Effects of the SGLT-2 Inhibitor Empagliflozin on Renal Tissue Oxygenation in Non-Diabetic Subjects: A Randomized, Double-Blind, Placebo-Controlled Study Protocol

This study is a double-blind, randomized, placebo-controlled study that will examine per protocol the acute and chronic renal effects of empagliflozin 10 mg in healthy non-medicated volunteers.

Fifteen normal weight (BMI 18.5–24.9 kg/m²), 15 overweight (BMI 25–29.9 kg/m²), and 15 obese (BMI ≥ 30 kg/m²) non-diabetic subjects (men and women) will be recruited with the following criteria: age 18–50 years, HbA1c < 6.5%, plasma fasting glucose < 7.0 mmol/l, plasma glucose level at 2 hours of oral glucose tolerance test (OGTT) < 11.1 mmol/l, eGFR > 60 ml/min (estimated by the creatinine-based CKD-EPI equation), urine albumin/creatinine ratio < 3.3 mg/mmol, normal ultrasound, normal urine dipstick, normal hematology and chemistry results. Each participant visits the study center on seven occasions, following the routine screening visit which includes a signed informed consent followed by a complete medical history, baseline physical examination, blood test, urine dipstick, 75 g oral glucose tolerance test (OGTT), and a renal ultrasound. In the absence of exclusion criteria, each weight group will be randomized to placebo (n = 5) and empagliflozin (n = 10). Thus, in total, 30 subjects will be randomized to empagliflozin and 15 subjects to placebo.

The study begins with a 24 h ambulatory blood pressure monitoring and 24 h urine collection. On the following morning, the volunteer stays at the study center for a day. During the first study day (acute phase), serial blood and urine collections and two renal BOLD-MRIs before and after the oral administration of empagliflozin 10 mg will be done. At completion of the study day, the volunteer leaves the center and takes a pill of placebo or empagliflozin each day for 28–30 days (depending on the availability of research MRI resource and menstrual cycle for women). Women will be examined during the follicular phase of the cycle or during the first 7 days of the contraceptive pill.

The day before the intake of the study drug (placebo or empagliflozin), the volunteer will undergo the same sequence of measurements during 2 days as described above (chronic phase). The overall study design is illustrated (Fig. 1) with detailed measurements at each visit (Table 1).

The inclusion and exclusion criteria are summarized below.

The goal of this study is to examine the acute and chronic effects of empagliflozin on variations of renal tissue oxygenation, blood pressure, biochemical and clinical parameters from baseline, in comparison with placebo.

The primary goal will test the hypothesis that SGLT-2 inhibition will improve renal oxygenation with a decrease of medullary R2*, as a marker of increased oxygenation. To determine the minimum sample size needed to make adequate testing of the effect, the sample computation was based on data available from the study by Pruijm et al. [19]. The mean (± SD) baseline medullary R2* in healthy subject was 29.3 (± 2.4). Assuming that the treatment will improve the oxygenation by 10%, the sample size required to demonstrate a significant effect with a power of 90% and an α type I error of 5% is 15 subjects per group. However we plan to randomize a total of 45 subjects: 15 in the placebo group and 30 subjects with empagliflozin. The power of the study to detect a significant difference between the placebo and treatment arm is then 97%.

One secondary goal will be to examine the influence of body weight on the renal response to empagliflozin. As hyperfiltration increases with increased BMI, we plan to examine three groups, namely normal weight, overweight, and obese individuals. This part of the study is completely exploratory. However, assuming that the treatment will improve the oxygenation by 2.5%, 5%, and 10%, respectively, in the normal weight, overweight, and obese groups, sample size calculation using a two-way analysis of variance (ANOVA) with the treatment (2 levels) as a row factor and the BMI groups (3 levels) as a column factor showed that a minimal sample size of 5 subjects by cell (total = 5 × 6 = 30) will be needed to show the treatment effect difference between the BMI groups with a power of 80% and an α type I error of 5%. The calculated sample size for the primary goal will then cover the secondary goal.

Because interindividual values of renal parameters may vary, we will also analyze the intraindividual variations of renal parameters compared to baseline values. We have performed similar studies in the past with serial measurements in the same subject exposed to different treatment phases [23, 24]. Although a small number of individuals were examined in these studies (n = 9–16), statistical significance was reached for the change in renal parameters. In addition, repeated measurements from the placebo group will examine the reproducibility of the method.

An announcement for recruitment is posted at the University Hospital Center (CHUV) in Lausanne, Switzerland and is visible on the web page of the institution. The study center is located in the Nephrology and Hypertension Service of the CHUV. After contacting the study nurse, volunteers receive an information sheet which includes detailed information on the study protocol, side effects, their symptoms, treatment, and preventive measures, and they are invited to an information visit. Then, a minimum of 48 h is requested before confirming their interest and planning the screening visit.

The screening visit begins after signing the written informed consent. Screening includes a complete medical history to confirm the participant’s eligibility as determined by the inclusion and exclusion criteria, a physical examination, a blood test, a urine dipstick, an OGTT, and a renal ultrasound. A decision as to the participant’s eligibility is taken as soon as all the results are available. One week to 2 months after the screening visit, the volunteer is included in the first day of the acute phase study (APJD-1) and a month later in the chronic phase study. At that time they also receive two bottles (day and night) for the 24 h urine collection and instructions to follow for the investigation days (APD-1, AP, CPD-1, CP) and a calendar to write down when they take the pills.

Randomization procedure is done by the hospital’s pharmacy the first day of the acute phase (APD-1). Empagliflozin 10 mg or placebo pills are identical in size and stored in similar boxes containing 30 pills.

The first pill of empagliflozin 10 mg or placebo is administered by the study team right after the first BOLD-MRI with a glass of water. The participant is instructed to take a pill each day at the same time until the last day of the study (between day 28 and 30). The participants are asked to write down on a calendar every day at what time they take the pill and any comment they may have. At each visit, the calendar and pill count are checked to confirm drug compliance. At the end of the study, the participants return the box and its unused product that will be destroyed on-site.

Volunteers undergo two examination phases: the acute phase (AP) and the chronic phase (CP).

Similar examinations are performed for the acute phase (AP: D-1, T-240, T0, T90, and T180) and the chronic phase (CP: D-1, T-240, T0, T90, T180). During the chronic phase evaluation, an additional renal ultrasound is performed as at screening.

D − 1 (day  − 1): volunteers visit the study center briefly at 8.30 a.m. to be equipped with the 24 h ambulatory blood pressure measurement Diasys device. Women have a pregnancy test. A renal ultrasound is performed at the chronic phase.

The rest of the day is spent routinely out of the center. Measurements include:

AP/CP following D − 1 (T − 240, T0, T90, T180):

All tests are repeated after 4 weeks of treatment with empagliflozin (chronic phase).

During the 4 weeks of treatment, volunteers have weekly telephone contacts with the research nurse in order to monitor the course of the treatment and identify side effects. Weekly intermediary visits are scheduled for blood pressure, weight measurements, and pill counts.

The last pill will be taken right after the CP T0 renal BOLD-MRI measurement.

All adverse events are reported and graded by the co-investigator physician in charge of the participant. All non-serious adverse events (AE) are recorded at each visit. Each volunteer carries a volunteer card indicating his randomization number, the name and number of the study, the name of the principal investigator, the name of the drug (empagliflozin or placebo), and the emergency phone number.

In case of serious adverse event (SAE), the volunteer will call the emergency number on the card and reach the nephrologist on duty. The nephrologist will decide if emergency management and suspending the treatment are necessary and inform the co-investigator in charge of the study as soon as possible. The co-investigator will evaluate the necessity of breaking the code. If breaking the code is necessary, the co-investigator will immediately inform the principal investigator who keeps the randomization code in one envelope per volunteer.

Monitoring is overseen by the clinical trial unit (CTU) according to a risk-adapted monitoring strategy described in a study-specific monitoring plan and according to standard operating procedures of the Lausanne CTU. Basically, a site initiation visit, routine monitoring visits, and a close-out visit will take place. The CTU’s role includes checking that all approvals are in place before the start of the trial, the quality, security, and observation of data protection law, ensuring the trial is conducted in accordance with the International Conference on Harmonisation (ICH) Good Clinical Practice (GCP), and controlling of the adherence to the study protocol.

Data analysis will be performed using Stata Software (StataCorp. 2015. Stata Statistical Software: Release 14. College Station, TX: StataCorp LP). Summary data will be presented as mean (± SD) for continuous variables and as numbers (percent) for categorical variables. To investigate the acute and chronic effects of the SGLT-2 inhibition on the improvement of renal oxygenation, the renal cortical and medullary R2*, as a marker of oxygenation will be assessed using a mixed-effect linear model. The variations of parameters during the study and the influence of clinical cofactors (age, sex, BMI, etc.) will be tested as well as the interactions between the BMI groups and treatment and phase. A level of significance less than 0.05 will be used in this study. An analysis of sensitivity to missing values will be performed. First, an intent-to-treat analysis including all patients will be performed. Secondly we will run multiple imputations using a Markov chain Monte Carlo single chain method based on patient baseline characteristics to create M imputed data sets. Analysis will be performed separately on each imputation m = 1, … , M and the results obtained from the M completed data analyses will be combined into a single multiple-imputation result which will be compared to results from no imputed data.

Data collected in the trial will be analyzed and submitted for publication as soon as possible. Data analysis will be exclusively performed by the authors of the study with their free interpretation.

MR images are acquired using one coronal slice on a 3-T whole-body MR system (Magnetom Prisma, Siemens Medical Systems, Erlangen, Germany), using previously described MR parameters (Pruijm, Plos ONE 2014). In brief, 12 T2*-weighted images are collected for the coronal slice within a single breath-hold of 12.4 s (in expiration) using a modified multi echo data image combination sequence (MEDIC) for BOLD analysis. This procedure is repeated 10 times.

All data are saved on CDs and stored in a secured place at the Nephrology and Hypertension Department of the study center. Images will be imported for further analysis in Matlab 7.11 (The MathWorks Inc., Natick, MA, USA) [27]. R2* maps will be calculated voxel by voxel using the linear least-squares fit of the logarithm of the signal. The 12-layer concentric objects method (TLCO) will be used to analyze the images. With this technique, an automatic algorithm divides the selected renal parenchyma of each coronal slice into 12 layers of equal thickness. By averaging the R2* values per layer of all four coronal slices, one obtains the mean R2* of each layer for the kidney. The mean R2* value of the outer three layers of the two kidneys will be used as a proxy of renal cortical oxygenation, and the mean R2* value of the inner (8th–10th) layers will be used to report medullary oxygenation. Renal blood flow in the main renal arteries will be measured using phase contrast MRI.

The research project is carried out in accordance with the research plan and the principles of the current version of the Declaration of Helsinki (DoH), the Essentials of Good Epidemiological Practice issued by Public Health Schweiz (EGEP), Swiss law, and Swiss regulatory authority requirements as applicable. The local ethics committee (EC) and regulatory authorities are informed about the project start and termination. The protocol was accepted by the local ethical committee (Commission cantonale d’éthique de la recherche sur l’être humain, protocol number CER-VD 2016-00099) and SwissMedics (no. 2016DR2171), the national drug regulation authority.

The participant receives written and oral information from the co-investigator physician before the screening visit. The participant has at least 48 h to think before planning the screening visit, if he is still interested in the study. He is invited to ask all questions that may arise before or at the screening visit. Then he is asked to sign the informed consent document. A copy of the signed document is given to the patient and the original placed in the investigator site file. The participant may withdraw from the trial at any time by revoking his consent without any reason.

Data collected in the trial will be analyzed and submitted for publication as soon as possible. Data analysis will be exclusively performed by the authors of the study with their free interpretation.