Effect of oral sodium bicarbonate supplementation on progression of chronic kidney disease in patients with chronic metabolic acidosis: study protocol for a randomized controlled trial (SoBic-Study)

The SoBic study is a single-center, randomized, controlled, stratified,open-label clinical phase IV study and will be performed at the Nephrological outpatient service of the Medical University of Vienna. From the beginning of October 2013, 200 subjects with CKD stage III and IV and chronic metabolic acidosis will be randomized to either receive a high dose of oral sodium bicarbonate with a serum target HCO₃ ^- level of 24 ± 1 mmol/L or receive a rescue therapy of sodium bicarbonate, if necessary, with a serum target level of 20 ± 1 mmol/L. The follow up period will be 2 years.The ethics committee of the Medical University of Vienna and the Austrian Competent Authority approved the study. The study is registered at the European Union Drug Regulating Authority (EUDRACT Number: 2012-001824-36;https://​www.​clinicaltrialsre​gister.​eu) and will be conducted in accordance with the current version of the Declaration of Helsinki [29]. All study subjects will be appropriately insured and are required to give written informed consent before any study action is taken. Data will be stored in the Clincase version 2.6.0.33 clinical trial system (Quadratek Data Solutions Ltd, London, United Kingdom. Data structure design is developed by the science support work group of AKIM (Allgemeines Krankenhaus Informations Management) at the Center of Medical Statistics, Informatics and Intelligent Systems. The software provides advanced data management and data preparation tools for statistic evaluation. The web-based electronic case report forms allow efficient user handling and thus, error avoidance. In accordance with the Good Clinical Practice (GCP) guidelines an independent person will periodically perform data monitoring [30]. The study will be reported as suggested by the Consolidated Standards of Reporting Trials (CONSORT) 2010 guidelines [31].

The study population will comprise incident and prevalent patients with CKD from the outpatient service of a tertiary care facility. Patients classified as having CKD stage III or IV, and two separate measurements of HCO₃ ^- of <21 mmol/L (at least 1 day apart) will be included in the study. Patients fulfilling the inclusion criteria, who are already receiving alkali treatment, can be included after a wash-out phase of 4 weeks. The inclusion criteria are age over 18 years, renal function (measured by eGFR calculated by the four-variable Modification of Diet in Renal Disease (MDRD) study equation) between 60 and 15 mL/min/1.73 m², venous serum HCO₃ ^- of <21 mmol/L on two consecutive measurements (at least 1 day apart), and for the patient to be in a stable clinical condition.Patients with malignant disease or within 5 years of successful treatment of malignant disease (except dermal malignancies and carcinoma in situof the cervix declared to be cured), and patients with morbid obesity (body mass index >40 kg/m²), chronic inflammation (C reactive protein >10 mg/dL) or taking immunosuppressive therapy of any kind, poorly controlled blood pressure (>150/90 mmHg despite the use of four agents),overt congestive heart failure, or known peanut or soy allergy, will be excluded from the study.

With respect to concomitant medication, various drugs are known to induce metabolic acidosis [32]. However, most relevant with regard to the planned study are the phosphate binder sevelamer hydrochloride and potassium-sparing diuretics. Other agents known to neutralize metabolic acidosis, such as calcium citrate, sodium citrate and calcium carbonate are not allowed.

Serum creatinine will be determined by means of the Jaffe method (reference range <1.2 mg/dL, mg/dL × 88.4 = μmol/L). Bicarbonate measurements will be performed in venous blood samples and determined by an ABL 700 Copenhagen Blood Gas Analyzer (Radiometer Copenhagen, Copenhagen, Denmark).Markers of bone metabolism (bone alkaline phosphatase, osteocalcin,c-telopeptide pyridinoline crosslinks of type I collagen, procollagen type I N-propeptide) will be measured as detailed in Cejka et al.[33]. All laboratory measurements, including urinalyses, will be performed in an ISO 9001–2008 certified and ISO 15189-accredited clinical laboratory at the Medical University Vienna [http://​www.​kimcl.​at].

Subjects will attend the clinic for a regular visit and blood draw. After a careful review of their medical history patients who fulfill the inclusion criteria will be contacted and informed about the study protocol. Patients who agree to participate in the study will be invited to a further blood work-up to ensure that metabolic acidosis is chronic rather than a one-time imbalance of the acid–base status. After obtaining written informed consent (day 0)each patient will be randomized 1:1 either to the treatment group or the control group (Figure 1). Subjects will be stratified for age >60 years and ≤60 years [34], presence of diabetes mellitus (yes/no) [35], severe chronic metabolic acidosis (serum HCO₃ ^- <18 mmol/L) versus moderate metabolic acidosis (serum HCO₃ ^- ≥18 mmol/L), and for previous alkali treatment (yes/no).Previous alkali treatment is defined as being continued for longer than 6 months (>25% of the treatment period of the planned study) and serum HCO₃ ^- ≥20 mmol/L on more than 75% of measurements. Stratified randomization will be carried out using the web-based randomizer program provided by the Medical University of Vienna [https://​www.​meduniwien.​ac.​at/​randomizer/​web/​login.​php]. We use the minimization method with a preferred treatment probability of 0.9, and a combination depth of 2.0, to guarantee that treatment allocation is balanced in all levels of the stratification factors, as well as in all pairwise combinations of stratification factors. After randomization, subjects will receive either the high dose of sodium bicarbonate or, if necessary, a low-dose rescue therapy with sodium bicarbonate.

Each study visit consists of a fasting blood draw (last food intake including the study medication should be at least 8 hours before) and urinalysis,measurement of vital signs, and assessment of changes in concomitant medication and adverse events (Table 1). At the beginning of the study a physical examination will be done and body weight and height will be assessed. Study visits will be performed at weeks 4, 8, 12, 20, 29, 38, 47, 60,73, 86, and 104.

The initial and the maintenance dose for the intervention group will be determined based on the baseline HCO₃ ^- level and the levels measured during follow up visits. Based on pilot data we expect the daily dose for the intervention group to vary between two and six capsules of Nephrotrans® 840 mg (1,680 to 5,040 mg sodium bicarbonate per day). In the case of HCO₃ ^- lower than 19 mmol/L at the baseline visit, or during follow up, subjects randomized to the control group will receive rescue therapy. We expect the daily dose to be zero to three capsules of Nephrotrans®840 mg (0 to 2,520 mg sodium bicarbonate per day) for the control group. After each study visit the study drug can be down- and up-titrated according to the actual HCO₃ ^- level and the respective target value, as pre-specified at randomization, by means of the suggested treatment algorithm (Table 2A and B). However, due to intra-individual differences in drug response the algorithm is not obligatory and might be modified if necessary to reach the target HCO₃ ^- level for respective subjects.

The primary outcome is renal function and will be measured by means of eGFR,calculated according to the 4-variable-MDRD Study equation [36].

Secondary outcomes are death, and the need for renal replacement therapy (RRT)(patients with renal transplantation, hemodialysis, peritoneal dialysis, and subjects who are in need of RRT, but personally elect not to start it). The need for RRT will be clinically evaluated, including monitoring of uremic symptoms (nausea and/or vomiting, fatigue, deterioration in nutritional status and significant weight loss, neuropathy, encephalopathy, or psychic disturbances),blood and fluid disturbances (volume overload, malignant hypertension, anemia,bleeding diathesis, pleuritis and/or pericarditis), and significant electrolyte imbalances. A further secondary outcome is the percent change in markers of bone metabolism (bone alkaline phosphatase, osteocalcin, c-telopeptide pyridinoline crosslinks of type I collagen, and procollagen type I N-propeptide) across groups.

Assuming equal baseline levels of eGFR between the two study groups, a clinically relevant difference of 5 ml in eGFR after 2 years, and an estimated standard deviation of 12 ml for the change in eGFR after 2 years (pilot data, Figure 2), an independent sample t-test with a sample size of 2 × 100 patients will give 80% power to reach statistical significance at a two-sided significance level of 5%.

The intention-to-treat population will be used for statistical analysis. The primary analysis focuses on the estimated treatment effect at 2 years (difference between the two groups in eGFR after two years), which will be provided as the point estimate at the expected difference, 95% confidence interval and P-value. Mortality of patients or other reasons for dropout will be addressed by jointly modeling longitudinal eGFR and time to death using an appropriate joint model for longitudinal and time-to-event outcome [37]. In the longitudinal part of this model, a linear mixed model will be used with the repeated eGFR measurements as outcome values, and including as fixed factors treatment group, all stratification criteria (age, diabetes,severity of acidosis, previous alkali treatment), the eGFR baseline value and time since start of treatment, and a random intercept. An interaction effect (product term) of the treatment group and the time since start of treatment will also be included. Graphical diagnostic tools (residual plots) will be used to confirm the adequacy of model assumptions. A secondary outcome is time to death,compared between the treatment groups, which will also be estimated by the joint modeling approach. The time up to the point of need of RRT will be compared between the two treatment groups, accounting for death as a competing risk, by modeling the cumulative incidence function [38], including treatment group and the covariates age, diabetes, severity of acidosis and baseline eGFR. Percent change (from baseline to week 20 and baseline to week 104, respectively) in markers of bone metabolism will be analyzed by analysis of covariance, to adjust for sex, age, change in renal function, and baseline values of the bone markers. The incidence of serious adverse events will be reported and compared between groups using the chi-squared test. Baseline parameters (etiology of CKD, relevant medical disease, age, gender, concomitant medication, blood pressure, number of antihypertensive medications, and laboratory measurements) will be analyzed descriptively for the interventional and control group, respectively. SAS (Version 9.3, SAS Institute Inc., Cary, NC, USA, 2011) will be used for data management and analysis, and R 2.12.2/package JM [37] will be used for the main outcome analysis.