Initial treatment with a single capsule containing half-dose quadruple therapy versus standard-dose dual therapy in hypertensive patients (QUADUAL): statistical analysis plan for a randomized, blinded, crossover trial

Background

Combined antihypertensive therapy has obvious advantages over single drug therapy. Hypertension guidelines fully affirm the efficacy of dual combination in initial antihypertensive therapy. Recent studies have also pointed out that the quadruple combination of very low-dose antihypertensive drugs is superior to single drugs. However, whether low-dose quadruple therapy is better than dual combination is unknown.

Methods/design

A randomized double-blind crossover clinical trial will be conducted to compare the efficacy and safety of low-dose quadruple antihypertensives (irbesartan 75 mg + metoprolol 23.75 mg + amlodipine 2.5 mg + indapamide 1.25 mg) with standard-dose dual antihypertensives (irbesartan 150 mg + amlodipine 5 mg) in the initial treatment of patients with mild to moderate hypertension (140–179/90–109 mmHg). Ninety patients are required and will be recruited and randomly assigned in a 1:1 ratio to two crossover groups. Two groups will receive a different combination therapy for 4 weeks, then switch to the other combination therapy for 4 weeks, with a 2-week wash-out. Antihypertensive effects and related adverse effects of the two antihypertensive combination treatments will be compared. The primary outcome, i.e., mean 24-h systolic blood pressure in ambulatory blood pressure monitoring, will be assessed via linear mixed-effects model.

Discussion

This statistical analysis plan will be confirmed prior to blind review and data lock before un-blinding and is sought to increase the validity of the QUADUAL trial.

Trial registration

ClinicalTrials.gov, NCT05377203. Registered May 11, 2022, https://clinicaltrials.gov/study/NCT05377203.

Background and rationale

Hypertension is the most common cardio-cerebrovascular disease worldwide, with a significant population affected, substantial health risks, and a heavy economic burden [1,2,3,4]. However, the awareness, treatment, and control rates of hypertension remain suboptimal, with data from China indicating rates of only 50.0%, 38.1%, and 11.1%, respectively [5].

Current hypertension guidelines have recognized the efficacy of dual combination therapy as an initial antihypertensive treatment [1, 6,7,8,9,10,11]. However, hypertension involves multiple mechanisms [12, 13], and the goal of blood pressure control has become more stringent. As a result, dual combination therapy may not be sufficient to meet the needs of patients. Consequently, some researchers have explored the use of low-dose three-drug or four-drug combinations [14,15,16,17,18]. However, these studies employed monotherapy or placebo as controls, which are not consistent with current guidelines for initial hypertension treatment. Furthermore, these studies did not demonstrate whether low-dose multidrug (≥ 3) combinations were more effective than the current recommended dual combinations, and none of these studies included Chinese population. Therefore, this trial will be the first to investigate the effectiveness and safety of low-dose quadruple combination therapy compared to dual combination therapy in the Chinese population.

Objective

The objective is as follows: to evaluate and compare the efficacy and safety of half-dose quadruple therapy versus standard-dose dual therapy in the initial treatment of hypertensive patients with mild to moderate blood pressure (140–179/90–109 mmHg).

Trial design

This is a randomized, double-blind, two-agent, two-cycle, two-sequence crossover clinical trial, comparing the effectiveness and safety of low-dose quadruple antihypertensives (irbesartan 75 mg + metoprolol 23.75 mg + amlodipine 2.5 mg + indapamide 1.25 mg) with standard-dose dual drugs (irbesartan 150 mg + amlodipine 5 mg) in initial antihypertensive treatment in patients with mild to moderate hypertension (140–179/90–109 mmHg). We will enroll 90 patients in the Third Xiangya Hospital of Central South University. The design of this trial has been described in detail in our protocol for this trial [19]. This statistical analysis plan (SAP) was written following the guidelines for the content of statistical analysis plans in clinical trials [20].

Randomization and blinding

In this trial, stratified blocked randomization and individual random crossover will be adopted to minimize the influence of seasonal and temperature changes on the results, dividing participants into 2 crossover groups in a 1:1 ratio. Randomization and blinding will be established by an independent statistician.

Except for randomizing, blinding, and drug coding investigators, all others (including participants, clinical investigators, coordinators, clinical research associates, all members of the Clinical Endpoint Committee (CEC), data managers, statistical analysts, drug manufacturers, and administration) are blinded to patient grouping and drug assignment.

This trial will use two-time unblinding method. When the data file is confirmed and locked, the first unblinding will be performed, which only lists the group to which each case belongs for analysis (such as group A or group B). After the statistical analysis is complete, the second unblinding will be performed to determine which treatment option is used in the two groups.

Sample size

In the 2021 QUARTET study [18], the 1/4 dose quadruple combination (irbesartan 37.5 mg, amlodipine 1.25 mg, indapamide 0.625 mg, and bisoprolol 2.5 mg) further reduced systolic blood pressure (SBP) by 6.9 mmHg (95% CI 4.9–8.9) compared to single drug (irbesartan 150 mg), with an estimated standard deviation (SD) of 15 mmHg.

At the same time, based on the previous clinical observation results of the research group on low-dose quadruple combination and standard-dose dual combination, it is estimated that the difference in 24-h mean SBP reduction between the two groups is 6 mmHg, with an SD 15 mmHg. Power is set at 90% (beta = 0.1) and an acceptable risk of type I error is 5% (two-sided alpha level).

We use the following formula, which is specially for sample size calculation of cross-over design, [21] to calculate the total number:

The result is n = 66. And we also calculate the sample size via PASS 11.0 (Power Analysis & Sample Size, NCSS, LLC.) (for 2 × 2 cross-over design) with the result n = 68. Taking the larger one and considering 20% loss to follow-up, 85 participants are calculated, and considering the random factors of the block group, a final sample size of 90 participants with 45 in each crossover group is needed.

Data monitoring

This trial will establish an independent data monitoring committee (IDMC) to report to the clinical trial research center and ethics committee. The purpose of the IDMC is to protect the safety of the participants, ensure the validity of the data, and decide the timely termination of the trial when a significant benefit or risk is demonstrated or a successful conclusion is impossible. The IDMC will be responsible for assessing the safety of therapeutic interventions during the study period, thereby protecting the interests of patients, and for reviewing the overall conduct of the clinical trial.

Timing of final analysis

All outcomes will be analyzed collectively after data entry and data monitoring have been completed and the database has been cleaned and closed.

Statistical principles

Confidence intervals and P values

In this study, P < 0.05 will be considered statistically significant and 95% confidence interval will be reported if applicable.

Adherence and protocol deviations

Medication compliance = (total number of pills issued—number of pills recovered)/days of medication × 100%. Medication compliance will be demonstrated. Medication compliance of 80–120% will be considered as condition of per-protocol set (PPS).

Analysis populations

According to the principle of intention to treat (ITT), there are three analysis populations involved in this study: the full analysis set (FAS), PPS, and the safety set (SS). The definitions of each analysis set are given below:

FAS

All cases that do not violate the main inclusion/exclusion criteria, use the drug at least once after randomization, and have at least 1 post-dose efficacy evaluation data will be considered as the FAS for the analysis of efficacy. For those who do not complete treatment as planned, the last observation will be used as the final outcome (last observation carried forward, LOCF).

PPS

It is the subset of the FAS that is more compliant with the protocol. These participants are more adherent to the protocol. Individuals in the PPS are required to meet the following characteristics:

• Medication compliance is 80–120%;

• Treatment meets efficacy endpoints as protocol required, and the primary outcomes are measurable;

• No major violations of the protocol (including inclusion and exclusion criteria).

SS

All participants who use the drug at least once after randomization are part of this subset.

Trial population

All hypertensive patients who have never taken antihypertensive medications or have not taken antihypertensive medications in the past 1 month will be eligible and screened consecutively with inclusion and exclusion criteria in the department of cardiology at the Third Xiangya Hospital, Central South University. A Consolidated Standards of Reporting Trials (CONSORT) flow diagram (Fig. 1) will be produced according to CONSORT 2010 Statement [22].

Flow diagram of the QUADUAL trial. A Angiotensin receptor blocker (irbesartan 150 mg). B Beta-blocker (metoprolol 47.5 mg). C Calcium channel blocker (amlodipine 5 mg). D Diuretic (indapamide 2.5 mg)

Full size image

Demographic and baseline characteristics

Demographic and baseline characteristics will be descriptively tabulated and summarized for all subjects in FAS. For continuous variables, the mean and SD (normal distribution) or median and 25th/75th percentile (non-normal distribution) will be given. For categorical variables, the number and percentage of subjects will be given.

Analysis

Outcome definitions

Primary outcome

The primary outcome is established as the reduction in mean 24-h SBP by ambulatory blood pressure monitoring (ABPM) after 4 weeks of drug administration.

Secondary outcomes

• Mean daytime and nighttime SBP in ABPM, change from baseline

• 24-h, daytime, and nighttime mean diastolic blood pressure (DBP) in ABPM, change from baseline

• Morning BP surge in ABPM, change from baseline

• Office blood pressure measurement (OBPM), change from baseline

• Home blood pressure measurement (HBPM), change from baseline

• Heart rate, change from baseline

• Blood pressure control rate

Safety outcomes

The safety outcomes are as follows: adverse event (AE), serious adverse event (SAE), adverse drug reaction (ADR), and changes in biochemistry results and QT interval of the electrocardiogram from baseline.

Timings of outcome assessments are listed in Table 1. Blood pressure measurement methods (including ABPM, OBPM, and HBPM) were detailed in the previously published protocol [19]. For HBPM, 4–6 BP data will be recorded in “Patient Manual” by participants according to the agreement. The average of all the BPs for 1 day will be used as the BP value for that day. HBPM on the day before the follow-up visit will be used as the HBPM at the end of this period.

Criteria for blood pressure control

ABPM: 24-h average blood pressure < 130/80 mmHg; daytime average blood pressure < 135/85 mmHg; nighttime average blood pressure < 120/70 mmHg.

OBPM: SBP/DBP < 140/90 mmHg.

HBPM: SBP/DBP < 135/85 mmHg; time in target range (TTR) of HBPM = days meet target/days of medication × 100%.

Definition of baseline

This crossover trial includes three phases: treatment phase 1 (weeks 1–4), washout phase (weeks 5–6), and treatment phase 2 (weeks 6–10). The baselines of treatment phase 1 are defined as the results obtained from enrolment period, including all primary, secondary, and safety indicators. The baselines of treatment phase 2 are defined as the results obtained from the end of the washout phase (for ABMP, OBPM, and HBPM) and enrolment period (for the rest of the indicators).

Statistical hypothesis

For this exploratory study, the following hypotheses will be used for the primary outcome:

where \({\mu }_{T}\) is for the mean effect of half-dose quadruple therapy, and \({\mu }_{C}\) is for the mean effect of standard-dose dual therapy.

Analysis of primary outcome

PPS will be mainly used for analysis of primary outcome. Linear mixed-effects model will be used to analyze treatment effects, stage effects, and order effects (residual carryover effect) [23, 24]. In this model, treatment, group, and stage will be the fixed effects, baseline blood pressure will be the covariates, and subjects will be the random effects. The model is as follows:

where i is the group (2 crossover groups, 0 or 1), j is the number of stages (2 stages, 1 or 2), t is the drug (2 drugs, 0 and 1), and k represents the individual (90 subjects). Y_ijtk is the observed trial effect (mean SBP reduction in ABPM after 4 weeks of drug administration) for the k th subject in group i, at phase j, and with drug t. \(\mu\) is the overall mean effect, \({\gamma }_{i}\) is the fixed effect for group i, \({\pi }_{j}\) is the fixed effect for the j th stage, \({\sigma }_{t}\) is the fixed effect for the t th drug, \({S}_{k(t)}\) is the random effect for the k th subject with the t th drug, \({\varepsilon }_{\text{ijtk}}\) is the residual of Y_ijtk, or random error.

On the basis of the above model, baseline characteristics such as age, gender, nationality, time of hypertension, smoking, alcohol, body mass index, waistline, diabetes, and estimated glomerular filtration rate will be corrected to construct an adjusted model.

Analysis of secondary outcomes

PPS will be used for analysis of secondary outcomes. Measurement data (changes of blood pressure and pulse rate, TTR, etc.) will be analyzed using the linear mixed-effects model described above, and counting data (blood pressure control rate) will be analyzed using the paired chi-square test or Fisher’s exact probability methods.

Analysis of safety outcomes

SS will be used for analysis of safety outcomes.

The incidence of AEs, SAEs, and ADRs will be summarized by system and organ, counted in terms of number, severity, and relationship to each therapeutic drug, which will be compared between the two medications using chi-square tests or Fisher’s exact probability method.

Changes in biochemistry results and QT interval of the electrocardiogram will be analyzed using linear mixed-effects model. The incidence of concerned abnormal values (including hypokalemia; hyponatremia; serum creatinine, uric acid, urea, ALT, AST, TBL, DBL, blood glucose, QT and QTc elevated above the upper limit of normal (ULN), etc.) will be summarized and analyzed using chi-square test or Fisher’s exact probability method. Analysis methods for different outcomes are list in Table 2.

Sensitivity analysis

Sensitivity analysis will be conducted in the following situations:

• FAS for analysis of primary and secondary outcomes;

• Different ways of managing missing data for analysis of HBPM;

• Retention or exclusion of outliers if applicable.

Subgroup analysis

Subgroup analysis will be performed based on the following situation:

• Sex (male or female)

• Age (< 45 years or ≥ 45years, which is used to classify youth and middle age)

• Diabetes mellitus (with or without)

Handling of missing data

We will impute missing data of HBPM using LOCF method. Sensitivity analysis will use multiple imputation. For analyses of primary and remaining secondary outcomes, imputation will not be used.

Handling of outliers

Outliers, if applicable, will not be excluded while a sensitivity analysis will be conducted with or without outliers.

Statistical software

All statistical analyses will be performed by statistician using IBM SPSS Statistics Version 23 and RStudio 2023.06.0 + 421.

The trial was initiated on July 4, 2022, in the Third Xiangya Hospital of Central South University. The trial began enrolling on July 13, 2022, finished enrolling on April 20, 2023, and finished last participant’s last visit on July 4, 2023. Data entry is currently in progress. We anticipate blind review and database lock to be conducted by the end of August, 2023.

Version 1.0 (dated July 25, 2023) based on QUADUAL protocol (Version V1.0, dated April 8, 2022).

The datasets used and analyzed during the current study are available from the corresponding author on reasonable request.

ABPM:

Ambulatory blood pressure monitoring

ADR:

Adverse drug reaction

AE:

Adverse event

CEC:

Clinical endpoint committee

DBP:

Diastolic blood pressure

FAS:

Full analysis set

HBPM:

Home blood pressure measurement

IDMC:

Independent data monitoring committee

ITT:

Intention to treat

LOCF:

Last observation carried forward

OBPM:

Office blood pressure measurement

PPS:

Per-protocol set

SAE:

Serious adverse event

SAP:

Statistical analysis plan

SBP:

Systolic blood pressure

SD:

Standard deviation

SS:

Safety set

TTR:

Time in target range

ULN:

Upper limit of normal

The authors acknowledge Jie Xu (statistician) for giving suggestions to this SAP.

The study was supported by the Key Research and Development Program of Hunan Province (NO.2022SK2029) and the National Natural Science Foundation of China Projects (NO.81800271).

Authors and Affiliations

1. Department of Cardiology, The Third Xiangya Hospital of Central South University, 138 Tongzipo Road, Yuelu District, Changsha, 410013, Hunan, China

   Xiexiong Zhao, Tao Liu, Ye Chen, Miao Huang, Lin Zhao, Xiaogang Li & Weihong Jiang

2. Department of Epidemiology, XiangYa School of Public Health, Changsha, China

   Xingli Li

3. Center of Clinical Pharmacology, The Third Xiangya Hospital of Central South University, 138 Tongzipo Road, Yuelu District, Changsha, 410013, Hunan, China

   Guoping Yang

4. Department of Clinical Pharmacology, XiangYa School of Pharmaceutical Sciences, Changsha, China

   Guoping Yang

5. Hypertension Research Center of Hunan Province, Changsha, Hunan, China

   Weihong Jiang

Contributions

XXZ designed this trial and together with XLL wrote the first draft of the QUADUAL SAP. XLL also provided technical guidance of statistics and epidemiology. GPY provided guidance of study design and ethical consideration. TL, YC, MH, and LZ gave suggestions for revising the manuscript. XGL funded this trial and provided critical review of the manuscript. WHJ is the chief investigator, funded this trial, and provided critical review of the manuscript. All authors read and approved the final manuscript.

Corresponding authors

Correspondence to Xiaogang Li or Weihong Jiang.

Ethics approval and consent to participate

The study has been approved by the Institutional Review Board of the Third Xiangya Hospital of Central South University (R22023). All patients can voluntarily participate in and withdraw from the study. The purpose and method of the study will be informed in detail and the informed consent will be obtained. All investigators ensure the confidentiality of patient data.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

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