Voluntary Medical Male Circumcision Clinical Trial
Official title:
Reducing Provider Workload While Preserving Patient Safety: A 2-Way Texting Intervention in Zimbabwe's Voluntary Medical Male Circumcision Program
Voluntary medical male circumcision (VMMC) in sub-Saharan Africa is safe: the average rate of moderate and severe adverse events (AEs) at the country level is 0.8%, corresponding to 99% of men healing without incident. To reach the global target of 20 million by 2018, VMMC productivity needs to double in countries already plagued by severe healthcare worker shortages like Zimbabwe. The ZAZIC consortium partners with the Zimbabwe Ministry of Health and Child Care (MoHCC) and performed over 120,000 VMMCs. Current VMMC care in Zimbabwe requires in-person, follow-up visits at post-operative days 2,7, and 42. Over 95% adhere to multiple follow-up visits within 14 days of VMMC. ZAZIC's program has an overall AE rate of 0.4%; therefore, overstretched clinic staff conducted more than 200,000 unnecessary reviews for VMMC clients without complications. High mobile phone ownership, severe healthcare worker shortages, and rapid VMMC scale up make ZAZIC's VMMC program an ideal setting to test a mobile health (mHealth) intervention to reduce provider workload while safeguarding patient safety. Through an un-blinded, prospective, randomized, control trial (RCT) in high-volume facilities providing VMMC, ZAZIC will implement an interactive, two-way texting (2wT) intervention to identify men healing without complication, allowing them to decline routine in-person follow up visits. 2wT will simultaneously identify men with any sign of an adverse event, encouraging rapid in-person follow-up when an AE is suspected on any day, reducing unnecessary visits while maintaining quality care. We aim to 1) determine if 2wT can safely reduce VMMC follow-up visits; 2) estimate the cost savings associated with 2wT over routine VMMC follow-up; and 3) assess the acceptability and feasibility of 2wT for further scale-up. It is expected that this intervention with be as safe as routine care while providing distinct advantages in terms of efficiency, costs, and reduced healthcare worker burden. This approach is innovative as it focuses on using a low-cost mHealth intervention to reduce provider workload without deterioration in quality care. The success of this intervention could lead to adoption of this intervention at the national level, increasing efficiency of VMMC scale up and reducing burdens on providers and patients
The investigators propose to maintain patient safety while reducing the substantial VMMC
follow-up workload burden by using two-way mobile phone texts to provide in-person review
only for men who indicate a desire or need for follow-up. This tailored approach to
post-procedure VMMC care could reduce unnecessary visits and remove barriers for VMMC clients
without deterioration of quality care. ZAZIC's diverse, expert team of researchers from the
University of Washington, Seattle, USA; the University of Zimbabwe; Medic Mobile, Nairobi,
Kenya; and Zimbabwean partner organizations will test this mHealth intervention. The
investigators believe that bi-directional, interactive, text-based short message service
(SMS) during the most critical 14 days after circumcision will help men identify and act on
any sign of an adverse event, thereby seeking in-person follow-up only when an AE is
suspected and reducing unnecessary visits. Reduced in-person follow-up could also free
healthcare workers to perform additional VMMC surgeries. Using a prospective, randomized
control trial (RCT), our intervention compares two groups of clients with cell phones: 1)
standard care (control group) and 2) clients who receive and respond to a daily text with
in-person follow-up only if desired or if an AE is suspected (intervention). Both arms
complete a study-specific, Day 14, in-person, follow-up review for verification of
self-reports (intervention) and comparison (control). Our specific aims are to:
Aim 1: Determine if 2-way texting can safely reduce VMMC follow-up visits Approach:
Un-blinded, prospective, non-inferiority, RCT in high-volume facilities providing VMMC.
Two-way texting (2wT) will provide interactive, text-based follow-up. 2wT men healing without
complication could decline in-person follow-up; those with suspected AEs will be referred to
in-person care. The investigators will compare the safety outcome of combined moderate or
severe AE rate ≤ Day 14 post-VMMC and the workload outcome of average number of in-person
follow-up visits between control and intervention arms.
Aim 2: Estimate the cost savings associated with 2wT over routine VMMC follow-up Approach:
The investigators will determine the programmatic costs of 2wT from a systems perspective,
including the technology [24], healthcare worker costs, and client perspective. The
investigators will estimate the incremental intervention costs relative to standard practice
to quantify gains in healthcare efficiency for scale-up and adoption.
Aim 3: Assess the acceptability and feasibility of 2wT for further scale-up Approach:
Qualitative interviews with VMMC healthcare workers and brief quantitative interviews with
2wT clients inform intervention acceptance. Meetings with local researchers and collaborators
will further assess feasibility, adaptation, open-source collaborative development, and
system integration for replication and sustainability in Zimbabwe and the region.
APPROACH Study overview: Following usability testing with both healthcare workers and 2wT
VMMC clients, The investigators will test if two-way texting (2wT) reduces unnecessary
follow-up visits without compromising patient safety (Aim 1) using a randomized control trial
in large, urban VMMC clinics. The investigators will assess the costs of 2wT from technology,
healthcare worker, and client perspectives to determine the costs incurred by MoHCC if
adopted for scale-up (Aim 2). The investigators will assess acceptability and feasibility
working towards system integration and sustainability in Zimbabwe and beyond (Aim 3).
Aim 1: Technology overview: Studies that demonstrate the impacts of mHealth interventions too
often have evaluated technologies that are made 'from scratch' and as a result are not robust
enough to merit widespread replication [48, 74]. By partnering with a well-established
non-profit mHealth organization, Medic Mobile (http://medicmobile.org/), and integrating with
their existing software platform, open-source community and current efforts to integrate with
existing health information systems (HIS) throughout sub-Saharan Africa, our team and
proposed intervention are well positioned to scale up and sustain any promising results.
Since 2008, Medic Mobile has been a leader in the global mHealth community [75-77], equipping
more than 13,500 health workers serving over 8 million people across 23 countries. The Mobile
Medic Toolkit is an Android-based application that supports texting in any language and works
with or without internet connectivity on basic phones, smartphones, tablets, and computers
[78]. The existing, well-proven, app-based Toolkit that will be the basis for 2wT provides an
automated and prioritized list of upcoming tasks, guiding health worker through actions
(e.g., response waiting, referral). The Toolkit provides real-time progress indicators such
as texting delivery rates and response rates. Data from mobile users are replicated to Medic
Mobile web app and analytics tools for real-time response. The platform is highly
configurable, currently supporting evidence-backed workflows and program implementation
related to ensuring safe deliveries [79], tracking tuberculosis patients [80], boosting
immunization rates [81] and monitoring stocks of essential medicines [82]. These adaptable
tools are free, open-source, and developed using human-centered design with input from people
delivering care in the hardest-to-reach communities. While this technology has never been
used in a VMMC program and requires adaptation of the clinical content, the existing 2wT
software toolkit already contains the robust messaging features discussed in this proposal
(Figure 2). The software adaptation process to alter and test alternative clinical content
and the local specifications requires little additional software development. The adaptation
process will be completed by co-investigator, Holeman, with additional technical and training
support provided by Nairobi-based technical experts.
Study sites and population: In Zimbabwe, 81% of people already had mobile phone subscriptions
in 2014 [83], indicating that the technology infrastructure exists and uptake is high. 2wT
will be implemented in existing VMMC sites in the Chitungwiza District, a district
purposefully selected for its high VMMC volume clinic locations. Chitungwiza District, a
suburb of Harare, has an estimated 300,000 eligible, HIV-negative men ages 15-29; only 14% of
eligible men have been circumcised to date. The investigators will implement 2wT in up to 5
ZAZIC VMMC sites in Chitungwiza, sites averaging 50-200 VMMC/month. About 80% of VMMC clients
are surgical, rather than PrePex device-based, clients.
Study preparation: The investigators will conduct a rapid situation analysis with healthcare
workers, VMMC clients, and stakeholders to assess suitable responses to VMMC client texts,
setting standards for text responses and in-person follow-up. The investigators will modify
existing usability surveys for this public health context. A small pilot with 50 VMMC clients
will include usability testing with both 2wT clients and nurses implementing the 2wT system,
illuminating system experiences from both perspectives. Usability results will inform in-box
modification, message format preferences (SMS or WhatsApp) and optimal message delivery
(timing, frequency, language preferences). Experience from study coordinator and other team
members will add detail to inform 2wT adaptation and modification of Standard Operating
Procedures before implementation. The investigators will examine local infrastructure (e.g.
electricity and cell network), and explore 2wT cost reduction options (e.g., text bundling,
free-call back numbers) and adapt accordingly
Standard VMMC care (Control arm): ZAZIC follows all MoHCC protocols based on WHO guidelines
[20] including routine surgical VMMC follow-up on post-surgery days 2, 7 and 42 (Table 1).
Patients may seek care outside scheduled visits for suspicion of AEs at any healthcare
facility at any time but most often return to their VMMC site. Referral cards for VMMC
clients provide local numbers for patients to text, call, or request a call back for
emergencies. A standardized approach is used to assess, identify, and record the severity of
AEs [51]. All VMMC care, from assessment of all AEs through complete healing, is provided
free to clients from MoHCC. Clients who do not return to the clinic for follow-up on Day 2 or
Day 7 are traced: 3 attempts by phone and then up to 3 attempts at in-person tracking after
which they are considered lost to follow-up (LTFU) [52]. There is no tracing for Day 42
visits. For the purposes of this study, control arm VMMC clients will be asked to come in on
Day 14 for an additional follow-up visit. No active follow-up is provided at Day 14.
VMMC care procedures (2wT arm): The investigators will conduct a prospective, un-blinded,
randomized control trial (RCT) among VMMC clients in a 1:1 ratio of control to intervention.
Study participants and clinic staff are not masked to treatment. Men in the 2wT will receive
routine VMMC surgical care and counseling, including referral cards for emergencies. 2wT
clients will receive automated daily texts from days 1-14 (Table 1 and Figure 3). It is free
to receive call and texts; it costs $0.05 to send a SMS in Zimbabwe [84]. If they respond
that they suspect no adverse event, no immediate follow-up action will be taken. If a 2wT
VMMC client responds affirmatively to any daily text that he suspects an AE, a VMMC nurse
will exchange modifiable, scripted texts with the client to determine the symptoms,
frequency, and severity. Then, if deemed necessary, the client will be asked to return to
clinic the following day or earlier if an emergency is suspected. AE management will adhere
to MoHCC standard care. If 2wT patients do not respond to texts on Day 2 or Day 7, the same
MoHCC tracing process will be activated, after which they will be considered LTFU. All study
participants will be asked to come to the clinic for study-specific, Day 14 follow-up to
review healing and verify adverse event reporting. Day 14 was chosen for verification because
95% of all AEs within the ZAZIC VMMC program are reported Day 14 or earlier [50], suggesting
that most AEs have occurred by this time point. In a previous field study of AEs, the most
common AEs of bleeding and infection were found a mean of 6.7 and 9.0 days, respectively,
after VMMC [29], further supporting the 14 day period used in this and a previous study[5].
The Day 14 review will be conducted by routine VMMC providers according to MoHCC review
guidelines. At Day 42, The investigators will implement a brief text-based survey with 2wT
clients to ascertain complete healing, providing stronger inferences at study completion.
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