection Fraction3 moreBackground: CKD in patients with heart failure (HF) is common and associated with poor prognosis. Despite evidence of benefit with Renin-Angiotensin-Aldosterone-System inhibitor (RAASi) agents, they are avoided due to fear of hyperkalaemia. New potassium binders, e.g. Sodium Zirconium Cyclosilicate (SZC), reduce incidence of hyperkalaemia in CKD-HF patients and hence may help RAASi maximisation, which has not been investigated in an RCT. Purpose: The proposed study will randomise HFrEF patients with stable CKD 3-5 and serum potassium 5-5.0 mmol/L, to receive SZC or placebo while RAASi therapy is maximised. The aim of the study is to examine if SZC is superior to placebo in achieving maximal doses of ACEi/ARB, e.g. Ramipril 10 mg, Candesartan 32 mg; and mineralocorticoid receptor antagonist, e.g. Epleronone 50 mg or Spironolactone 50 mg, avoiding hyperkalaemia. Methods: Eligible patients with eGFR<60 mL/min/1.73m2, heart failure (EF<40%) on none/submaximal dose of RAASi will be randomised to receive 10g TDS of investigational medicinal product (IMP), either SZC or placebo, for 48 hours and in 10 or 5g OD guided by laboratory serum potassium (K+). Every two weeks the RAASi dose will be increased and IMP adjusted according to a strict protocol and guided by laboratory potassium and creatinine. The primary endpoint of the study is achievement of maximal dose of RAASi in randomised patients avoiding hyperkalaemia, i.e. K+≤5.6 mmol/L. Patients will be allowed to continue with RAASi maximisation to K+<6.0mmol/L. Patients will be tested at baseline and follow-up visits for hyperkalaemia, AKI, symptomatic hypotension and QT prolongation on ECG. Results: The study results will show if SZC is superior to placebo for RAASi maximisation in CKD-HF patients while maintaining safe levels of serum potassium without any adverse impact on quality of life. The study will demonstrate if SZC allows higher RAASi dose and more dose escalations than placebo. It will also examine the impact of RAASi escalation on creatinine, proteinuria, and cardiac blood biomarkers. Conclusion: If positive, the results of this study will demonstrate that SZC enables RAASi up titration in CKD-HF patients, which potentially can help achieve optimal treatment and improve quality of life of the patient.
Effect of Sodium Zirconium Cyclosilicate on Arrythmia-related Cardiovascular Outcomes in Participants...
HyperkalemiaThe purpose of this study is to evaluate the effect of Sodium Zirconium Cyclosilicate (SZC) on arrhythmia-related cardiovascular outcomes in participants on chronic hemodialysis with recurrent hyperkalemia.
An Open-label Study to Assess Safety and Efficacy of SZC in Paediatric Patients With Hyperkalaemia...
HyperkalaemiaSodium zirconium cyclosilicate has been shown to be effective and safe in adults for the treatment of hyperkalaemia, and therefore it is expected to be beneficial in children. This study will evaluate the efficacy, safety and tolerability of sodium zirconium cyclosilicate for the treatment of hyperkalaemia in children <18 years of age. Approximately 140 participants will enter CP at approximately 46 sites in locations including but not limited to Europe and North America for this study. Treatment will include 3 phases: the CP, MP, and LTMP. Enrolment will start in 2 cohorts, ages 6 to < 12 years and 12 to < 18 years. After review of accumulated data, the independent Data Monitoring Committee (iDMC) will recommend whether to open enrolment in the ages 2 to < 6 years cohort and later in the ages 0 to < 2 years cohort. All eligible participants with hyperkalaemia will enter an open-label Correction Phase (CP) receiving a fixed dose of SZC three times daily (TID) for up to 3 days until normokalaemia is achieved. Within each age cohorts 2 to < 18 years, initial participants will be allocated to the dose level (DL) 5 g TID. After recommendation of higher DLs by the iDMC, subsequent participants may be allocated in the CP to 10 g TID and then potentially 15 g TID. All participants in the ages 0 to < 2 years cohort will be assigned to the same DL which will be decided based on data from older age cohorts. Participants who successfully achieve normokalaemia in the CP will enter a 28-day open-label Maintenance Phase (MP), which will be initiated with once daily administration of the dose received TID in the CP. During MP, the Investigator is able to titrate the dose up or down in the range 2.5 g to 15 g body weight equivalent to maintain normokalaemia. For participants who, at the end of MP, are normokalaemic or hyperkalaemic without being on maximum dose, the MP is followed by the option to continue the study in an open-label long term maintenance phase (LTMP) where the same titration regimen is used as in MP.