VITALIZE.Use and Effectiveness of Sodium Zirconium Cyclosilicate (LokelmaTM) in the Real-world Setting in Spain
NCT ID: NCT06635499
Last Updated: 2025-05-31
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
COMPLETED
Total Enrollment
232 participants
Study Classification
OBSERVATIONAL
Study Start Date
2024-11-13
Study Completion Date
2025-05-20
Brief Summary
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Primary Objective(s) \& Hypothesis(es)
1. To describe the status of kalaemia in patients treated with SZC in the real-world setting at first visit after treatment initiation.
2. To describe the usual HK management after treatment initiation with SZC in the real-world setting.
Secondary Objective(s) \& Hypothesis(es)
1. To describe treatment patterns of patients treated with SZC in the real-world setting, as well as the SZC treatment duration.
2. To describe baseline sociodemographic and clinical characteristics of patients treated with SZC in the real-world setting.
3. To describe the evolution of kalaemia and other clinical parameters as well as mortality in patients treated with SZC in the real-world setting.
4. To describe Healthcare Resource Utilization (HCRU) before and after SZC initiation in patients treated with SZC in the real-world setting.
5. To analyse specific characteristics of use of SZC in the real-world setting according to the medical specialties.
For that purpose, a non-interventional, multicenter, longitudinal study, with secondary data collection has been designed involving 20 Spanish public hospitals ans aiming to include 230 patients (10-12 patients per site) has been designed.
1. To describe the status of kalaemia in patients treated with SZC in the real-world setting at first visit after treatment initiation.
2. To describe the usual HK management after treatment initiation with SZC in the real-world setting.
Secondary Objective(s) \& Hypothesis(es)
1. To describe treatment patterns of patients treated with SZC in the real-world setting, as well as the SZC treatment duration.
2. To describe baseline sociodemographic and clinical characteristics of patients treated with SZC in the real-world setting.
3. To describe the evolution of kalaemia and other clinical parameters as well as mortality in patients treated with SZC in the real-world setting.
4. To describe Healthcare Resource Utilization (HCRU) before and after SZC initiation in patients treated with SZC in the real-world setting.
5. To analyse specific characteristics of use of SZC in the real-world setting according to the medical specialties.
For that purpose, a non-interventional, multicenter, longitudinal study, with secondary data collection has been designed involving 20 Spanish public hospitals ans aiming to include 230 patients (10-12 patients per site) has been designed.
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Detailed Description
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Potassium metabolism disorders are among the most frequent electrolyte disturbances in clinical practice, with a spectrum of variable severity. A normal potassium level is critical for proper muscle, heart, and nerve function. An excessive level of potassium can cause abnormal heart rhythms and interfere with the functioning of skeletal muscles.
Hyperkalaemia is defined by a serum potassium concentration above the upper limit of normal: K+ ≥ 5 or 5.5 mEq/L, according to guidelines. It is considered mild when the potassium concentrations are between 5 to 5.5 mEq/L, moderate between 5.5 and 6 mEq/L, and severe if potassium concentrations are higher than 6 mEq/L. Hyperkalaemia is the most serious electrolyte disturbance because it can cause fatal ventricular arrhythmias in minutes.
In a recent meta-analysis, the pooled prevalence of hyperkalaemia (by any definition/threshold) in all adult patients was 6.3% (95%CI 5.8-6.8%) with an incidence of 2.8 cases per 100 person years, while prevalence and incidence were lower in the general population (1.3% (95%CI 1.0-1.8) and 0.4 per 100 person years, respectively). also found that the prevalence was 7.5% in non-dialysis CKD, 8.3% in diabetes, 8.0% in heart failure and 35% in dialysis-dependent CKD, demonstrating that hyperkalaemia risk is influenced by the presence or absence of underlying comorbid conditions. The incidence of hyperkalaemia also increases in the elderly population treated with drugs that induce hyperkalaemia, such as renin-angiotensin-aldosterone system inhibitors (RAASi): angiotensin-converting enzyme inhibitors (ACEi), angiotensin receptor blockers (ARBs), renin inhibitors, mineralocorticoid receptor antagonists (MRA) or potassium-sparing diuretics.
Sodium Zirconium Cyclosilicate (SZC), commercialized as LokelmaTM, is a potassium binder indicated to treat hyperkalaemia constituted by two treatment phases, an initial correction phase (10 g/3 times daily/oral), which is followed by a maintenance phase once patients reach normokalaemia (after 24-48h) (5g/once daily). LokelmaTM was approved by the European Medicines Agency (EMA) in March 2018 and was launched in Spain in Q2 2021 after having demonstrated its efficacy and safety in different populations, doses, and timelines in several clinical trials.
With the aim of giving greater support to these results and, above all, in the context of the Spanish population, complementary data are needed to understand to what extent the broad group of patients in usual clinical practice achieve normokalaemia and maintain it over the study period after initiation with LokelmaTM. The project's goal is to generate real world evidence about the use and the effectiveness of SZC (LokelmaTM) in Spain, through a retrospective Non- Interventional Study (NIS).
Primary Objective(s) \& Hypothesis(es)
1. To describe the status of kalaemia in patients treated with SZC in the real-world setting at first visit after treatment initiation.
2. To describe the usual HK management after treatment initiation with SZC in the real-world setting.
Secondary Objective(s) \& Hypothesis(es)
1. To describe treatment patterns of patients treated with SZC in the real-world setting, as well as the SZC treatment duration.
2. To describe baseline sociodemographic and clinical characteristics of patients treated with SZC in the real-world setting.
3. To describe the evolution of kalaemia and other clinical parameters as well as mortality in patients treated with SZC in the real-world setting.
4. To describe Healthcare Resource Utilization (HCRU) before and after SZC initiation in patients treated with SZC in the real-world setting.
5. To analyse specific characteristics of use of SZC in the real-world setting according to the medical specialties.
Exploratory Objective(s) \& Hypothesis(es) 1. To describe the characteristics of the SZC responder patient according to potassium levels at first visit.
Safety Objective(s) \& Hypothesis(es)
1\. To describe adverse events in patients treated with SZC in the real-world setting.
Hyperkalaemia is defined by a serum potassium concentration above the upper limit of normal: K+ ≥ 5 or 5.5 mEq/L, according to guidelines. It is considered mild when the potassium concentrations are between 5 to 5.5 mEq/L, moderate between 5.5 and 6 mEq/L, and severe if potassium concentrations are higher than 6 mEq/L. Hyperkalaemia is the most serious electrolyte disturbance because it can cause fatal ventricular arrhythmias in minutes.
In a recent meta-analysis, the pooled prevalence of hyperkalaemia (by any definition/threshold) in all adult patients was 6.3% (95%CI 5.8-6.8%) with an incidence of 2.8 cases per 100 person years, while prevalence and incidence were lower in the general population (1.3% (95%CI 1.0-1.8) and 0.4 per 100 person years, respectively). also found that the prevalence was 7.5% in non-dialysis CKD, 8.3% in diabetes, 8.0% in heart failure and 35% in dialysis-dependent CKD, demonstrating that hyperkalaemia risk is influenced by the presence or absence of underlying comorbid conditions. The incidence of hyperkalaemia also increases in the elderly population treated with drugs that induce hyperkalaemia, such as renin-angiotensin-aldosterone system inhibitors (RAASi): angiotensin-converting enzyme inhibitors (ACEi), angiotensin receptor blockers (ARBs), renin inhibitors, mineralocorticoid receptor antagonists (MRA) or potassium-sparing diuretics.
Sodium Zirconium Cyclosilicate (SZC), commercialized as LokelmaTM, is a potassium binder indicated to treat hyperkalaemia constituted by two treatment phases, an initial correction phase (10 g/3 times daily/oral), which is followed by a maintenance phase once patients reach normokalaemia (after 24-48h) (5g/once daily). LokelmaTM was approved by the European Medicines Agency (EMA) in March 2018 and was launched in Spain in Q2 2021 after having demonstrated its efficacy and safety in different populations, doses, and timelines in several clinical trials.
With the aim of giving greater support to these results and, above all, in the context of the Spanish population, complementary data are needed to understand to what extent the broad group of patients in usual clinical practice achieve normokalaemia and maintain it over the study period after initiation with LokelmaTM. The project's goal is to generate real world evidence about the use and the effectiveness of SZC (LokelmaTM) in Spain, through a retrospective Non- Interventional Study (NIS).
Primary Objective(s) \& Hypothesis(es)
1. To describe the status of kalaemia in patients treated with SZC in the real-world setting at first visit after treatment initiation.
2. To describe the usual HK management after treatment initiation with SZC in the real-world setting.
Secondary Objective(s) \& Hypothesis(es)
1. To describe treatment patterns of patients treated with SZC in the real-world setting, as well as the SZC treatment duration.
2. To describe baseline sociodemographic and clinical characteristics of patients treated with SZC in the real-world setting.
3. To describe the evolution of kalaemia and other clinical parameters as well as mortality in patients treated with SZC in the real-world setting.
4. To describe Healthcare Resource Utilization (HCRU) before and after SZC initiation in patients treated with SZC in the real-world setting.
5. To analyse specific characteristics of use of SZC in the real-world setting according to the medical specialties.
Exploratory Objective(s) \& Hypothesis(es) 1. To describe the characteristics of the SZC responder patient according to potassium levels at first visit.
Safety Objective(s) \& Hypothesis(es)
1\. To describe adverse events in patients treated with SZC in the real-world setting.
Conditions
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Hyperkalaemia
Study Design
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Observational Model Type
COHORT
Study Time Perspective
RETROSPECTIVE
Eligibility Criteria
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Inclusion Criteria
1. Patient of 18 years of age or older at the time of index date (\*).
2. Patient with a diagnosis of hyperkalaemia and/or serum potassium concentration ≥ 5 mmol/L recorded at or before the index date (\*).
3. Patients with an estimated glomerular filtration rate (eGFR) less than 45 ml/min/1,73m2 recorded before the index date (\*).
4. Patient who has initiated LokelmaTM from May 2021 until 3 months before the start data collection for each site (LokelmaTM must be used on label in accordance with Summary of Product Characteristic (SmPC)).
5. Patient with a baseline measure of serum potassium levels at or within 7 days before the index date (\*).
6. Patients with at least one follow-up visit during the study period.
7. Patient with data recorded on electronic health records ≥ 6 month before index date (\*).
(\*) Index date: Day on which the patient starts treatment with SZC (LokelmaTM).
2. Patient with a diagnosis of hyperkalaemia and/or serum potassium concentration ≥ 5 mmol/L recorded at or before the index date (\*).
3. Patients with an estimated glomerular filtration rate (eGFR) less than 45 ml/min/1,73m2 recorded before the index date (\*).
4. Patient who has initiated LokelmaTM from May 2021 until 3 months before the start data collection for each site (LokelmaTM must be used on label in accordance with Summary of Product Characteristic (SmPC)).
5. Patient with a baseline measure of serum potassium levels at or within 7 days before the index date (\*).
6. Patients with at least one follow-up visit during the study period.
7. Patient with data recorded on electronic health records ≥ 6 month before index date (\*).
(\*) Index date: Day on which the patient starts treatment with SZC (LokelmaTM).
Exclusion Criteria
1. Patient presenting pseudohyperkalaemia
2. Patients receiving renal replacement therapy
3. Patient who is pregnant or breastfeeding.
4. Patient who, at the time of inclusion in the study, is participating in a clinical trial that includes the use of K+ binders as an investigational medicinal product (IMP).
5. Patient who has explicitly refused consent to participate in research.
6. Patient medical chart is not available for data extraction or the information in it is not analyzable.
2. Patients receiving renal replacement therapy
3. Patient who is pregnant or breastfeeding.
4. Patient who, at the time of inclusion in the study, is participating in a clinical trial that includes the use of K+ binders as an investigational medicinal product (IMP).
5. Patient who has explicitly refused consent to participate in research.
6. Patient medical chart is not available for data extraction or the information in it is not analyzable.
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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AstraZeneca
INDUSTRY
Sponsor Role
lead
Responsible Party
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Responsibility Role
SPONSOR
Locations
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Research Site
A Coruña, , Spain
Site Status
Research Site
Asturias, , Spain
Site Status
Research Site
Badajoz, , Spain
Site Status
Research Site
Barcelona, , Spain
Site Status
Research Site
Burgos, , Spain
Site Status
Research Site
Cadiz, , Spain
Site Status
Research Site
Córdoba, , Spain
Site Status
Research Site
Huelva, , Spain
Site Status
Research Site
Lleida, , Spain
Site Status
Research Site
Madrid, , Spain
Site Status
Research Site
Málaga, , Spain
Site Status
Research Site
Santa Cruz de Tenerife, , Spain
Site Status
Research Site
Valencia, , Spain
Site Status
Research Site
Zaragoza, , Spain
Site Status
Countries
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Spain
References
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De Sequera Ortíz P, A. A. (2021). Trastornos del Potasio. Hipopotasemia. En Nefrología al día. S.l (págs. 2659-2606). Lorenzo V., López Gómez JM (Eds).
Reference Type
RESULT
Rose BD, P. T. (2001). Hypokalemia. Clinical physiology of acid-base and electrolyte disorders. New York: McGraw-Hill.
Reference Type
RESULT
Humphrey T, Davids MR, Chothia MY, Pecoits-Filho R, Pollock C, James G. How common is hyperkalaemia? A systematic review and meta-analysis of the prevalence and incidence of hyperkalaemia reported in observational studies. Clin Kidney J. 2021 Dec 2;15(4):727-737. doi: 10.1093/ckj/sfab243. eCollection 2022 Apr.
Reference Type
RESULT
Larivee NL, Michaud JB, More KM, Wilson JA, Tennankore KK. Hyperkalemia: Prevalence, Predictors and Emerging Treatments. Cardiol Ther. 2023 Mar;12(1):35-63. doi: 10.1007/s40119-022-00289-z. Epub 2022 Dec 12.
Reference Type
RESULT
Palmer BF, L. M. (1996). Effect of aging on renal function and disease. The Kidney. Philadelphia: Brenner & Rector's.
Reference Type
RESULT
Other Identifiers
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D9480R00047
Identifier Type: -
Identifier Source: org_study_id
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