Type 2 diabetes (T2D), a major risk factor for cardiovascular disease and other adverse health conditions, is on the rise in Singapore. TRIPOD is a randomized controlled trial aimed to determine whether complementing usual care with an evidence-based diabetes management package (DMP) —comprising access to an evidence-based app, health coaching, pedometer, glucometer and weighing scale, with or without a financial rewards scheme (M-POWER rewards), can improve mean HbA1c levels at months 6 and 12.
Methods
The protocol was published in Trials, accessible via https://trialsjournal.biomedcentral.com/articles/10.1186/s13063-019-3749-x1. This manuscript updates the protocol with changes to the study design due to challenges with recruitment and presents baseline characteristics. Key updates include changing the arm allocation ratio from 1:1:1 (Arm 1-Usual Care: Arm 2-DMP: Arm 3-DMP+M-POWER rewards) to 10:1:10, the sample size from 339 to 269, the intervention period from two to one year, and the primary hypothesis to focus solely on differences between Usual Care and DMP+M-POWER rewards. Recruitment for the study began on 19 October 2019 and ended on 4 June 2022.
Results
The average age of participants was 55.0 (SD9.7) years old and 64.2% were male. The majority of participants (76.8%) were Chinese, 4.9% Malay and 18.3% Indian and of other ethnicities. 67.0% had a monthly household income of SGD$4000 or more. The mean baseline HbA1c was 8.10% (SD 0.95) and the mean body mass index was 26.8 kg/m2 (SD 5.3).
Discussion
The final participant completed month 12 follow-up data collection on 8 June 2023. All pre-planned analyses will be conducted and final results reported.
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Abkürzungen
BMI
Body mass index
CONSORT
Consolidated Standards of Reporting Trials
DCCT
Diabetes Control and Complications Trial
DMP
Diabetes management package
DSMB
Data and Safety Monitoring Board
HbA1c
Glycated haemoglobin
HDB
Housing and Development Board
ICER
Incremental cost-effectiveness ratio
JTC
Jurong Town Corporation
mHealth
Mobile health
MVPA
Moderate to Vigorous Physical Activity
NGSP
National Glycohemoglobin Standardization Program
NUS-IRB
National University of Singapore-Institutional Review Board
PARQ
Physical Activity Readiness Questionnaire
POCT
Point-Of-Care-Testing
SD
Standard deviation
T2D
Type 2 diabetes
TRIPOD
TRIal to slow the Progression Of Diabetes
Background
Type 2 diabetes (T2D), a major risk factor for cardiovascular disease and other adverse health conditions, is on the rise in Singapore. TRIPOD (TRIal to slow the Progression Of Diabetes) is a randomized controlled trial with the initial objective to determine whether complementing usual care with an evidence-based diabetes management package (DMP), comprising access to an evidence-based app, health coaching, pedometer, glucometer and weighing scale, with or without financial rewards (M-POWER rewards) can improve mean glycated haemoglobin (HbA1c) levels at Months 6 and 12 (primary endpoint) among individuals with T2D. Analyses of mean differences between groups for changes in weight, blood pressure, proportion of participants who progress to insulin, self-reported physical activity, weight monitoring, blood glucose monitoring, medication adherence, diabetes self-management, sleep quality, work productivity, daily activity impairment and health utility index were also proposed, as was quantifying the incremental cost-effectiveness ratios (ICERs) of each intervention arm. The original protocol was published in Trials on 28 Nov 2019, accessible via https://trialsjournal.biomedcentral.com/articles/10.1186/s13063-019-3749-x [1].
Methods
In the initial protocol, the plan was to recruit 339 adults with T2D using a 1:1:1 (Usual Care): diabetes management package (DMP): DMP+M-POWER rewards program (DMP + M-POWER rewards)] allocation across arms. However, due to challenges with meeting the monthly recruitment target, partly due to COVID-19, and in efforts to meet the primary study objectives given the overall budget, several changes were made to the protocol. Major changes, which were approved by the National University of Singapore (NUS)-Institutional Review Board (IRB) (Reference no. H-19-042), are listed below:
1.
The arm allocation ratio was reduced from 1:1:1 to 10 (Usual Care):1 (DMP):10 (DMP + M-POWER rewards) to allow for a reduction in the overall sample size from 339 to 269 participants, with at least 113 participants in each of the Usual Care and DMP + M-POWER rewards arms and 36 in the DMP alone arm. This sample size allows for detecting a mean HbA1c difference of 0.5% between the Usual Care and DMP + M-POWER rewards arms, with 80% power at 5% two-sided type I error rate assuming 20% attrition at 12 months. We removed a formal statistical test between DMP and the remaining arms. At the point when the change in allocation ratio was made, a total of 87 participants had been recruited — 30 participants were randomized into Arm 1, 27 participants to Arm 2 and 30 participants to Arm 3. Detailed changes to the primary analysis are described in Appendix 1.
2.
Our primary hypothesis was changed to focus on the largest expected difference only, which is the difference between Usual Care and DMP+M-POWER rewards arms. DMP participants will be used for the process evaluation only.
3.
All pre-planned primary and secondary hypotheses will be tested at months 6 and 12 only. Month 18 and 24 assessments were dropped.
4.
To increase enrolment, the sampling frame was extended from 11 referral sites managed by Singapore Health Services (SingHealth) to country wide. As a result, the stratification factor- diabetes centre - was updated from ‘Polyclinic’ and ‘Specialist Clinic’ to ‘Primary Care Sector’ and ‘Secondary Care Sector’ (i.e. patients who are under the care of specialists based at re-structured or private hospitals) respectively.
5.
To increase eligibility, two key changes were made: The window period for having an HbA1c test (an inclusion criterion) was extended from 3 to 6 months, and (2) we removed the conditionally eligible criterion [i.e. need for the requirement for a doctor’s approval note for participants who responded, “Yes” to any of the questions in the Physical Activity Readiness Questionnaire (PARQ)]. We instead added, “Currently on doctor’s advice against engaging in moderate-to-vigorous physical activity (i.e. brisk walking or more intense)” and, “Currently have a condition(s) that restricts engaging in moderate-to-vigorous physical activity (i.e. brisk walking or more intense)” to the exclusion criteria to ensure that participants would be fit to participate in the study. Other changes to inclusion, exclusion and withdrawal criteria are shown in Appendix 1.
6.
Venous HbA1c samples obtained were run on Roche C513 machine from 18 August 2020 onwards due to a switch by our vendor’s laboratory. The Siemens DCA Vantage® Analyser Point-Of-Care-Testing (POCT) machine was used for all participants recruited from 5 August 2021 onwards. This allowed for flexibility in scheduling participants for their study visits. Szablowski [2] found that the Siemens DCA Vantage® is as accurate as clinical lab HbA1c results. Both machines are standardized with the Diabetes Control and Complications Trial (DCCT) and National Glycohemoglobin Standardization Program (NGSP), respectively.
7.
Due to a technical issue with the Welch Allyn Spot Vital Signs 4200B machine, the Omron HEM 7130 Blood Pressure monitor was used for participants who were recruited and attended their follow-up visits between 25 Jan 2021 and 25 Aug 2022. We plan to adjust for the measurement source in the analyses.
8.
We had also encountered technical issues with the RxCap pill trackers and RxCap app. As a result, the issuing of the RxCap pill trackers was stopped and replaced with advice to use the Medisafe app® (Boston, Massachusetts, USA) [3] for tracking medication adherence.
9.
The requirement for extraction of medical records was removed and replaced with questions on healthcare utilization to the baseline, 6- and 12-month questionnaires.
10.
Changes to payouts for attending assessment sessions were made to reduce attrition. The payouts for attending the training session and completing the month 6 and month 12 assessments were increased from SGD$10 to SGD$30. The fairness payout for Arm 1 was reduced from $150 to $100 to ensure that those in the intervention arms would receive a higher payout. This resulted in the maximum cash compensation over 1 year to be $190 for those in Arm 1, $232 for those in Arm 2 and $678 for those in Arm 3. See Table 1 for revised payouts.
Table 1
Revised participant payouts
Type of payout
Condition
Payouts
Study Arm 1
(Usual Care)
Study Arm 2
(DMP)
Study Arm 3
(DMP + M-POWER rewards)
Attending training session
Attend the training session.
$30
$30
$30
Completing assessments
Complete assessments at months 6 and 12 within their respective window periods. This includes completing the follow-up questionnaire, providing photos of current diabetes medication (if any), and attending the follow-up assessments.
$30 per assessment
$30 per assessment
$30 per assessment
Incentives for app engagement
Successfully log data for weekly components:
1. Physical activity
2. Weight and blood glucose monitoring
3. Medication adherence
In the respective apps:
1. Fitbit2. Glycoleap for mPower
3. RxCap
At least once during the first Monday to Sunday (inclusive) of each month.
NA
$2 per app (Fitbit, Glycoleap, RxCap) per month
Max earnable $6 per month
(for a total of 3 apps)
$2 per app (Fitbit, Glycoleap, RxCap) per month
Max earnable $6 per month
(for a total of 3 apps)
M-POWER rewards
As per rewards scheme.
NA
NA
Max 516 M-Points
over 1 year
(1 M-Point = $1)
Fairness payout
Complete month 12 assessment within the window period.
$100 for entire study
(for not receiving DMP, incentives for data upload, and M-POWER rewards)
$70 for entire study
(for not receiving M-POWER rewards)
NA
Maximum cash compensation/rewards over 1 year
$190
$232
$678
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This manuscript conforms to the Consolidated Standards of Reporting Trials (CONSORT) [4] statement (see Additional file 1 and Fig. 1).
Fig. 1
CONSORT participant flow diagram at recruitment. MVPA, Moderate to Vigorous Physical Activity; DMP, diabetes management package; DMP+M-POWER rewards, diabetes management package with M-POWER rewards scheme
×
Results
One thousand four hundred seventeen individuals were assessed for eligibility. One thousand one hundred forty-eight were deemed ineligible for reasons noted in the CONSORT diagram shown in Fig. 1. On 4 June 2022, the 269th participant was recruited, with 117 randomized into Usual Care, 36 into DMP and 116 into DMP + M-POWER rewards, thus completing enrolment. The final participant completed the month 12 follow-up on 8 June 2023.
Baseline characteristics of participants are presented in Table 2. The mean age of participants was 55.0 (SD 9.7) years, and 64.2% were male. The majority of participants (76.8%) were Chinese, 4.9% were Malay and 18.3% were Indian or of other ethnicities. Most (77.6%) had post-secondary education with more than half (57.7%) working full time; 67.0% had a gross monthly household income of SGD$4000 or more with 88.2% staying in HDB/JTC flats with 4 rooms or higher. The mean BMI was 26.8kg/m2 (SD 5.3).
Table 2
Baseline characteristics
Population: modified intention-to-treat
Baseline (N = 246)
Characteristics
Usual Care (N= 110)
DMP* + M-POWER rewards (N= 105)
DMP* (N= 31)
Demographic characteristics
Age (years), mean (SD)
54.7 (9.77)
54.9 (10.05)
56.1 (8.38)
Male, n (%)
69 (62.7)
69 (65.7)
20 (64.5)
Ethnicity, n (%)
Chinese
87 (79.1)
78 (74.3)
24 (77.4)
Malay
4 (3.6)
5 (4.8)
3 (9.7)
Indian and others
19 (17.3)
22 (20.9)
4 (12.9)
Marital status, n (%)
Married
80 (72.7)
76 (72.4)
23 (74.2)
Education level, n (%)
Primary and below
1 (0.9)
0 (0)
0 (0)
Secondary and below
17 (15.5)
21 (20.0)
8 (25.8)
Higher than secondary
90 (81.8)
82 (78.1)
19 (61.3)
Other education levels
2 (1.8)
2 (1.9)
4 (12.9)
Employment status, n (%)
Working (full-time)
66 (60.0)
57 (54.3)
19 (61.3)
Working (part-time)
13 (11.8)
19 (18.1)
3 (9.7)
Homemaker, retired or not working
31 (28.2)
29 (27.6)
9 (29.0)
Household income, n (%)
< 2000 SGD
12 (10.9)
12 (11.5)
2 (6.5)
2000–3999 SGD
26 (23.6)
22 (21.2)
6 (19.4)
>= 4000 SGD
72 (65.5)
70 (67.3)
23 (74.2)
Housing type, n (%)
HDB 1–3 room
14 (12.7)
11 (10.5)
4 (12.9)
HDB 4 room or higher
96 (87.3)
94 (89.6)
27 (87.1)
Disease characteristics
HbA1c (%), mean (SD)
8.22 (0.96)
7.93 (0.82)
8.25 (1.23)
Low (≤ 9.2), n (%)
91 (82.7)
99 (94.3)
26 (83.9)
High (> 9.2), n (%)
19 (17.3)
6 (5.7)
5 (16.1)
Body mass index (kg/m2), mean (SD)
27.0 (5.00)
26.3 (5.57)
27.2 (5.57)
Body mass index, n (%)
< 18.5 kg/m2
1 (0.9)
4 (3.9)
1 (3.2)
18.5–22.9 kg/m2
28 (25.5)
25 (24.3)
4 (12.9)
23–27.4 kg/m2
28 (25.5)
39 (37.9)
14 (45.2)
>= 27.5 kg/m2
53 (48.2)
35 (34.0)
12 (38.7)
Systolic blood pressure (mmHg), mean (SD)
121.6 (14.0)
122.6 (13.4)
122.7 (10.4)
Diastolic blood pressure (mmHg), mean (SD)
75.6 (8.5)
76.7 (8.8)
77.3 (8.6)
*DMP diabetes management package
The mean HbA1c was 8.10% (SD 0.95) with a majority (78.0%) having an HbA1c of 7.5–11.0% at baseline; 21.1% had HbA1c that was less than 7.5% and only 0.81% had HbA1c that was more than 11.1%. These participants had a HbA1c of 7.5–11.0% at the point of taking the screener but had different values at the baseline visit, the latter of which is used for the primary analysis.
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Discussion
Recruitment for this multi-component three-arm randomized controlled trial was challenged not only by COVID-19, but also by several competing diabetes self-management studies at the referral sites, stringent eligibility criteria and high demands of trial participants. These challenges required revisiting the study aims and making some difficult decisions in efforts to meet the primary objectives of the study given the time and budget allocated. Ultimately, we decided to scale back the primary hypothesis to test for the largest difference expected, which was the difference between usual care and the effect of the diabetes management package cum rewards program (DMP+M-POWER rewards). If this difference is not confirmed then we would not expect to see differences of the DMP without the rewards program. If the difference is confirmed then a future study may be required to tease out the independent effect of the rewards program.
The same goes for scaling back the duration of the study to not include assessments beyond 12 months which reduced the burden on trial participants who would now only have to attend three study visits at Duke-NUS Medical School instead of five study visits and to use the apps only for one year instead of two years. If differences between usual care and DMP+M-POWER rewards are identified at twelve months, then future studies may be required to test for sustained effects. If differences are not identified, then it is unlikely that they would materialize after a longer duration. Process evaluations of the DMP and DMP+M-POWER rewards arms will provide additional insight into what is driving the results and the potential for sustainability.
The changes discussed above allowed for scaling back the sample size to a manageable number and reasonable timeline, especially after adjusting our enrolment criteria and increasing our publicity efforts through multiple channels. The use of the HbA1c POCT machine also allowed for increased flexibility to enrol participants who could only attend the baseline visit during non-working hours and conduct subsequent follow-up study visits.
The changes discussed above focused on increasing enrolment. Other changes were required to accommodate concerns with the intervention itself. This resulted from unexpected problems with the RxCap pill tracker and app where data was not systematically being captured and as a result not reflected on the M-POWER App. To accommodate this concern, we advised affected participants to use the Medisafe® medication adherence app® or to self-report their adherence data. Participants also encountered issues with syncing their Contour Plus One glucometer readings to the GlycoLeap app. As a result, participants were advised to manually enter their post-meal readings into the app. The M-point redemption function on the M-POWER app for Android users was also inconsistent, resulting in unclear receipts being sent for redemption. As a workaround, participants sent the receipts to the study coordinators who uploaded them on the participants’ behalf.
Conclusion
Despite the challenges noted above, the revised protocol will allow for meeting the primary research objectives within the timeframe and budget allotted. These changes are documented in this manuscript, along with baseline characteristics of the recruited sample. Final data collection at month 12 concluded in June 2023. All pre-planned analyses will be conducted and final results reported.
Acknowledgements
We thank Mr Ching Wee Lim for providing data support.
Data and safety monitoring
The Data and Safety Monitoring Board (DSMB) met on 5th July 2022 after recruitment had concluded on 4th June 2022 to review the study’s progress, including key baseline characteristics, protocol compliance, site performance, quality control, and timeliness and completeness of follow-up. The treatment level grouped safety data was also reviewed at a closed session with the DSMB recommending to continue the study without modifications.
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Trial status
The month 12 follow-up assessments have concluded.
Declarations
Ethics approval and consent to participate
All changes were approved by the National University of Singapore (NUS)-Institutional Review Board (IRB) (Reference no. H-19-042). Written or electronic informed consent was obtained from each participant prior to recruitment into the study.
Consent for publication
Not applicable.
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Competing interests
The authors declare that they have no competing interests.
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Protocol update and baseline characteristics for the TRIal to slow the Progression of Diabetes (TRIPOD) randomized controlled trial
verfasst von
Joann Bairavi Daphne Su-Lyn Gardner Ester Yeoh Kwang Wei Tham Mihir Gandhi Ngiap Chuan Tan Phong Ching Lee Robyn Su May Lim Thofique Adamjee Yin Bun Cheung Yong Mong Bee Eric Andrew Finkelstein
