By introducing pulse oximetry, with or without clinical decision support algorithms, to primary care facilities in India, Kenya, Senegal and Tanzania, the Tools for Integrated Management of Childhood Illness (TIMCI) project aims to contribute to reducing morbidity and mortality for sick children under-five while supporting the rational and efficient use of diagnostics and medicines by healthcare providers. The multi-country, multi-method evaluation aims to generate evidence on the health and quality of care impact, operational priorities, cost and cost-effectiveness of introducing these tools to facilitate national and international decision-making on scale-up.
This registry entry describes the pragmatic cluster randomised controlled trials (RCTs) conducted in India and Tanzania. In Kenya and Senegal, quasi-experimental pre-post studies are conducted (NCT05065320). These studies evaluating health, clinical and quality of care impact are complemented by embedded multi-method studies in all countries, including modified Service Provision Assessments, facility-based process mapping and time-flow studies, in-depth interviews (IDIs) with caregivers and healthcare providers, online key stakeholder surveys, routine data review, and an economic evaluation. We enrol sick children 0 to 59 months of age attending government primary care facilities a pragmatic parallel group, superiority cluster randomised controlled trial (RCT). Primary care facilities randomly are allocated (1:1) in India to pulse oximetry or control, and (1:1:1) in Tanzania to pulse oximetry plus CDSA, pulse oximetry, or control. Interventions are implemented with a package of training on the use of devices and refresher IMCI, supportive supervision, operational support and community engagement. IMCI refresher training is provided to all arms. Providers at intervention facilities are provided with handheld, UNICEF-approved, pulse oximeters along with guidance and training in line with government-approved criteria. In Tanzania, healthcare providers are advised to measure oxygen saturation (SpO2) on all children under 2 months of age, all children 2 to 59 months of age with cough or difficulty breathing or with signs of moderate or severe disease based on Integrated Management of Childhood Illness (IMCI); in India, healthcare providers are advised to measure oxygen saturation for all sick children. Providers are advised to urgently refer children with SpO2 \<90%. The tablet-based CDSA provides step-by-step support to healthcare providers through consultations, providing national guideline-based recommendations on assessment, diagnosis and treatment based tailored to the individual child based on information entered by the provider. Following training, providers are advised to use CDSA for all consultations with sick children under 5 years of age. Sociodemographic and clinical data are collected from caregivers and records of enrolled sick children at study facilities, with phone follow-up on Day 7 and Day 28. Two primary outcomes are assessed for the RCT: severe complications by Day 7 (mortality and 'secondary hospitalisations' i.e. delayed ≥24 hours from the Day 0 consultation, or without referral); and 'primary' hospitalisations (within 24hrs the Day 0 consultation and with referral). Secondary outcomes for the RCT, relating to hypoxaemia, referral, antimicrobial prescription, follow-up, health status, are further detailed in the attached full protocol and statistical analysis plan available. The RCT sample size was estimated based on planned enrolment over 12 months and ability to detect a ≥30% decrease in severe complications (from 1.1%22) and ≥30% increase in primary hospitalisations (from 1.5%, based on facility estimates) for each arm compared to control with 80% power, 0.05 alpha per arm, and intra-cluster correlation coefficient (ICC) of 0.00147. Anticipated feasible enrolment rates were based on DHIS2 and facility data. In Tanzania, 22 clusters per arm, each recruiting an average of 1680 children, were estimated to be needed (total 110,880). In India, 40 clusters per arm, each recruiting an average of 510 children, were estimated to be needed (total 40,800). Study approval has been granted by all relevant institutional review boards, national and WHO ethical review committees. Findings will be shared with communities, healthcare providers, Ministries of Health and other local, national and international stakeholders to facilitate evidence-based decision-making on scale-up.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
SINGLE
Enrollment
167,517
Pulse oximeters are a non-invasive, accurate and easy to use method of evaluating blood oxygen saturation
Tablet-based clinical decision support algorithms, based on guidelines for the assessment and management of sick children under 5 years of age at primary care
Bukemba
Kaliua, Tanzania
Igombe 60
Kaliua, Tanzania
Imalamihayo
Kaliua, Tanzania
Kazaroho
Kaliua, Tanzania
Seleli
Kaliua, Tanzania
Ulyankulu
Kaliua, Tanzania
Uyowa
Kaliua, Tanzania
Igalagalilo
Sengerema, Tanzania
Kagunga
Sengerema, Tanzania
Kamanga
Sengerema, Tanzania
...and 17 more locations
Proportion of children with a severe complication (death or secondary hospitalisation) by Day 7
Secondary hospitalisation refers to any delayed hospitalisation (occurring at any point greater than 24 hours after Day 0 consultation) and any hospitalisation occurring without referral. The denominator is all enrolled children.
Time frame: From enrolment up to 7 days after
Proportion of children admitted to hospital within 24 hours of the Day 0 primary care consultation and as a result of a referral
This is used as a proxy for 'appropriate referral' of children, as those with severe disease should generally be admitted to hospital. The denominator for this outcomes is all children enrolled in the study, rather than only referred children. This is because the proportion of referred children that are admitted may be high in routine care, in the context of an inappropriately low referral rate. The aim of the intervention is therefore to increase the overall referral rate of children with severe disease. Hospital admission is chosen as the proxy of severe disease rather than using primary care classification of severe disease, as there are inadequacies in the classification of severe disease in routine practice. A child will be considered admitted to hospital 24hrs of Day0 consultation if the date of hospitalization is the same as Day0 date or is one day after Day0 date.
Time frame: From enrolment up to 1 day after
Proportion of children with severe complication (death or secondary hospitalisation) by Day 28
Secondary hospitalisation refers to any delayed hospitalisation (occurring at any point greater than 24 hours after Day 0 consultation) and any hospitalisation occurring without referral. The denominator is all enrolled children.
Time frame: From enrolment up to 28 days after
Proportion of children cured (defined as caregiver reported recovery from illness) by Day 7
The denominator will be all children recruited. A window of +3 days from Day 7 is considered.
Time frame: From enrolment up to 10 days after
Proportion of children referred by a primary care healthcare provider to a higher level of care (either to a hospital or to an inpatient part of a larger primary healthcare facility) at Day 0 consultation
The denominator will be all children recruited. Only urgent referrals will be considered.
Time frame: At time of enrolment
Proportion of children who completed referral, as reported at day 7 follow-up
Only urgent referrals will be considered. A referral will be considered completed if a child attended a hospital, whether was admitted or not. A window of +3 days from Day 7 is considered.
Time frame: From enrolment up to 10 days after
Proportion of children with non-severe disease referred to a higher level of care on Day 0
Only urgent referrals will be considered. Only urgent referrals will be considered.
Time frame: At time of enrolment
Average length of stay (in days) of children admitted to hospital
If a child is hospitalised twice, the first hospitalization will be used and second hospitalizations will be reported separately. The denominator will be all hospitalised children. This is not a time-to-event measure, as it will be analysed as a continuous variable.
Time frame: From hospital admission to discharge
Proportion of children prescribed an antibiotic at Day 0
Only antibacterials for systemic use will be taken into account for the definition of antibiotics. All children recruited will be counted in the denominator.
Time frame: At time of enrolment
Proportion of children prescribed a diagnosis-appropriate antibiotic
Appropriateness of antibiotic prescription in relation to diagnosis will be evaluated as: * diagnosis for which a systemic antibiotic was indicated and a systemic antibiotic was prescribed * diagnosis for which a systemic antibiotic was not indicated and systemic antibiotic was prescribed * first-line (or second-line) antibiotics were prescribed according to recommendations for IMCI diagnoses for which specific antibiotic(s)are indicated Diagnoses will be classified according to whether systemic antibiotics are indicated, based on IMCI and other relevant national guidelines as used for the CDSA.
Time frame: At time of enrolment
Proportion of febrile children tested for malaria at Day 0
A child will be considered to be febrile if history of fever was reported by the caregiver before the consultation or temperature was recorded to be above or equal 37.5 C°. Only febrile children will be counted in the denominator.
Time frame: At time of enrolment
Proportion of malaria positive children prescribed an antimalarial
Only children with a positive malaria test result will be counted in the denominator.
Time frame: At time of enrolment
Proportion of malaria negative children prescribed an antimalarial
Only children with a negative malaria test result will be counted in the denominator.
Time frame: At time of enrolment
Proportion of untested children prescribed an antimalarial
Only children untested for malaria will be counted in the denominator.
Time frame: At time of enrolment
Proportion of children with severe, moderate and mild hypoxaemia, adjusted for sites at high altitude
The following SpO2 values ranges will be used: SpO2 \< 90%, 90% ≤ SpO2 \< 92% and 92% ≤ SpO2 \< 94%. All children recruited will be in the denominator.
Time frame: At time of enrolment
Proportion of children with hypoxaemia (according to differing cut-offs) with severe complication
The following SpO2 values ranges will be used: SpO2 \< 90%, 90% ≤ SpO2 \< 92% and 92% ≤ SpO2 \< 94%, spurious values and missing values. Each SpO2 group will be the denominator of each proportion.
Time frame: At time of enrolment
Proportion of children with severe hypoxaemia not meeting any other clinical criteria for severe disease
Country's specific cut-off for severe hypoxaemia will be used. All children recruited will be in the denominator.
Time frame: At time of enrolment
Proportion of children referred with hypoxaemia who receive oxygen at hospital
All children recruited will be in the denominator. Referral and hypoxaemia are assessed at Day0 consultation. Oxygen use at hospital is only available for hospitalised children from hospital records. At the time of enrolment hypoxaemia is measured and referral advise might be issued. Whether the child received oxygen or not at hospital is evaluated based on hospital registry and it refers to oxygen given at arrival to hospital. The specified time frame takes into account that the outcome is evaluated considering information recorded at different time points.
Time frame: At time of enrolment and at time of hospitalization
Proportion of children attending scheduled follow-up at the same facility by Day 7
All children recruited will be in the denominator.
Time frame: From enrolment up to 7 days after
Proportion of children presenting for unscheduled follow-up to any health facility by Day 7
All children recruited will be in the denominator.
Time frame: From enrolment up to 7 days after
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