Protocol for a randomised trial of early kangaroo mother care compared to standard care on survival of pre-stabilised preterm neonates in the Gambia (eKMC)

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Study Justification:
– Complications of preterm birth cause more than 1 million deaths each year, with a high mortality rate within the first day after birth.
– Kangaroo mother care (KMC), which involves continuous skin-to-skin contact between the mother and preterm neonate, has been shown to reduce mortality by 36-51% compared to incubator care.
– However, the mortality effect of starting continuous KMC before stabilisation is not well understood and is a priority evidence gap.
– The eKMC trial aims to investigate the mortality effect of early continuous KMC in pre-stabilised preterm neonates, as well as understand mechanisms, particularly for infection prevention.
Highlights:
– The eKMC trial is a single-site, non-blinded, individually randomised, controlled trial conducted in The Gambia.
– It compares two parallel groups: one receiving early continuous KMC within 24 hours of admission, and the other receiving standard care with intermittent or continuous KMC when clinically stable after 24 hours of admission.
– The trial includes 392 hospitalised preterm neonates weighing less than 2000g and aged 1-24 hours at screening.
– Primary outcome is all-cause neonatal mortality by age 28 days, and secondary outcomes include time to death, cardio-respiratory stability, hypothermia, exclusive breastfeeding at discharge, weight gain, infection rates, and duration of hospital stay.
– Intention-to-treat analysis will be applied for all outcomes, adjusting for twin gestation.
Recommendations for Lay Reader and Policy Maker:
– The eKMC trial aims to provide evidence on the effectiveness of early continuous KMC in reducing mortality among pre-stabilised preterm neonates.
– If the trial shows a significant reduction in mortality, it would support the implementation of early continuous KMC as a standard care practice for preterm neonates.
– The trial also aims to understand the mechanisms of infection prevention associated with KMC, which could inform strategies to reduce infection rates in neonatal care.
– The findings of the eKMC trial will contribute to the global evidence base and provide insights into the safety and benefits of using continuous KMC for the most vulnerable neonatal population.
Key Role Players:
– Trained study personnel, including clinicians, nurses, and researchers, who will conduct the trial procedures and collect data.
– Caregivers of the preterm neonates, who will provide consent for participation and the intervention.
– The trial monitors, who will ensure compliance with the study protocol and ICH-GCP standards.
– The Data Safety Monitoring Board (DSMB), which will monitor recruitment, progress, and safety throughout the trial.
– The Trial Steering Committee (TSC), which will make the final decision on study continuation based on recommendations from the DSMB.
Cost Items for Planning Recommendations:
– Personnel training and salaries for study personnel.
– Equipment and supplies for data collection, including pulse oximeters, thermometers, scales, and swabs.
– Laboratory processing and analysis of biological samples.
– Monitoring and auditing activities.
– Travel expenses for participants and reimbursement of caregivers’ expenses.
– Administrative and logistical support.
– Publication and dissemination of trial results.
Please note that the above cost items are general categories and not actual cost estimates.

The strength of evidence for this abstract is 8 out of 10.
The evidence in the abstract is strong because it describes a well-designed randomized controlled trial with clear objectives, methods, and outcomes. The trial is conducted in a single site, which may limit generalizability, but the study population is clearly defined and the sample size is appropriate. The primary outcome is all-cause neonatal mortality, which is a clinically important outcome. The secondary outcomes include relevant measures such as cardio-respiratory stability, hypothermia, exclusive breastfeeding, and infection rates. The trial is registered on ClinicalTrials.gov, which adds to its credibility. To improve the evidence, it would be helpful to include information on the statistical power calculation and the expected effect size for the primary outcome. Additionally, providing information on the blinding of outcome assessors and the handling of missing data would enhance the transparency of the study.

Background: Complications of preterm birth cause more than 1 million deaths each year, mostly within the first day after birth (47%) and before full post-natal stabilisation. Kangaroo mother care (KMC), provided as continuous skin-to-skin contact for 18 h per day to fully stabilised neonates ≤ 2000 g, reduces mortality by 36-51% at discharge or term-corrected age compared with incubator care. The mortality effect of starting continuous KMC before stabilisation is a priority evidence gap, which we aim to investigate in the eKMC trial, with a secondary aim of understanding mechanisms, particularly for infection prevention. Methods: We will conduct a single-site, non-blinded, individually randomised, controlled trial comparing two parallel groups to either early (within 24 h of admission) continuous KMC or standard care on incubator or radiant heater with KMC when clinically stable at > 24 h of admission. Eligible neonates (n = 392) are hospitalised singletons or twins < 2000 g and 1-24 h old at screening who are mild to moderately unstable as per a trial definition using cardio-respiratory parameters. Randomisation is stratified by weight category ( 24 h after admission. The unit of randomisation is the mother in a 1:1 ratio with twin participants randomised to the same arm. Recruitment began on 23 May 2018 and is ongoing at the neonatal unit of Edward Francis Small Teaching Hospital (EFSTH), the main neonatal referral unit in The Gambia, with research support from the MRC Unit of Gambia at London School of Hygiene & Tropical Medicine (MRCG at LSHTM). The Gambia is the smallest country in mainland Africa, with a population of 2.1 million, and it is ranked 174/189 on the Human Development Index (2017) [17]. Neonatal mortality declined from 49 to 26 per 1000 live births between 1990 and 2018, respectively [18], with 12–14% of Gambian neonates born preterm [1, 19] and 29% of neonatal deaths attributed to complications of prematurity [3]. A quarter (26%) of the 1400 annual neonatal admissions to EFSTH are due to prematurity [20], and the neonatal case fatality rate is 38%, with the highest rate (58%) occurring amongst neonates born < 1500 g [20]. Both in-born (born at the EFSTH maternity unit) and out-born (born at another health facility or home) neonates are admitted from a mixed rural/urban population. Neonatal care is typical of secondary level “neonatal special care” [21] and includes management in incubators or under radiant heaters, respiratory support via oxygen concentrators or continuous positive airway pressure (bubble-CPAP), phototherapy, feeding support via gastric tubes and intravenous (IV) fluids, caffeine or aminophylline, phenobarbitone and broad-spectrum antibiotics. Invasive ventilation, surfactant, IV fluid pumps and continuous cardio-respiratory monitoring are unavailable. Continuous KMC was implemented as standard care during the formative trial phase in September 2017. Intermittent KMC is provided for a minimum of 60 min at periodic intervals on the neonatal unit once the neonate is off respiratory support and establishing enteral feeds. Neonates  28 days The study population is hospitalised neonates < 2000 g and age 1–24 h old at the start of the screening who meet the trial definition of mild-moderate instability based on cardio-respiratory parameters and respiratory support provision (Fig. 2). eKMC trial definitions of cardio-respiratory instability and eligibility status. 1. Criteria for starting CPAP is a Silverman-Anderson score ≥ 4 that does not improve with oxygen therapy and the absence of the following: heart rate  1 h old. Weight is confirmed using a calibrated SECA™ 757 digital weighing scale, and source documents are checked for age and other study involvement. All potentially eligible neonates aged  3 h after the end of cardio-respiratory screening, stability is re-checked prior to consenting to avoid inadvertent recruitment of stable or severely unstable patients. Standard care under radiant heater or incubator is provided to all neonates during the screening period. Sensitisation activities with health workers, pregnant women and families are conducted at referral health facilities to support recruitment. Written, informed consent for participation and provision of continuous KMC (in event of randomisation to intervention arm) is sought from the first available caregiver at the study site within 24 h of admission by trained study personnel. The parent is the preferred person to provide informed consent, but other relatives may provide consent with parental informed consent being sought as soon as possible. Consent is requested in English with verbal translation into local languages using a pre-designated dictionary of definitions. Impartial witnesses are used to support the consenting process with caregivers who are unable to read or write English. Consent for obtaining and future use of paired maternal recto-vaginal and skin swab samples from the first KMC provider and mother (if different) is sought before any skin-to-skin contact occurs. An independent statistician generated a randomisation sequence using VBA (Visual Basic Application) within an Access database to produce two random number tables with stratification by admission weight categories ( 24 h since hospital admission. Participants then receive intermittent KMC on the neonatal unit and continuous KMC on the adjacent KMC unit (Fig. ​(Fig.44d). After their baseline stability data have been collected, all participants are transferred to a “trial area” within the neonatal unit containing four small beds, chairs, incubators, radiant heater and an oxygen concentrator. This area can accommodate 8–10 patients with twin participants sharing incubators. If a neonate subsequently becomes severely unstable (Fig. ​(Fig.2),2), the affected participants are transferred to the high dependency area and then follow the standard flow around the neonatal unit. Neonates are moved from “trial area” to the KMC unit once stability criteria are met (Fig. ​(Fig.2),2), full enteral feeds have been tolerated for the previous 12 h, no phototherapy is required and both a willing caregiver and KMC unit bed are available. If participants become unwell whilst on the KMC unit, they are re-admitted to the neonatal unit and follow the standard patient flow. Baseline anthropometric and clinical data are collected prior to randomisation with the exception of gestational age and length (within 48 h of recruitment) and socio-demographic data (within 28 days). The first available caregiver is sensitised at baseline for infection control, provision of KMC, clinical danger signs and when to call for help. All other routine and emergency treatments, including discharge, are provided according to a standardised preterm management protocol, based on pre-existing standard care at the study site and consistent with WHO guidelines. Compliance with the protocol is monitored prospectively by trial clinicians. Continuous monitoring of cardio-respiratory stability with a Nonin™ 2500A pulse oximeter occurs for a minimum 24 h of study participation, until stability is reached (Fig. ​(Fig.2).2). Direct nursing observation documents all details of the KMC provided, including the date and time of first KMC contact, relationship with the person providing KMC, KMC session frequency and duration, number of neonates receiving KMC from the same provider and the reason for not providing KMC. Structured study reviews occur with decreasing intensity as stability improves, with reviews every 6 h for the first 24 h, daily reviews whilst on the neonatal unit and weekly reviews during the KMC unit admission (Fig. ​(Fig.4).4). The final study review at 28 ± 5 days of age occurs at EFSTH, with home visits for non-attenders. Caregivers may withdraw from the study at any time. Data collected up to the point of the most recent follow-up within 28 ± 5 days of age will be included in the analyses. The primary outcome is all-cause mortality at age 28 days. Secondary outcomes include the following: The date and time of death is recorded as soon as possible using the death certificate as a source document for in-hospital deaths and according to the caregiver verbal report for out-of-hospital deaths. The Stability of Cardio-Respiratory in Preterm Infants (SCRIP) score is an objective measure of stability used in previous KMC trials [14, 22]. The score was modified for relevance to a pre-stabilised preterm population receiving oxygen (Additional file 2). Axillary temperature is measured with an electronic thermometer as the average of three consecutive values. Exclusive breast-feeding and use of formula milk are recorded prospectively by direct observation and questioning of caregiver at time of discharge. This gain is the difference in weight between baseline and day 28 ± 5 days, as measured on a calibrated study scale. In the absence of a standardised clinical definition for infection in preterm neonates, a two-step process is used to identify clinically suspected infection (Fig. ​(Fig.4a4a & b). The WHO’s Possible Serious Bacterial Infection (PSBI) criteria [23] were adapted to increase the relevance to a hospitalised preterm population receiving KMC (Fig. ​(Fig.4a).4a). If any aPSBI criteria are present, a clinician examines the baby for features of suspected infection [24] (Fig. ​(Fig.4b),4b), and blood ± cerebro-spinal fluid (CSF) cultures are obtained if these criteria are met. BACTEC Peds Plus™/F vials are inoculated with minimum 1 ml venous blood by study clinicians and processed as soon as possible within 24 h in an automated Bactec® 9050 BD machine at MRCG at LSHTM. Samples with positive signal undergo sub-culture as per standard culture methods, species identification by API 80 system and antibiotic susceptibility testing by disc diffusion according to CLSI 2017 guidelines. CSF samples are collected by study clinicians as soon as possible and in the absence of contra-indications. CSF is transported to MRCG laboratories at room temperature within 1 h of collection for routine microbiological and biochemical analysis. Isolation of clinically significant bacteria are recorded, with coagulase negative staph (CONS) and bacillus species predefined as non-pathogenic. A secondary analysis of the effect of KMC on confirmed (culture positive) infection is planned. Rectal swabs are taken with size appropriate FLOQ™ swabs and stored for batch microbiological processing. Additional paired maternal and/or caregiver-neonatal carriage flocked swab samples obtained at baseline, 7 days (neonatal) and 28 ± 5 days (neonatal) (Fig. ​(Fig.1)1) are stored for future microbiological and molecular processing. Time from study site admission to discharge is documented prospectively according to source documents for the first admission episode. This information indicates if a participant is discharged after 28 days of age. Adverse events (e.g., abnormal blood glucose, jaundice, apnoea) are observed in both arms as safety parameters. The number, proportion and reason for temporary withdrawal from the intervention arm is recorded. Weekly anthropometry (weight, length and head circumference) provides additional indicators of growth. Continuous heart rate and oxygen saturation measurements alongside 6-hourly aSCRIP scores (Additional file 2) are recorded for the first 24 h of study participation for a planned secondary analysis of cardio-respiratory stability. All study personnel are trained in ICH-GCP, study objectives and study-specific procedures, in addition to being trained in clinical newborn care and KMC. Socio-demographic, clinical and summary laboratory data are collected using the REDCap™ data entry system with built-in range and consistency checks. Length is obtained with a Seca210 measuring mat and head circumference with non-stretchable tape measures using triplicate measures and regular inter- and intra-observer standardisation checks with double-blind assessments against clinician assessment. Vital signs are measured over 10-min periods to generate mean values, using calibrated Nonin™ 2500A pulse oximeters for heart rate and oxygen saturation with manual recording of respiratory rate. Gestational age assessment is done by trained clinicians using the New Ballard [25] score with regular inter-observer variability monitoring. All biological samples are processed or stored (maximum -70 °C) at MRCG at LSHTM laboratories and biobank (ISO 15189 Accredited), including paired neonatal-caregiver carriage swab samples and invasive isolates intended for future exploration of infection mechanisms. Cardio-respiratory stability data from Nonin™ 2500A pulse oximeters is downloaded, analysed with NVision™ software and reconciled with the study database. The daily dose of KMC is automatically calculated before reconciliation with the study database. All data are securely stored on a MRCG central server or at the study site with restricted access. A non-identifiable unique study number for neonate and caregiver is used to maintain confidentiality for all data, including stored samples, with linkage of neonatal and caregiver identifications. A total of 392 subjects (1:1 ratio) is required to detect a 30% relative reduction in the primary outcome (power 80%, alpha = 0.05) with recruitment planned for 2 years. This number is based on an expected mortality rate of 48% [20], with adjustment for an estimated 15% reduction in mortality due to trial implementation. Loss to follow-up rates are expected to be low (< 3%) due to the restricted geographical area, co-ordination of follow-up with routine appointments and re-imbursement of travel expenses. A detailed statistical analysis plan will be made available at the trial registry before analysis commences. Analysis of all outcomes will be on an intention-to-treat basis. Since complete twin allocations account for an estimated 20% of the study population and are independent risk factors for mortality [26], adjustment for twin correlation will be undertaken using linear mixed effects models for continuous data and generalised estimating equations for binary data. Baseline characteristics will be presented by the allocation arm using descriptive statistics. Key indicators of standard hospital care received will be compared for both arms at baseline and during admission. The number and flow of subjects through screening, randomisation, allocation, follow-up and analysis will be documented, as per CONSORT 2010 guidelines [27], with reasons for exclusion, withdrawal and non-analysis being described (Fig. 5). Participants will be excluded from the final analysis if they have been permanently withdrawn. Trial flow diagram, as per CONSORT guidelines 2010 [27] The number of subjects with the primary outcome will be calculated for each arm and generalised estimating equations used to calculate risk ratios and the number needed to treat with confidence intervals. Analysis of secondary outcomes will be performed according to the type of data and using either number of subjects or person time as the denominator. Continuous variables will be compared between arms using random effects models, and categorical data with generalised estimating equations. Survival analysis of the time to death within first 28 days after birth will be performed using cox regression with frailty. In the event of multiple events for the same participant (e.g., infection), each episode will be considered an isolated event. Missing data are expected to be few and will be addressed with a complete case analysis. Sub-group analyses for all outcomes will be performed according to birth weight categories (< 1200 g; ≥ 1200 g) and multiple birth. Tests for effect modification by weight and multiple birth will be performed. The following will be calculated for both arms as indicators of adherence: mean chronological age at first KMC contact, mean time since admission at first KMC contact, daily dose of KMC (hours per study day) and average daily dose of in-patient KMC (per number of days admitted from enrolment). A sensitivity analysis of all outcomes will be performed according to average in-patient daily dose of KMC. Adverse events are any clinical event resulting in a change in management of the participant after enrolment and until age 28 days. Serious adverse events (SAE) are defined as death, life-threatening events (e.g., apnoea requiring bag-valve-mask ventilation, or severe instability), events carrying a risk of permanent or temporary disability (e.g., suspected meningitis), re-hospitalisation within 28 days of age and prolonged hospitalisation for ≥ 28 days. A local safety monitor, the sponsor and the trial monitors are informed of all SAEs within 24 h of the study team being aware with a detailed report sent within 2 working days for fatal and 5 days for a non-fatal SAE. All fatal SAEs are reported to the ethics committees monthly and within 7 days if related to the intervention. Non-fatal SAE’s are communicated to the ethics committees annually or within 14 days if related to the intervention. A Data Safety Monitoring Board (DSMB) receives a bi-monthly safety report with bi-annual meetings to monitor recruitment, progress and safety. DSMB members include the clinical trialist/statistician (chair), a neonatologist experienced in a similar setting, a West African clinical trialist and an independent statistician. An un-blinded interim analysis will be conducted after randomisation of 50% of target sample size with pre-specified stopping rules for efficacy, using the Haybittle-Peto rule [28, 29] and will inform recommendations to the Trial Steering Committee (TSC), who will make the final decision on study continuation. Study procedures and documents are monitored for compliance to ICH-GCP standards by MRCG monitors every 3–6 months, with auditing determined by the sponsor.

The innovation described in the article is the implementation of early kangaroo mother care (KMC) for pre-stabilized preterm neonates in The Gambia. KMC involves continuous skin-to-skin contact between the neonate and caregiver for 18 hours per day. This innovation aims to reduce neonatal mortality and improve outcomes for preterm infants. The study is a randomized controlled trial comparing early KMC to standard care with intermittent or continuous KMC when clinically stable. The primary outcome is all-cause neonatal mortality by age 28 days, and secondary outcomes include cardio-respiratory stability, hypothermia, exclusive breastfeeding, weight gain, infection rates, and duration of hospital stay. The study is ongoing and will contribute to the global evidence base on the effectiveness of KMC in preterm populations.
AI Innovations Description
The recommendation to improve access to maternal health based on the described protocol is to implement early kangaroo mother care (KMC) as a standard practice in neonatal units. Kangaroo mother care involves continuous skin-to-skin contact between the mother and the preterm neonate, providing numerous benefits including reduced mortality rates and improved infection prevention.

By starting continuous KMC within 24 hours of admission, the protocol aims to investigate the mortality effect of early KMC on pre-stabilized preterm neonates. The trial will compare two parallel groups, with one group receiving early continuous KMC and the other receiving standard care with intermittent or continuous KMC when clinically stable after 24 hours of admission.

Implementing early KMC as a standard practice can improve access to maternal health by providing a proven intervention that reduces neonatal mortality rates. This innovation can be implemented in neonatal units to ensure that all preterm neonates have access to the benefits of KMC, regardless of their stability. By promoting continuous skin-to-skin contact between the mother and neonate, this innovation can improve maternal-infant bonding, breastfeeding rates, and overall neonatal health outcomes.
AI Innovations Methodology
The eKMC trial aims to investigate the impact of early kangaroo mother care (KMC) on the survival of pre-stabilized preterm neonates in the Gambia. KMC, which involves continuous skin-to-skin contact between the neonate and caregiver, has been shown to reduce mortality in neonates weighing ≤2000 g. However, the mortality effect of starting continuous KMC before stabilization is still unknown. The trial will also explore the mechanisms of infection prevention associated with KMC.

The methodology of the trial involves a single-site, non-blinded, individually randomized controlled trial. Eligible neonates (n=392) are singletons or twins weighing 24 hours of admission. Randomization is stratified by weight category and twins are allocated to the same arm. Participants are followed up to 28 ± 5 days of age with regular inpatient assessments and criteria-led review in case of clinical deterioration.

The primary outcome of the trial is all-cause neonatal mortality by age 28 days. Secondary outcomes include time to death, cardio-respiratory stability, hypothermia, exclusive breastfeeding at discharge, weight gain at age 28 days, clinically suspected infection, intestinal carriage of extended-spectrum beta-lactamase producing Klebsiella pneumoniae, and duration of hospital stay. Intention-to-treat analysis will be applied for all outcomes, adjusting for twin gestation.

To simulate the impact of the recommendations on improving access to maternal health, a methodology could involve conducting a randomized controlled trial similar to the eKMC trial. The trial could compare the impact of implementing innovative interventions, such as telemedicine for remote prenatal care, community-based health worker programs, or mobile health applications for maternal health education, on improving access to maternal health services. The primary outcome could be the improvement in maternal health outcomes, such as reduction in maternal mortality or improvement in maternal health indicators. Secondary outcomes could include measures of access to care, such as the number of prenatal visits, utilization of skilled birth attendants, or access to emergency obstetric care. The trial could also assess the cost-effectiveness of the interventions and their scalability in different settings.

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