Care bundles to improve enteral nutrition management in stroke patients: study protocol for a stepped wedge cluster randomised trial

Cong Wang; Shanshan Liu; Shiqi Jia; Cai Yan; Xue Zhang; Yuan liu; Liang Du; Yan Jiang

doi:10.1186/s13063-024-08645-1

. 2024 Nov 25;25:795. doi: 10.1186/s13063-024-08645-1

Care bundles to improve enteral nutrition management in stroke patients: study protocol for a stepped wedge cluster randomised trial

Cong Wang ^1,^2,³, Shanshan Liu ^3,⁴, Shiqi Jia ¹, Cai Yan ³, Xue Zhang ⁴, Yuan liu ⁴, Liang Du ², Yan Jiang ^3,^4,^✉

PMCID: PMC11587749 PMID: 39587615

Abstract

Background

Enteral nutrition for stroke patients in China presents major shortcomings. This aspect of care involves multiple components, and poor implementation of any one of them may affect the patients’ enteral nutrition. Most current studies only confirm the effectiveness of the application of single interventions and lack any scientific evaluation of the overall ensemble of enteral nutrition interventions in stroke patients. This study focuses on evaluating the overall effectiveness of a care bundles for the management of enteral nutrition in stroke patients by targeting multiple simultaneous interventions.

Methods

This study is to be conducted over 10 periods in the stroke patient wards of eight hospitals across China. As the trial progresses, each hospital begins by receiving the control group care and then shifts to the intervention group care. The point at which each hospital shifts care is randomised. During this time, the control group implements its usual care, while the intervention group implements an evidence-based care bundles for enteral nutrition management in stroke patients. The primary indicator in this study is feeding intolerance; indicators for the evaluation of nutritional status, gastrointestinal complications, and disease prognosis are also included.

Discussion

We anticipate that the care bundles developed by pooling this evidence will be manifestly more beneficial than harmful and will be worthy of replication. Hence, we chose a stepped wedge cluster randomised trial to validate the application of these interventions. This study will provide experience and reference on how to promote the clinical translation of evidence-based evidence and standardise enteral nutrition care management in stroke patients.

Trial registration

ChiCTR2300067930. Registered on January 31, 2023.

Supplementary Information

The online version contains supplementary material available at 10.1186/s13063-024-08645-1.

Keywords: Stroke, Enteral nutrition, Patient care bundles, Feeding intolerance, Stepped wedge cluster randomised trial

Background

Stroke is the leading cause of death and disability among Chinese adults, with an incidence rate (246.8 per 100,000) that far exceeds the global average (150.8 per 100,000) [1, 2]. The Chinese incidence rate is not only much higher than the global average but is also increasing by 8.7% per year [3]. Poststroke patients find themselves in a heightened state of exertion due to intense stress and face reduced nutritional intake due to impaired consciousness and swallowing, with malnutrition rates ranging from 6.1 to 62% [4]. Studies have shown that malnutrition increases the incidence of pneumonia in stroke patients, prolongs hospitalisation, and delays neurological and somatic recovery [5]. It also increases the risk of death [6]. Early enteral nutrition support can effectively reduce mortality, decrease the incidence of infectious complications, and shorten the length of hospital stay, making it the preferred form of nutrition support for stroke patients with surviving gastrointestinal tract function [7].

At present, there are major shortcomings in the practice of enteral nutrition care for stroke patients in China. A survey of 242 hospitals in China showed [8] that only 37.4% of hospitalised stroke patients were screened for swallowing function and only 46% underwent rehabilitation assessment. A recent survey study [9] indicate that the accuracy of nurse-led screening assessments for swallowing disorders is only 40%, and enteral nutrition measures is not reasonable, resulting in patients receiving only 50% of their recommended nutritional intake. Furthermore, the incidence of feeding intolerance can be as high as 75% [10]. Unreasonable enteral nutrition preparation, routes, implementation, and timing further increase the risk of complications such as aspiration, reflux, and pneumonia, thus potentially causing secondary harm to patients and seriously affecting their prognoses.

Enteral nutrition care for stroke patients involves multiple components, and poor implementation of care in any component may affect its outcome. Care bundles are a collection of evidence-based care measures that can integrate interventions targeting different factors, thus effectively improving the standardisation of implementation, optimising patient care, and improving outcomes [11]. Hawe et al. [12] showed that care bundles significantly increased the implementation rate of evidence-based measures and reduced patient complication rates by 39.1% relative to implementing interventions in isolation. There is emerging evidence supporting the effectiveness of various interventions in improving enteral nutrition in stroke patients, including dynamic monitoring of gastrointestinal function, post-pyloric feeding, and continuous feeding[13–15]. However, these validated interventions tend to target a single component and only confirm the effectiveness of its application, as they lack a scientific evaluation of the overall intervention for enteral nutrition in stroke patients and fail to provide a comprehensive reference for how to address the overall poor practice of enteral nutrition care in stroke patients in China.

Our project team has already scientifically compiled a set of Nursing practice guidelines for enteral nutrition in patients with stroke (hereinafter referred to as the “Guidelines”) under the authorisation of the Chinese Medical Association and the Chinese Nursing Association and the guidance of the Chinese Cochrane Center [16] and published the Guidelines jointly with these organisations. The Chinese Medical Association and the Chinese Nursing Association are the highest and most authoritative organisations in the field of medicine and nursing in China, respectively, which further confirms the Guidelines’ scientific and authoritative nature. This guideline is the first evidence-based nursing guideline for enteral nutrition in patients with stroke in China. It solves the problems of lack of evidence-based evidence support and inconformity with Chinese local cultural values caused by reference to other discipline-related guidelines in previous clinical work and provides targeted explanations on the ways or approaches of enteral nutrition, the selection of enteral nutrition formulations, and other nursing measures. This study draws on the Guidelines as the basis for the development of the care bundles for enteral nutrition management in stroke patients and aims to conduct a stepped wedge cluster randomised trial for validation, thus providing experience and a reference on how to promote clinical translation of the evidence of the guidelines and standardise enteral nutrition care management in stroke patients.

Methods

Aim and hypothesis

This study is aimed to evaluate the overall effectiveness of the care bundles for the management of enteral nutrition in stroke patients by targeting multiple simultaneous interventions. The primary hypothesis is that care bundles for the management of enteral nutrition can reduce feeding intolerance in stroke patients. The secondary hypothesis is that care bundles can reduce complications, improve nutritional status, and result in better recovery for stroke patients.

Trial design and study setting

This study is a multi-centre, stepped-wedge, cluster-based randomised controlled trial [17]. As shown in Fig. 1, as the trial progresses, each cluster starts by receiving the control group care and later receives the intervention group care, with the time point at which each cluster shifts care being randomised. The study is designed as a superiority trial and follows the stepped wedge design framework, ultimately achieving a 1:1 allocation ratio of all patients in different clusters between the control and intervention groups. Figure 2 provides a participant timeline of Standard Protocol Items: Recommendations for Interventional Trials (SPIRIT) chart [18].

Fig. 2 — SPIRIT chart of the enrolment, interventions, and assessments

The study is to be conducted in eight hospitals (clusters) in the Chinese cities of Chengdu, Deyang, Mianzhu, Luzhou, and Leshan for a duration of 10 periods (each period is about 2 months), which includes a 1-month training period. At the beginning, all hospitals are in the control period and receive the control group care. Starting from the second period, one hospital is randomly selected each month to enter the training period and is switched to the intervention period. By the last period of the study, all the hospitals are in the intervention period and have received the intervention group programme.

Participants

Study site eligibility and recruitment

Eight academic or general hospitals that meet the criteria are selected for inclusion in the study. The hospital criteria are as follows: (i) a tertiary hospital, (ii) a neurosurgery/stroke patient admission ward, (iii) at least 500 stroke patients managed in that ward per year, and (iv) a commitment from hospital administrators to cooperate with the study.

In the recruitment process, we first assess the study capacity, clinical conditions, number of stroke patients admitted, and current status of stroke patient management in each hospital by means of a questionnaire and then contact and invite hospitals with high study capacity that met the hospital criteria and with similar levels of stroke patient management to ensure that the potential interference factors of different centres during the study are as consistent as possible.

Patient eligibility and recruitment

Patients are included in all centres of this study based on the following criteria. The inclusion criteria are as follows: (i) age ≥ 18 years, (ii) diagnosis of stroke, (iii) need for enteral nutrition therapy, and (iv) volunteered to participate in this study. The exclusion criteria are as follows: (i) history of gastrointestinal diseases such as gastroparesis and gastric bleeding and (ii) contraindication of enteral nutrition fluid components. During the trial period, we include all stroke patients who meet the criteria in the neurosurgery department (or stroke patient admission ward) of the hospital.

Sample size

Incidence varies widely due to different definition criteria for feeding intolerance [19]. According to the definition of feeding intolerance in this study, the incidence of feeding intolerance in enteral nutrition stroke patients is 44.1% [10]. We believe that it is clinically meaningful and feasible for the incidence of feeding intolerance in patients to be less than 30% after the intervention, considering clinical experience and published literature [13, 20], according to the sample size calculation formula for stepped wedge cluster randomised trials [21]. We use the Shiny CRT Calculator [22] to calculate the total sample size as 1152 cases with the number of steps = 8, the number of clusters (per step) = 1, preset significance level (α) = 0.05, power (1 − β) = 0.9, and intracluster correlation coefficient (ICC) = 0.01, that is, the sample size of each cluster (hospital) is 144 cases, and 16 samples need to be included in each cluster (hospital) in each cycle. Considering the drop-out of research participants, we plan to include at least 17 samples in each cycle of each hospital (drop-out rate = 6.25%, that is 1/16); thus, the final sample size is 1224.

Randomisation

We will conduct a multi-centre stepped wedge cluster randomised controlled trial in this study. Firstly, eight tertiary general hospitals are selected through open recruitment. In the first period after recruitment, all hospitals begin the study simultaneously, starting with a control period. In the following period, then, a central computer randomisation process will be conducted by a statistics expert who is not part of this study, to determine which hospital will move to the intervention period. The interventions will be part of the care in the hospital until complement of this study. When one period slides on, the interventions will be randomly implemented in a new hospital. Namely, when periods slide on, randomisation process will be performed reduplicatively. In each hospital, there will be staff training that lasts for one month before the formal implementation of interventions. The study is not blind because of the complexity of the design and the intervention.

Interventions

Intervention period

We constructed the care bundles for enteral nutrition management in stroke patients based on the recommendations of the Guidelines and followed the Medical Research Council guidelines on complex interventions [23]. The care bundles include six core measures: (i) establish a nurse-led multidisciplinary stroke enteral nutrition management team, (ii) application of a quality management index system for enteral nutrition in stroke patients, (iii) formation of standardised feeding pathways and modalities (Fig. 3), (iv) establishment of an enteral nutrition monitoring scheme (Fig. 4), (v) provision of individualised enteral nutrition preparation, and (vi) prevention and control of enteral nutrition complications. These measures can operate independently or interdependently—all are designed to standardise the clinical practice of enteral nutrition in stroke patients. Therefore, the care bundles can also be considered a complex intervention [23]. The specific programme elements and implementation strategies are described in the implementation manual of care bundles (Additional file 1). We use a large number of flowcharts and tables to supplement the text content in the manual to ensure the comprehensibility and operability of the care bundles.

Fig. 3 — The standardised feeding pathways and modalities

Fig. 4 — The enteral nutrition monitoring scheme

Control period

Patients admitted to the hospital during the control period receive the traditional nutritional measures in the standard of care currently used in the clinic at that hospital. Given the variation in clinical level and management standards across hospitals, there may be some variation in the control period measures across hospitals. The current enteral nutrition nursing in various hospitals includes measures such as management team composition, nutritional risk screening, nutritional status assessment, selection of nutritional preparations, implementation of enteral nutrition, prevention and treatment of complications, and health education. The links involved in these measures are similar to those of the care bundles for enteral nutrition management, but there is a certain gap in the normative and scientific nature of the intervention content. We will investigate the clinical level and current management of stroke patients in each hospital by questionnaire at the time of hospital recruitment, so as to ensure that the control period measures in the final included hospitals are at a similar level.

Implementation processes

The differences between the intervention care and the control care are mainly in the operational aspects of all nursing staff on the ward, where all patients will receive a uniform and homogeneous intervention at the current time, and therefore at a collective level. Given the complexity of the interventions, all interventions are made by trained and qualified nursing staff and are subject to occasional spot checks by the management team during the implementation period to ensure the integrity and standardisation of the implementation of the interventions in each hospital.

Training and assessment

The management team conducts at least 2 weeks of training on the care bundles for enteral nutrition management in stroke patients, starting 1 month before the hospital entered the intervention period. This training is aimed at all nurses in the hospital’s stroke patient ward. The training includes interpretation of the care bundle content and step-by-step explanation of the intervention and clinical practice instruction and includes written material distribution, group teaching, and simulation exercises. After the training, the management team conducts an assessment of the nurses, including theoretical and operational assessments, both of which must be passed before participation in the patient care work, otherwise the training is repeated.

Outcomes

Primary outcome

Feeding intolerance is the primary outcome and is defined as patients with ≥ 2 of the following characteristics during enteral nutrition who are considered feeding intolerant [16, 24]: (i) insufficient enteral intake, as shown by actual enteral nutrition volume less than 2/3 of the planned enteral nutrition volume in 24 h; (ii) patients with gastrointestinal symptoms, as shown by abdominal distension, diarrhoea, vomiting, constipation, regurgitation, aspiration, etc.; (iii) high gastric residual amount, as shown by the monitoring of gastric residual amount > 250 mL or > 50% of enteral intake, 4 h after the last enteral nutrition.

Secondary outcomes

Aspiration pneumonia, rate of achievement of nutrition intake goals, body mass index (BMI), serum prealbumin (PA), serum albumin (ALB), calf circumference, activity of daily living, mortality, and length of hospital stay are the secondary outcomes in this study. Feeding intolerance and rate of achievement of nutrition intake goals will be evaluated daily since participant enrollment, and information about mortality and length of hospital stays will be collected at the discharge. All other outcomes will be evaluated every 7 days since participant enrollment. The definitions, calculation methods, and collection times for each outcome are shown in Table 1.

Table 1.

Outcomes and measurement times

Outcomes	Definitions	Measurement methods	Collection times
Feeding intolerance	Patients with ≥ 2 of the following characteristics during enteral nutrition are considered feeding intolerant: (i) insufficient enteral intake, as shown by actual enteral nutrition volume less than 2/3 of the planned enteral nutrition volume in 24 h; (ii) patients with gastrointestinal symptoms, as shown by abdominal distension, diarrhoea, vomiting, constipation, regurgitation, aspiration, etc.; (iii) high gastric residual amount, as shown by the monitoring of gastric residual amount > 250 mL or > 50% of enteral intake, 4 h after the last enteral nutrition	The enteral nutrition intake, gastrointestinal reaction symptoms, and stomach residues are dynamically evaluated by clinical nurses or doctors and recorded in the hospital information system. Data collectors make judgments and registration based on the patient’s indicators every day Identification criteria: (i) the actual amount of enteral nutrition is obtained by summarising the accumulated enteral nutrition intake of the patient on that day; (ii) the planned enteral nutrition volume (total daily energy supply) is determined by the daily activity coefficient and the basic metabolic energy consumption calculated by the modified Schofield formula; (iii) abdominal distension: fullness/distention of part or all of the abdomen; (iv) diarrhoea: more than 3 bowel movements per day; (v) vomiting: discharge of stomach contents through the mouth; (vi) constipation: reduced frequency of defecation (less than 3 bowel movements per week), difficulty in defecation, dry stool; (vii) regurgitation: enteral formula found in oral or nasal cavities with or without exteriorisation; (viii) aspiration: this complication was diagnosed when feed was detected in the tracheal aspirate	Since participant enrolment, the actual intake of enteral nutrition and gastrointestinal symptoms were assessed once a day (at 6 p.m.), from 6 p.m. the previous day to 6 p.m. the same day (24 h) as an assessment cycle. Gastric residue monitoring for the purpose of collecting study outcomes was conducted at 4 h after the last enteral nutrition (every 4 h during continuous enteral nutrition)
Rate of achievement of nutrition intake goals	Actual enteral nutrition volume/planned enteral nutrition volume × 100%
Aspiration pneumonia	Inflammation of the lungs due to aspiration of oropharyngeal secretions or stomach contents	Aspiration pneumonia is diagnosed by the clinical doctor. The main basis includes (i) the presence of a pathogen in the aspirate, (ii) the occurrence of the aspiration, and (iii) diagnosis of pneumonia	Since participant enrolment, these indicators are assessed every 7 days (at 6 p.m. on day1, day 7, day 14, etc.)
Body mass index (BMI)	Weight/height²	Body weight and height are measured by weighing scale and height metre, respectively. The body weight of comatose/critically ill patients is measured using the patient lift system
Prealbumin	Serum pre-albumin (PA)	The doctors issue relevant medical orders, and the hospital laboratory measures the results and returns them to the hospital information system
Albumin	Serum albumin (ALB)
Calf circumference of healthy side	Diameter of the thickest part of the calf on the healthy side	The data collector uses the soft ruler to go around the thickest part of the gastrocnemius muscle (the thickest part of the calf) of patients and measure its length
Calf circumference of affected side	Diameter of the thickest part of the calf on the affected side
Ability of daily living	Scale of Activities of Daily Living (Barthel index, BI)	Ability of daily living is assessed by data collectors using the Barthel index
Mortality rate	Number of deaths/total number of cases × 100%	Relevant indicators are obtained by data collectors according to the hospital information system	Collected on the day the patient is discharged
Length of hospital stay	Total time from patient admission to discharge		Collected on the day the patient is discharged

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Process evaluation

The rate of implementation and correctness of intervention period care measured is the focus of this study process monitoring. The management team employ an independent site survey team that uses a combination of periodical verification and random sampling to conduct on-site evaluations at the appropriate hospital at months 1, 3, and 5 of each hospital’s entry into the intervention period as well as at several random time points (a few hospitals will not have evaluations at the third and fifth months due to the study design). Site survey teams conduct monitoring using a process verification form based on the content of the care bundles. The management team regularly summarises the monitoring results, analyses problems in the implementation of the care bundles, explores ways to improve the application of safeguards, and manages the key care operations that could affect patient outcomes.

Data collection and management

The management team will develop clinical report forms (CRFs) based on patient outcomes, and all data will be collected in the form of CRFs and then entered into a unified data management platform through an authorised encrypted account. We establish an independent data collection team at each hospital. Before the official start of the trial, the data collection team at each hospital is trained in a uniform manner, the consistency of data collection is assessed, and data collection is allowed only after the assessment has been passed. The data collection teams collect patient data at the appropriate time through hospital information systems, on-site assessments, and questionnaires and enter the anonymous data that exclude individual characteristics into the data management platform in a timely manner. The platform is set up with reasonable numerical boundaries and logical check items to remind the collector to check the original data in time to correct or reject it when incorrect data entry occurs.

Statistical analyses

Continuous variables collected will be described using mean ± standard deviation (SD) or median and interquartile ranges depending on distribution. Categorical data will be summarised by frequency and percent. A generalised linear mixed model (GLMM) will be utilised to analyse outcomes, with interventions included as fixed effects and hospitals as random effects. The model will be adjusted for demographic factors, Barthel index (BI), and nutritional status at baseline. Additionally, the interaction between time and interventions will be examined and tested for significance. If the interaction term is found to be significant, the simple effects of time and interventions will be evaluated. Otherwise, the model will be reduced to only include main effects. Binary outcomes will be compared between groups using logistic multilevel models. For continuous measurements, normal distribution with identity link function was used. If necessary, log-transformed method will be used to transfer continuous skewed data (i.e. length of stay). The pseudo-likelihood method will be select as the parameter estimation method. Variance component, autocorrelation, and unstructured variance–covariance matrix type are selected as potential candidates used in GLMM and will be finally determined by the goodness of model fit using the Akaike information criterion (AIC). The study will follow the intention-to-treat principle. A per-protocol analysis will also be conducted as the secondary analysis. Notably, no interim analysis is planned in this study. Missing data for individual clinical variables are imputed using clinical imputation rules when appropriate, and the remaining missing data (< 10%) are imputed using the hot-deck imputation method, which is suitable for both continuous and categorical variables. All statistics will be conducted using IBM/SPSS version 23.0. The significance two-sided test level will be set as α = 0.05.

Oversight and monitoring

The chief investigator of the study and the heads of the research centres jointly form the trial steering committee (TSC), which is responsible for overseeing the study progress, directing the research implementation, organising and coordinating the participating centres in conducting the study, and promptly identifying and correcting deviations and errors during execution to ensure that participating centres complete the research on schedule. The TSC holds working meetings every 6 months, and if special matters arise, additional meetings will be convened as needed. The TSC will submit annual reports and regular follow-up review reports to the ethics committee in accordance with its requirements. The management team and sub-centre management teams are established under the TSC, consisting of the key research personnel. These teams are responsible for promoting and reporting on the specific implementation of the study at their respective centres, including identifying potential recruits, taking consent, and organising and training the data collection teams. Any deviation from the protocol will be fully documented. These management team submits progress reports to the TSC every month. In addition, this study has also formed an academic support team composed of experts or professionals in nursing, medicine, nutrition and statistics. The team does not participate in the specific work of project implementation but provides academic support, such as independent trial supervision and implementation of research randomisation. Although this study does not involve the evaluation of new drugs or devices, the independent academic support team will assist the TSC in overseeing and managing the data. They will verify, monitor, and manage the data through the data management platform and collect and check the original (paper) records of the data from each research centre periodically to ensure the accuracy and standardisation of the data.

Adverse event reporting

The care bundles of this study are a collection of clinical measures validated by evidence-based evidence and expert opinion, which we believe to be safe and unlikely to cause adverse events. However, due to the severity of the patients included, there is also a risk of aspiration, refeeding syndrome, catheter migration, catheter-related infections, and death, which are inherently potential risks for the occurrence of adverse events in patients with stroke enteral nutrition. Once an adverse event occurs, it will be handled and tracked according to clinical standards until it is properly resolved or the patient's condition is stable. All adverse events will be monitored and recorded by the sub-centre management team and will be reported promptly to the TSC, the academic support team, and the ethics committee. If necessary, working meetings will be held to assess the risks and benefits of the study.

Dissemination

The results of the study will be reported in writing to the funder and are planned for publication in a peer-reviewed scientific journal. Additionally, the research content and findings will be disseminated to stakeholders in the field of enteral nutrition for stroke patients through meetings, forums, and other channels.

Discussion

The nursing management of enteral nutrition in stroke involves multidisciplinary team building, patient screening and assessment, enteral nutrition implementation, and complication prevention [25]. The management of enteral nutrition in stroke patients requires scientific management of the whole process and cycle, and any unscientific or irregular process will affect the final outcome of enteral nutrition [16]. In recent years, the effectiveness of different interventions for enteral nutrition has gradually been scientifically validated, but there is still a lack of evaluation of the effectiveness of the combined application of these interventions, and the implementation difficulty and feasibility of the combined implementation of these interventions also needs scientific process monitoring and evaluation [26]. As an evidence-based, comprehensive intervention programme that emphasises the combined implementation of all interventions in the programme and is applicable to care problems with many influencing factors that are difficult to solve, care bundles have been widely used in clinical nursing practice, and the application effect shows that clustered measures are generally better than the implementation effect of single measures [11]. Therefore, we developed the cluster-based intervention care bundles for enteral nutrition in stroke based on the Guidelines and promoted and validated it in several hospitals, with a view to providing a reference on how to address the overall poor enteral nutrition care practice in stroke patients.

The care bundles for enteral nutrition management proposed for this study are complex and require the involvement of nursing staff from across the ward during implementation through systematic and scientific training, making it difficult to use staff (patient and intervener)-level randomisation, which would otherwise result in greater contamination [27]. In contrast to non-randomised controlled trials, we implement hospital-level randomisation through a stepped wedge cluster randomised trial design, which also increase the statistical efficacy of comparisons across clusters and time and therefore is able to ensure the scientific validity of the study findings as much as possible [28]. Based on the currently available evidence and expert opinion, we expect that these care bundles for enteral nutrition in stroke are clearly more beneficial than harmful and worth promoting. Therefore, using this study design also allows all hospitals to be in the intervention group at the end of the study, avoiding the problem of denying control group hospitals access to clinical quality improvement in conventional study designs [29].

There are also some limitations and challenges to be addressed in this study. First, the care bundles in this study implement a cluster intervention programme that combines multiple interventions to form a cluster, and it is not possible to effectively distinguish the role and contribution of each specific intervention independently from the study results. Therefore, we will conduct comprehensive process monitoring and analysis of the possible role and impact of each intervention [30]. Second, because the use of a stepped wedge cluster randomised trial design requires all hospitals to be ready before the trial can begin, there may be unexpected delays. Moreover, if the number of study subjects included in a hospital during the trial is lower than the target sample size, that hospital cannot extend the intervention or control period to increase the sample size because the periods at the time of the trial are pre-set and randomised. Therefore, hospitals with high study capacity and adequate sample size will be selected through a large-scale questionnaire survey across China.

Trial status

This manuscript is based on the approved study protocol version 1.2, dated November 14, 2024. Date of recruitment start on March 1, 2023, and is expected to be completed by the end of December 2024.

Supplementary Information

13063_2024_8645_MOESM1_ESM.doc^{(549.3KB, doc)}

Supplementary Material 1. Care Bundles of Enteral Nutrition Management in Patients with Stroke.

Abbreviations

AIC: Akaike information criterion
BI: Barthel index
BMI: Body mass index
CRF: Clinical report form
GLMM: Generalised linear mixed model
ICC: Intracluster correlation coefficient
SD: Standard deviation
SPIRIT: Standard protocol items: recommendations for interventional trials
TSC: Trial steering committee

Authors’ contributions

CW and YJ led the design of the study. CW and CY drafted the initial version of the manuscript. CW and YJ obtained the funding for this study. SL, SJ, and LD helped develop the study protocol. LS and SJ provided clinical implementation advice and helped with intervention design. CY, XZ, and YL conducted the independent evaluation and monitoring of the data. All authors read and approved the final manuscript.

Funding

This work was supported by the Sichuan Science and Technology Program (2024NSFSC1617), the 1.3.5 project for disciplines of excellence-Clinical Research Incubation Project, West China Hospital, Sichuan University (2022HXFH018), and the Research Project of the Chinese Nursing Association (ZHKYQ202101).

The funders have no role in the design of the trial, procedures, intervention, collection, evaluation, and data analysis.

Availability of data and materials

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

Declarations

Ethics approval and consent to participate

The trial protocol has been approved by the Biomedical Research Ethics Committee of West China Hospital of Sichuan University (approval number: 2022–1709). The study will be conducted in accordance with the Declaration of Helsinki (as revised in 2013). Informed consent will be obtained from all the participants. Any major modifications to the trial protocol, including changes in eligibility criteria, outcome indicators, or analysis methods, will be determined by a working meeting organised by the TSC and promptly notified to all relevant parties, including the ethics committee and research sponsors. The updated version number and date on the clinical trial platform will also be used to track the history of these changes.

Consent for publication

Not applicable. No identifying images or other personal or clinical details of participants are presented here or will be presented in reports of the trial results. The participant information materials and informed consent form are available from the corresponding author on request.

Competing interests

The authors declare that they have no competing interests.

Footnotes

Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

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18.Chan AW, Tetzlaff JM, Gøtzsche PC, Altman DG, Mann H, Berlin JA, et al. SPIRIT 2013 explanation and elaboration: guidance for protocols of clinical trials. BMJ. 2013;346: e7586. [DOI] [PMC free article] [PubMed] [Google Scholar]
19.Reintam Blaser A, Deane AM, Preiser JC, Arabi YM, Jakob SM. Enteral feeding intolerance: updates in definitions and pathophysiology. Nutr Clin Pract. 2021;36(1):40–9. [DOI] [PubMed] [Google Scholar]
20.Reignier J, Dimet J, Martin-Lefevre L, Bontemps F, Fiancette M, Clementi E, et al. Before-after study of a standardized ICU protocol for early enteral feeding in patients turned in the prone position. Clin Nutr. 2010;29(2):210–6. [DOI] [PubMed] [Google Scholar]
21.Hemming K, Taljaard M. Sample size calculations for stepped wedge and cluster randomised trials: a unified approach. J Clin Epidemiol. 2016;69:137–46. [DOI] [PMC free article] [PubMed] [Google Scholar]
22.Hemming K, Kasza J, Hooper R, Forbes A, Taljaard M. A tutorial on sample size calculation for multiple-period cluster randomized parallel, cross-over and stepped-wedge trials using the Shiny CRT Calculator. Int J Epidemiol. 2020;49(3):979–95. [DOI] [PMC free article] [PubMed] [Google Scholar]
23.Craig P, Dieppe P, Macintyre S, Michie S, Nazareth I, Petticrew M. Developing and evaluating complex interventions: the new Medical Research Council guidance. BMJ. 2008;337: a1655. [DOI] [PMC free article] [PubMed] [Google Scholar]
24.Reintam Blaser A, Malbrain ML, Starkopf J, Fruhwald S, Jakob SM, De Waele J, et al. Gastrointestinal function in intensive care patients: terminology, definitions and management. Recommendations of the ESICM Working Group on Abdominal Problems. Intensive Care Med. 2012;38(3):384–94. [DOI] [PMC free article] [PubMed]
25.Ojo O, Brooke J. The use of enteral nutrition in the management of stroke. Nutrients. 2016;8(12). [DOI] [PMC free article] [PubMed]
26.Oakley A, Strange V, Bonell C, Allen E, Stephenson J. Process evaluation in randomised controlled trials of complex interventions. BMJ. 2006;332(7538):413–6. [DOI] [PMC free article] [PubMed] [Google Scholar]
27.Eccles M, Grimshaw J, Campbell M, Ramsay C. Research designs for studies evaluating the effectiveness of change and improvement strategies. Qual Saf Health Care. 2003;12(1):47–52. [DOI] [PMC free article] [PubMed] [Google Scholar]
28.Shelley DR, Ogedegbe G, Anane S, Wu WY, Goldfeld K, Gold HT, et al. Testing the use of practice facilitation in a cluster randomized stepped-wedge design trial to improve adherence to cardiovascular disease prevention guidelines: HealthyHearts NYC. Implement Sci. 2016;11(1):88. [DOI] [PMC free article] [PubMed] [Google Scholar]
29.Wassenaar A, Rood P, Schoonhoven L, Teerenstra S, Zegers M, Pickkers P, et al. The impact of nUrsiNg DEliRium Preventive INnterventions in the Intensive Care Unit (UNDERPIN-ICU): a study protocol for a multi-centre, stepped wedge randomized controlled trial. Int J Nurs Stud. 2017;68:1–8. [DOI] [PubMed] [Google Scholar]
30.Hulscher ME, Laurant MG, Grol RP. Process evaluation on quality improvement interventions. Qual Saf Health Care. 2003;12(1):40–6. [DOI] [PMC free article] [PubMed] [Google Scholar]

Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

13063_2024_8645_MOESM1_ESM.doc^{(549.3KB, doc)}

Supplementary Material 1. Care Bundles of Enteral Nutrition Management in Patients with Stroke.

Data Availability Statement

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

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[CR26] 26.Oakley A, Strange V, Bonell C, Allen E, Stephenson J. Process evaluation in randomised controlled trials of complex interventions. BMJ. 2006;332(7538):413–6. [DOI] [PMC free article] [PubMed] [Google Scholar]

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[CR30] 30.Hulscher ME, Laurant MG, Grol RP. Process evaluation on quality improvement interventions. Qual Saf Health Care. 2003;12(1):40–6. [DOI] [PMC free article] [PubMed] [Google Scholar]

PERMALINK

Care bundles to improve enteral nutrition management in stroke patients: study protocol for a stepped wedge cluster randomised trial

Cong Wang

Shanshan Liu

Shiqi Jia

Cai Yan

Xue Zhang

Yuan liu

Liang Du

Yan Jiang

Abstract

Background

Methods

Discussion

Trial registration

Supplementary Information

Background

Methods

Aim and hypothesis

Trial design and study setting

Fig. 1.

Fig. 2.

Participants

Study site eligibility and recruitment

Patient eligibility and recruitment

Sample size

Randomisation

Interventions

Intervention period

Fig. 3.

Fig. 4.

Control period

Implementation processes

Training and assessment

Outcomes

Primary outcome

Secondary outcomes

Table 1.

Process evaluation

Data collection and management

Statistical analyses

Oversight and monitoring

Adverse event reporting

Dissemination

Discussion

Trial status

Supplementary Information

Abbreviations

Authors’ contributions

Funding

Availability of data and materials

Declarations

Ethics approval and consent to participate

Consent for publication

Competing interests

Footnotes

References

Associated Data

Supplementary Materials

Data Availability Statement

ACTIONS

PERMALINK

RESOURCES

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