Authors' objectives: Healthcare-associated infections are a major cause of morbidity and mortality in critically ill children. In adults, data suggest the use of selective decontamination of the digestive tract may reduce the incidence of healthcare-associated infections. Selective decontamination of the digestive tract has not been evaluated in the paediatric intensive care unit population. To determine the feasibility of conducting a multicentre, cluster-randomised controlled trial in critically ill children comparing selective decontamination of the digestive tract with standard infection control. In critically ill children, healthcare-associated infections (HCAIs) are a major cause of morbidity and mortality, with a reported incidence of 7–14%. In this vulnerable population, contributing factors include the impact of critical illness on innate and adaptive immune responses, as well as the presence of invasive devices such as endotracheal tubes, urinary catheters and vascular lines. Evidence from adult intensive care studies suggests that using selective decontamination of the digestive tract (SDD) alongside standard infection control measures reduces mortality and ventilator-associated pneumonia (VAP). A recent meta-analysis of 32 randomised controlled trials (RCTs) including 24,389 participants suggests that use of SDD compared with standard care or placebo was associated with reduced hospital mortality, VAP and intensive care unit (ICU)-acquired bacteraemia. Selective decontamination of the digestive tract has not been compared directly with modern infection control protocols in the paediatric intensive care unit (PICU) population. Infection Control in Paediatric Intensive Care (PICnIC) was a feasibility study designed to determine whether it is possible to conduct a cluster RCT (cRCT) of SDD in critically ill children expected to require mechanical ventilation for over 48 hours, and to explore and test the acceptability of key components of the study to healthcare professionals and caregivers. The study involved a pilot cRCT with an integrated mixed-methods study. To test the ability to randomise PICUs to either control or intervention. To test the willingness and ability of healthcare professionals to screen and recruit eligible children. To estimate the recruitment rate of eligible children. To test adherence to the SDD protocol. To test the procedures for assessing and collecting selected clinical and ecological outcomes and for adverse event (AE) reporting. To assess the generalisability of the study results to all PICUs using the Paediatric Intensive Care Audit Network (PICANet). To explore parent and healthcare professional views on the acceptability of the proposed trial, including recruitment and consent procedures and patient-centred outcomes. To assess with input from PICU healthcare professionals: the acceptability of implementation of the SDD intervention, recruitment and consent procedures the acceptability of collecting data to assess the selected clinical and ecological data the acceptability of the SDD intervention and confirm interest in participation in a definitive trial in the wider PICU community. To review, explore and test with input from parents/guardians of recruited patients: the acceptability of a definitive trial that includes the SDD intervention the acceptability of the recruitment and consent procedures for the definitive trial, including all proposed information materials the selection of important, relevant, patient-centred primary and secondary outcomes for a definitive trial.

Authors' results and conclusions: A total of 368 children (85% of all those who were eligible) were enrolled in the PICnIC pilot cluster-randomised controlled trial across six paediatric intensive care units: 207 in the baseline phase (Period One) and 161 in the intervention period (Period Two). In sites delivering selective decontamination of the digestive tract, the majority (98%) of children received at least one dose of selective decontamination of the digestive tract, and of these, 68% commenced within the first 6 hours. Consent for the collection of additional swabs was low (44%), though data completeness for potential outcomes, including microbiology data from routine clinical swab testing, was excellent. Recruited children were representative of the wider paediatric intensive care unit population. Overall, 3.6 children/site/week were recruited compared with the potential recruitment rate for a definitive cluster-randomised controlled trial of 3 children/site/week, based on data from all UK paediatric intensive care units. The proposed trial, including consent and selective decontamination of the digestive tract, was acceptable to parents and staff with adaptations, including training to improve consent and communication, and adaptations to the administration protocol for the paste and ecology monitoring. Clinical outcomes that were considered important included duration of organ failure and hospital stay, healthcare-acquired infections and survival. PICnIC’s findings indicate that a definitive cluster-randomised controlled trial in selective decontamination of the digestive tract in paediatric intensive care units is feasible with the inclusion modifications, which would need to be included in a definitive cluster-randomised controlled trial to ensure that the efficiency of trial processes is maximised. As planned, six sites participated in the PICnIC pilot cRCT and were randomised in week 6. We confirmed the willingness and ability of healthcare professionals to screen and recruit eligible children. Sites recruited a total of 368 children (85% of all those who were eligible) across six sites: in Period One, 207 children were recruited (93% of those who were eligible), and in Period Two, 161 children were recruited (76% of those who were eligible). All intervention sites delivered SDD during week 12 onwards. We defined the recruitment rate of eligible children. Overall, 3.6 children/site/week were recruited (the recruitment rate for Period One was 4.3 children/site/week; for Period Two, this was 3.0 children/site/week), similar to the average pre-trial estimate of 3 children/site/week. The potential recruitment rate for a future definitive cRCT trial is 2.98 children/site/week, based on a potentially eligible population of 1730 children (national UK PICU data from PICANet) and the overall proportion of eligible children recruited (85%). We confirmed the ability of healthcare professionals to adhere to the SDD protocol. The majority of children eligible for inclusion were recruited in the intervention sites (55/57, 98%) and most (68%) received at least one dose of SDD treatment within the first 6 hours of enrolment. The median number of SDD doses administered per patient was 14 [interquartile range (IQR) 9–32] for the Oral Paste and 14 (IQR 9–32) for Gastric Suspension. The number of missed doses was low: 9.2% for the oral paste and 9.1% for the gastric suspension. Reasons included children being nil by mouth (29.5% and 31.1% for oral paste and gastric suspensions, respectively) and dose missed by clinicians (26.2% and 24.6%). We confirmed that procedures for assessing and collecting selected clinical and ecological outcomes and for AE reporting were adequate. Completeness of the ecology outcome measures was excellent in intervention sites (range between 97.6% and 100%) and very good in the usual care sites (range between 93.1% and 100%). Patient-centred potential outcomes measures had an excellent completion rate and were similar between groups with a range between 96.3% and 100%. Ecological outcomes had high completion rates and were similar between groups. Consent for the collection of additional samples for study-specific ecology monitoring were obtained in 162 patients (44% of those recruited). Over 30% of the recruited patients were deemed unable to approach for consent. We confirmed the generalisability of the study results to all PICUs using the PICANet. Children who were recruited to the PICnIC study were representative of similar potentially eligible patients in the study PICUs and all UK PICUs but were more likely to be male (62% vs. 56%) and with a primary diagnosis of infection (12.8% vs. 7%) when compared with all UK PICUs. A total of 65 parents (44 mothers, 21 fathers) completed the survey across five PICU pilot sites. Of these, 15 (23%) were approached when the child was in the intervention group, 24 (36%) in the control group, and 24 (36%) during ecology week (missing n = 2). Telephone interviews were conducted with 23 parents (7 of which also completed the survey), including 15 mothers (2 ecology week, 7 control and 6 intervention) and 8 fathers (1 ecology week, 4 control and 3 intervention) across five out of the six PICU pilot sites in the UK (3 intervention and 2 control sites). Parents were recruited via sites and 123 parents registered interest. Out of these, 39 were contacted to arrange an interview. Three were no longer interested, six said it was not a good time, and seven did not answer the phone or respond to e-mail. A total of 44 PICU staff completed the survey representing 11 UK PICUs. Of these, 36 (81%) were involved in the PICnIC pilot and were from other PICUs representing six units. Six focus groups with 26 staff were conducted, which was an additional four than originally planned to ensure staff from all PICnIC pilot sites had an opportunity to participate. Overall, the mixed-methods study showed that parents and practitioners found the proposed trial acceptable, but highlighted a number of areas that should be carefully considered when developing the trial protocol and staff site training. Issues with eligible children being missed were due to difficulties in staff knowing whether children would be ventilated for 48 hours, as per the inclusion criteria. Some sites screened more than once up until the 48-hour window, which increased the number of eligible patients identified. Staffing issues due to the pandemic and not remembering to rescreen after the point of admission impacted upon recruitment. Multiple studies recruiting at the same time, as well as difficulties processing samples in overstretched labs, appeared to exacerbate the issues. Staff described how missing data for additional samples was due to concerns about child discomfort, not wishing to broach taking swabs with parents when a child was critically ill, or staff capacity issues. Parents were less concerned about the additional samples, but many stated that consent should be sought prospectively for sample collection. Parents who declined consent for additional samples mentioned their child having gone through a lot and they did not want to add further distress. Having the option to decline certain aspects of trial involvement appeared to make the pilot trial more acceptable for parents. Most parents and staff supported the cRCT design and approach to consent, although any future information materials must make clear that a RWPC approach is being used. Although information leaflets were described as being clear, they were often not read by parents who prioritised discussions with staff. There appeared to be subtle differences in how staff described the nature of the intervention at sites administering SDD, which may have led to parental misconceptions, such as believing that their child would have received the intervention as standard practice outside of the trial. Many parents did not understand that units rather than children had been randomised, as cluster randomisation had not been explained by practitioners. Our findings highlight the need to develop training for recruiters on how to explain the nature of the proposed trial to assist parental understanding, including how whole PICUs are randomised to control or intervention, and the nature of the intervention including information about gut microbiota to address potential parental concerns and to help ensure informed decision-making. Parents’ top prioritised outcomes for the proposed trial were survival and health complications/AEs. Findings suggest that staff were in equipoise and the SDD intervention was acceptable to both parents and staff. Insight from site and wider PICU staff highlights challenges to consider in a definitive proposed trial including delivering the SDD due to the thickness of the paste, sufficient support and engagement of nurse research teams, and sufficient time for trial set-up to help improve trial acceptability and ultimately trial success. Insight from parents and PICU staff suggests the proposed trial, SDD intervention and approach to consent was acceptable. Issues such as staff capacity, missed eligible patients and additional sample collection, and parental misunderstandings about the nature of the study were identified. Staff training on recruitment and consent processes is required in any future trial, as well as adaptations on ecology monitoring and dosing regimen of the paste, which should be incorporated into the study design. Patient outcomes for the proposed trial should include complications such as healthcare-acquired infections and antimicrobial use, as well as standard organ failure outcomes such as the need for mechanical ventilation and duration of PICU stay.

Authors' recommendations: A definitive clinical trial for the use of SDD-enhanced infection control using the current PICnIC protocol should not be conducted. A definitive clinical trial for the use of SDD-enhanced infection control using a modified protocol should be conducted. Further work is needed to agree the appropriate measures to monitor ecology in a definitive trial.

Authors' methods: Parallel-group pilot cluster-randomised controlled trial with an integrated mixed-methods study. Six paediatric intensive care units in England. Children (> 37 weeks corrected gestational age, up to 16 years) requiring mechanical ventilation expected to last for at least 48 hours were eligible for the PICnIC pilot cluster-randomised controlled trial. During the ecology periods, all children admitted to the paediatric intensive care units were eligible. Parents/legal guardians of recruited patients and healthcare professionals working in paediatric intensive care units were eligible for inclusion in the mixed-methods study. The interventions in the PICnIC pilot cluster-randomised controlled trial included administration of selective decontamination of the digestive tract as oro-pharyngeal paste and as a suspension given by enteric tube during the period of mechanical ventilation. The decision as to whether a definitive cluster-randomised controlled trial is feasible is based on multiple outcomes, including (but not limited to): (1) willingness and ability to recruit eligible patients; (2) adherence to the selective decontamination of the digestive tract intervention; (3) acceptability of the definitive cluster-randomised controlled trial; (4) estimation of recruitment rate; and (5) understanding of potential clinical and ecological outcome measures. The delivery of the pilot cluster-randomised controlled trial was disrupted by the COVID-19 pandemic, which led to slow set-up of sites, and a lack of face-to face training. Study design Multicentre pilot cRCT. Study design This was a mixed-methods study, which employed questionnaires and interviews with parents/legal representatives of children involved in the pilot cRCT and focus groups, as well as an online survey with PICU practitioners (involved in the pilot cRCT and wider UK PICU).

Project Status: Completed

URL for project: https://www.journalslibrary.nihr.ac.uk/programmes/hta/16/152/01

Year Published: 2024

URL for published report: https://www.journalslibrary.nihr.ac.uk/hta/HDKV1008

URL for additional information: English

English language abstract: An English language summary is available

Publication Type: Full HTA

Country: England, United Kingdom

DOI: 10.3310/HDKV1008

Organisation Name: NIHR Health Technology Assessment programme

Contact Address: NIHR Journals Library, National Institute for Health and Care Research, Evaluation, Trials and Studies Coordinating Centre, Alpha House, University of Southampton Science Park, Southampton SO16 7NS, UK

Contact Name: journals.library@nihr.ac.uk

Contact Email: journals.library@nihr.ac.uk