key: cord-0903961-l7kgc1xz
authors: Travers, John; Romero-Ortuno, Roman; Power, Dermot; Doran, Peter; Langan, John; MacNamara, Fergal; McCormack, Darren; McDermott, Christopher; McEntire, Jude; McKiernan, Joanne; Vencken, Sebastian; Murphy, Andrew W.; Murphy, Patrick J.; Ní Shé, Éidin; O'Shea, Diarmuid; Cooney, Marie-Therese
title: Protocol for a randomised controlled trial of a primary care intervention to Reverse Frailty and Enhance Resilience through Exercise and dietary protein Education (REFEREE) in community-dwelling adults aged 65 and over
date: 2021-04-21
journal: HRB Open Res
DOI: 10.12688/hrbopenres.13188.2
sha: c835772f84f8e50b98a07f2dcfa8da3058b26cc5
doc_id: 903961
cord_uid: l7kgc1xz

Introduction: Resistance exercises and dietary protein have been shown to reverse frailty, yet they are not commonly offered in clinical practice. We aim to measure changes in health outcomes, including physical frailty status (SHARE-FI), clinical frailty status (CFS) and muscle mass, as a result of an optimised exercise and dietary intervention versus usual care in a primary care (PC) setting. The intervention has been derived from our systematic review and meta-analysis findings and optimised through patient and public involvement and multidisciplinary team input. Methods: This study is a multicentre randomised controlled parallel arm trial with a three month follow up. 210 eligible people aged 65 and over, no more than mildly frail, will be recruited in seven PC practices in Ireland and randomly assigned to ‘intervention’ or ‘usual care’. Intervention participants will be provided a leaflet with strength exercises, protein dietary guidance and educational discussion. Baseline measurements will include demographics, health indicators, comorbidities, malnutrition universal screening tool (MUST), frailty status (SHARE-FI, CFS) and muscle mass (bioelectrical impedance). Primary outcome will be frailty status measured by SHARE-FI at three months. Secondary outcomes include CFS, muscle mass, in-patient hospitalisation, long term care admission, and subjective ease of intervention and difference to general health. Statistical analysis will be undertaken by an independent statistician. Discussion: The diversity of tested frailty interventions and lack of clear guidance may contribute to low implementation rates. The REFEREE trial focusses on an optimised intervention for a syndrome that poses growing individual and societal challenges. It is hoped results can encourage mainstream adoption of interventions to reverse clinical frailty and build resilience in primary care. Trial registration: ClinicalTrials.gov ID NCT04628754; registered on 13 November 2020.

We have addressed the constructive feedback of the reviewers and made amendments in line with several of their suggestions. We have added a plan for a longer follow up consultation at 12 months. We have added details about the type of bio-impedence device used and described limitations of the technology. We have added an additional exclusion criteria of chronic kidney disease, stage 3 or 4. We have added rationale for applying the exclusion criterion of Clinical Frailty Scale level 6. We have clarified that the GP co-investigators will conduct the screening and follow up consultations and how their approach will be standardised across sites. Lastly, we have provided rationale for the length of time data will be retained after the end of the study.

Background information Frailty can be conceptually described as a state of physiological vulnerability to external stressors. It increases the risks of illness, falls, dependency, disability, and death 1,2 . Frailty has been described as the most problematic expression of population ageing 2 .

The challenge of frailty is heightened by our aging population and increased life expectancy. The UN estimates that the population of over 60-year olds will more than double from 2017 to 2050 3 . In Ireland, the population of over 65-year-old is growing four times faster than the total population. The prevalence of frailty is estimated at 11% in adults aged ≥50 years and increases to some 50% in those >80 years of age 4, 5 .

General Practitioners (GPs) are in a unique position to engage with and support their aging patients. Since 2017 the new General Medical Services (GMS) contract in England mandates that all primary care practices use an appropriate tool to identify patients aged ≥65 years who are living with moderate or severe frailty. GPs are also obliged to offer appropriate interventions. Such a mandate to screen and intervene to address frailty is fast becoming international best practice. However, there has been little guidance on the best interventions until recently.

We conducted a systematic review of frailty interventions in primary care, reviewing 925 studies and analysing 46 in detail 6 . We found that frailty can be delayed and reversed. Results have been further refined and strengthened in our meta-analysis 7 .

Interventions with both muscle strength training and protein supplementation were consistently placed highest for effectiveness and ease of implementation.

Rationale for the study Resistance training done at home and protein supplementation have been shown to be the most effective and easiest to implement interventions to reverse frailty and build resilience. However, it is not common practice to offer and support such interventions in primary care.

Frailty is related to day-to-day symptoms, co-morbidities, disabilities, and overall physical and cognitive functioning. A composite measure of all the latter, guided by the clinician's clinical judgement, can be assessed by the Clinical Frailty Scale (CFS) 8 . The use of the CFS has become quite widespread in clinical practice in many countries.

On the other hand, physical frailty status is a narrower concept based on unexplained weight loss, self-reported exhaustion, weakness (by grip strength), slowness (by gait speed) and low levels of self-reported physical activity 9 . Researchers have adapted the physical frailty definition to allow the provision of a continuous score (e.g. SHARE-FI 10 ). A core component of the physical frailty phenotype is the diagnosis of sarcopenia, which has been operationalised by consensus 11 and objectively measured with bioelectrical impedance analysis. Bioelectrical impedance analysis is a safe, non-invasive, rapid and relatively accurate way to assess body composition. Limitations include reduced accuracy for people with BMI > 34 kg/m 2 , though the technology remains acceptable for monitoring changes in body composition over time. Figure 1 shows the conceptual framework of the different frailty operationalisations used in this study.

Recruitment based CFS seems the most inclusive, but baseline measures will be obtained of all measures at baseline and follow up.

This study provides an opportunity to share an optimised intervention with community-dwelling adults aged 65 and over, whose baseline CFS is not worse than mild (i.e. 5 or less), evaluate improvements in health outcomes and demonstrate how the intervention may be incorporated efficiently in clinical practice. The results are intended to encourage mainstream adoption of practical interventions to reverse clinical frailty and build resilience in primary care. An intervention with ten recommended resistance exercises and dietary guidance on protein consumption has been derived from findings of our systematic review 6 and meta-analysis 7 and optimised through a patient and public involvement (PPI) process.

Feasibility of the exercise component of the intervention was assessed in a study in 2019 and 2020 12 . The findings have been key to refining the intervention for this RCT. We offered an exercise intervention to reverse frailty and build resilience in primary care consultations. We set out to assess uptake of the exercise regime; ratings of its ease and subjective health after participation; how a follow-up telephone-call might affect compliance and overall feasibility. We applied the Bowen feasibility model 13 which has been successfully used in assessing public health and preventive medicine interventions. This feasibility model tests eight areas of focus: acceptability; demand; implementation; practicality; adaptation; integration; expansion; and limited-efficacy testing. Selected results include:

A total of 94 of 107 eligible people (88%) participated (average age 77, 59 females (63%)). 95% of females and 78% of males enrolled. Only 15% had previously considered resistance exercises.

Participants found the exercises both easy to follow and generally easy to do. Overall, 32% described exercises as 'very easy', 55% 'somewhat easy', 7% 'neither easy nor hard', 6% 'somewhat hard and 0% 'very hard'.

At one month, 66% of participants called were exercising regularly (76% of females, 50% of males). At two months, compliance among those who had not been called at one month was: 65% (67% of females, 62% of males). However, compliance among those previously called was higher: 78% (88% of females, 63% of males). 64% of those who were not doing exercises at one month had taken them up following the single phone call (67% of females, 63% of males).

Many described how the home-based exercises helped with staying active and reducing anxiety while housebound during the Covid-19 pandemic

The majority of participants self-reported their general health had improved as a result of doing the exercises and none reported feeling worse. 14% felt 'much better', 52% 'slightly better', 34% 'about the same', 0% 'slightly worse', and 0% 'much worse'

Each of the eight areas of focus of the Bowen feasibility model have been addressed and satisfy overall feasibility. Publication of this feasibility study is pending.

Public and patient involvement in health involves undertaking research with members of the public rather than for them. As PPI has been a key consideration within Irish health research culture, we wanted to enable the involvement of potential participants' in co-designing our RCT to ensure that their priorities were at its core. We built on two group discussions with 24 over 65-year olds, when introducing an exercise regime in a previous service evaluation study 14 , and 145 one-on-one discussions listening to feedback during the feasibility study. We wished to learn additionally from participants in three online workshops to optimise our patient communication model, refine the exercise regime and develop dietary guidance for a future trial.

We convened three online group workshops with older adults involved in the feasibility study. The group size of an average of 5 participants and 2 researchers was in keeping with best practice for conducting both group-based action learning 15 and focus group activity 15,16 . Key themes and questions for each workshop were prepared in advance. A Socratic approach of open questions with active listening was used in order to ensure the voices of the non-researchers are primarily heard. Transcripts were analysed and key feedback synthesised under the headings of: 'patient engagement and communication model', 'exercise regime' and 'dietary guidance'. Analysis used both an inductive and deductive approach drawing on normalisation process theory. Our approach was guided by a framework for effective and meaningful public and patient representative (PPR) involvement in health research 17-19 , which includes operating in a structured environment; managing expectations and ensuring roles are clear; providing support for successful participation and ensuring inclusive representation; and commitment to co-learning involving institutional leadership.

PPI output included strong endorsement from participants for offering this intervention; co-design of the patient communication model; inclusion of preferred setting, medium and gender balance for the exercise regime; and co-design of the dietary guidance content.

The systematic review 6 identified benefits to patients that include decreased risks of illnesses, falls, dependency, disability and improved mortality. 71% of studies measuring impact on frailty status demonstrated significant improvement. 69% of studies measuring impact on singular frailty indicators or other criteria demonstrated significant improvement. The exercises create a small risk of musculoskeletal strain. No such adverse event was recorded during a feasibility study of the intervention, prior to PPI optimisation. The risk was mitigated by the fact that the exercises are simple in nature and the supporting patient information leaflet advises thirty second breaks between exercises and not to undertake any exercise that causes pain. Risk is further mitigated by excluding participants with CFS 6 and above. The risk (probability) of harm is considered to be low.

Primary objective To measure changes in health outcomes, including physical frailty status (SHARE-FI), clinical frailty status (CFS), muscle-mass, as a result of an optimised exercise and dietary intervention versus usual care among community-dwelling adults aged 65 and over whose baseline clinical frailty (CFS) is not worse than mild.

To understand participants' perspectives on the ease of the intervention and personal health benefits.

• Frailty status measured by SHARE-FI at three months after the start of intervention.

• Clinical frailty status measured by CFS at three months after the start of intervention.

• Muscle mass measured by bioelectrical impedance at three months after the start of intervention.

• Body fat, bone weight, base metabolic rate, biological age by bioelectrical impedance at three months after the start of intervention.

• Incidence of in-patient hospitalisation during follow-up.

• Incidence of long-term care admission (LTC) during follow-up.

• Ease of the intervention measured on a five-point scale: 'very easy', 'somewhat easy', 'neither easy nor hard', 'somewhat hard', or 'very hard' three months after the start of intervention.

• Difference to general health as a result of the exercises measured on a five-point scale: 'much better', 'slightly better', 'about the same', 'slightly worse' or 'much worse' three months after the start of intervention.

General considerations This multi-centre, randomised controlled, parallel arm trial aims to measure the effectiveness of an optimised primary care intervention to reverse frailty and build resilience versus usual care, among pre-frail and mildly frail adults aged 65 and over. The trial will take place in Ireland. Enrolment will take place in seven GP practices in Dublin and Wicklow over a period of six months. All measures will be collected in the GP practice setting. A clear training plan and documentation will be provided to GPs at each site to mitigate the risk of recorded and unrecorded protocol deviations 20 . A study scheme is shown in Figure 2 .

All patients aged 65 or older attending the GP site investigator will be screened for eligibility by the GP. Patients meeting all of the inclusion criteria and none of the exclusion criteria will be eligible for inclusion. • Persons unable to engage in discussion on frailty due to acute care needs or determined to be inappropriate by GP (e.g., needing transfer to ED or acutely unwell or disorders resulting in intolerance of the intervention)

• Subjects unable to provide written informed consent Study methods, assessments and procedures GP site investigators will undergo three team-based training sessions prior to enrolment, monthly meetings after enrolment and additional ad-hoc meetings when required, led by the principal investigator, in order to standardise the approach and align to this study protocol, including patient communication, intervention delivery and data gathering and management.

Adults attending a GP surgery, meeting the eligibility criteria, will be offered general information about the study by the attending GP. If interested and willing to consent, they will be offered an information leaflet for the trial, and invited to participate. Participants will be randomly assigned to 'intervention' or 'usual care' parallel arms.

Participants randomly assigned to the usual care group will receive normal primary care, including physical rehabilitation if needed.

Intervention participants will be provided a leaflet with strength exercises and a discussion on how strength exercises have been shown to delay and reverse frailty and build resilience.

The information leaflet will have a photographic overview of a home-based exercise regime. They will also be provided with information on post exercise protein consumption as part of a normal balanced diet.

Baseline measurements for all recruited patients will be: age, sex, education, living arrangement (alone, with others), smoking status, alcohol intake, blood pressure, heart rate, BMI (weight and height), comorbidities, malnutrition universal screening tool (MUST), CFS, SHARE-FI (which includes handgrip strength) and bioelectrical impedance for muscle mass, body fat, bone weight, base metabolic rate and 'biological age'. Bioelectrical impedance will be measured using a Tanita RD 545 Segmental Body Composition Analyser, with dual frequency technology and medical grade accuracy.

Intervention participants will be called after one month and after three months by the GP and asked if they had followed the exercise regime (and for how long and how many times a week) and dietary guidance. At three months they will be asked if they found the exercises 'very easy', 'somewhat easy', 'neither easy nor hard', 'somewhat hard', or 'very hard'; and had they noticed any subjective difference to their health as a result of the intervention, namely feeling 'much better', 'slightly better', 'about the same', 'slightly worse' or 'much worse'. All participants will be invited to return at three months for a clinical assessment and measurement of health indicators and frailty status as described above by the GP. Participants will be invited to return for subsequent one year follow up appointments. This 12-month follow up will be subject to a further ethics committee review. The follow up visits will be free of charge. A schedule of events for baseline, one-month call and three months follow up are shown in Figure 3 .

Data will be recorded in a pseudo-anonymised form in a password protected database. Documents containing personal information and signed consent forms will be kept in a locked file at the principal investigator's office at each centre. Data will be added to the electronic database by authorised team members only and access will be limited to authorised team members. No participant will be identified or will be identifiable as a result of data processing or in any subsequent publication. Data will be destroyed 5 years after the end of the study or 3 years after the last publication as per the guidelines described by the research ethics committee of the Irish College of General Practitioners. The lead PI (JT) will be the data controller. Data processors will be the research team members, including the 6 co-investigators in each of the centres.

Method of assigning participants to treatment groups Randomisation. Randomisation of participants will be done on a 1:1 allocation to intervention or usual care by a simple randomisation procedure, guided by the Clinical Research Centre (CRC) team. We will use a randomisation software product provided by the American National Cancer Institute.

The end of trial will be the date of the last visit of the last subject. The trial team has the right at any time to terminate the study for clinical or administrative reasons. The end of the study will be reported to the REC within 90 days. A summary report of the study will be provided to the REC and Regulatory Authority within 1 year of the end of the study.

Premature termination of the study. The trial team may end the study pre-maturely on the basis of new information about safety of the intervention or unsatisfactory progress in enrolling participants (i.e., <50% of sample size after 6 months).

Discontinuation/withdrawal of subjects from study protocol Subjects have the right to voluntarily discontinue the intervention or withdraw from the study at any time for any reason without any consequences. The investigator has the right to discontinue a subject from study treatment or withdraw a subject from the study at any time if it is in the best interest of the subject.

Subjects must discontinue the intervention and be withdrawn from the study for any of the following reasons:

-withdrawal of consent by the subject -any medical condition that the investigator or sponsor determines may jeopardize the subject's safety if she or he continues receiving the study treatment -ineligibility (either arising during the study or retrospectively having been overlooked at screening) -an adverse event which requires discontinuation of the intervention -lack of compliance with the study and/or study procedures -lost to follow-up. At least three documented attempts must be made to contact any subject lost to follow-up.

If a subject is withdrawn before completing the study, the reason for withdrawal must be documented. If a subject is withdrawn due to an adverse event, the investigator will arrange for follow-up visits until the adverse event has resolved or stabilised.

The resistance exercise regime consists of ten, home-based, physical exercises as illustrated in an accompanying leaflet. Each exercise is to be repeated ten times in one minute, increased to fifteen times per minute after about 1 month, when comfortable. A break of 30 seconds is to be taken between sets of exercises. Exercises are to be undertaken at least four times per week and up to every day. Participants should also walk for 30 to 45 minutes, three to four times per week. Participants are advised to consume 1.2 g protein per kg body weight each day. A leaflet will be provided with information on sources of protein, amounts of protein per typical serving and suggested meals. A sample exercise leaflet and protein dietary guidance are shown in Figure 4 and Figure 5 .

Participants are asked not to undertake any exercise that causes pain and to discontinue the exercise regime if they have any concern, injury or physical signs constraining participation. Safety will be evaluated throughout the study by recording adverse events (AEs), and inviting participants to attend for assessment of vital signs and physical exam, should they contact their GP with any concerns.

Any untoward medical occurrence in a participant and which does not necessarily have a causal relationship with this intervention. An adverse event can therefore be any unfavourable and unintended sign, symptom or disease, whether or not considered related to the intervention.

Any untoward medical occurrence or affect that:

-results in death,

-is life-threatening*, -requires hospitalisation or prolongation of existing hospitalisation, -results in persistent or significant disability or incapacity, -is a congenital anomaly or birth defect -important medical events** *Regarding a life-threatening event, this refers to an event in which the subject was at risk of death at the time of the event; it does not refer to an event which hypothetically might have caused death if it were more severe.

**Some medical events may jeopardise the subject or may require an intervention to prevent one of the above characteristics/consequences. Such events (hereinafter referred to as 'important medical events') should also be considered as 'serious' in accordance with the definition Severity of AEs. The term 'severity' is used here to describe the intensity of a specific event. This has to be distinguished from the term 'serious.

Assessment of seriousness. The investigator should make an assessment of seriousness.

The investigator/sponsor must make an assessment of whether the AE/SAE is likely to be related to the intervention according to the following definitions:

Where an event is not considered to be related to the study intervention.

Although a relationship to the study intervention cannot be completely ruled out, the nature of the event, the underlying disease, or temporal relationship make other explanations possible.

The temporal relationship and absence of a more likely explanation suggest the event could be related to the study intervention.

All AEs/SAEs judged as having a reasonable suspected causal relationship (e.g. possibly, probably) to the study intervention will be considered as ARs/SARs.

All AEs/SAEs judged as being related (e.g. possibly, probably) to an interaction between the study medication and another medication will also be considered to be ARs/SAR.

Alternative causes such as natural history of the underlying disease, concomitant therapy, other risk factors and the temporal relationship of the event to the treatment should be considered.

The investigator will make an assessment of severity for each AE/SAE and record this on the CRF according to one of the following categories: 

An event that is easily tolerated by the subject, causing minimal discomfort and not interfering with everyday activities.

An event that is sufficiently discomforting to interfere with normal everyday activities.

An event that prevents normal everyday activities.

Reporting procedures for all adverse events All AEs occurring during the study observed by the investigator or reported by the subject, whether or not attributed to the study medication, will be documented.

The following information will be recorded: description, date of onset and end date, severity, assessment of relatedness to the study intervention, other suspect medication or device and action taken. Follow-up information should be provided as necessary.

AEs considered related to the study intervention as judged by an investigator will be followed until resolution or until the event is considered stable. All related AEs that result in a subject's withdrawal from the study or are present at the end of the study, should be followed up until a satisfactory resolution occurs.

It will be left to the investigator's clinical judgment whether or not an AE is of sufficient severity to require the subject's removal from the study. A subject may also voluntarily withdraw due to what he or she perceives as an intolerable AE. If either of these occurs, the subject must undergo an end-of-study assessment and be given appropriate care under medical supervision until symptoms cease or the condition becomes stable.

The severity of events will be assessed on the following scale: mild, moderate, severe.

The relationship of AEs to the study intervention will be assessed by the investigator.

The investigator will report all serious adverse events immediately to the supervisor. The immediate report will be followed by detailed, written reports. The immediate and follow-up reports will identify subjects by unique code numbers assigned to the latter.

The immediate report will be made by the investigator within a very short period of time and under no circumstances should this exceed 24 hours following knowledge of the serious adverse event.

The supervisor will keep detailed records of all adverse events which are reported to her by the investigator or investigators.

Final analysis of the trial will be performed by the independent trial statistician after end-of-trial.

We have calculated a sample size of 176 with the following parameters: Two independent study groups (i.e., control and intervention); outcome measure of frailty status (i.e., change from frail or pre-frail to non-frail as measured by SHARE-FI); improvement of frailty status in the intervention group to non-frail of 15%, allowing for a 3% improvement in the control group due to bias; enrolment ratio of 1; probability of type I error of 5% (0.05); power 80%. Enrolment of 210 participants assumes a 15% drop out rate. The average study size of the 31 studies included in our meta-analysis of frailty interventions 7 was exactly 100.

Final analysis for this trial will be conducted on the intention-to-treat population, which will include all subjects randomised to the treatment arms. Sensitivity analysis will be conducted on the per protocol population (full analysis set), which will include all subjects that attend all study visits and have complied with the intervention.

Baseline descriptive statistics of the study cohort will be stratified by arm, with the sample sizes reported for each arm. Mean (standard deviation) and median (interquartile range) will be reported for numerical outcomes as appropriate. Frequency and proportion will be reported for categorical outcomes. These statistics will be reported for both the intention-to-treat population and the per protocol population.

Efficacy analysis will be performed on all primary and secondary efficacy endpoints. Point estimates, interval estimates (95% confidence interval) and p-values will be reported.

The primary outcome is Frailty status measured by SHARE-FI at three months of follow-up.

Changes in proportions in non-frail, pre-frail and frail categories will be analysed in both study arms and reported as an odds ratio with associated 95% confidence intervals and tested for significance using a standard chi-square test of proportions.

We hypothesise that participants on resistance exercise regime and with guidance on dietary protein will have a higher SHARE-FI score than patients without this intervention.

This outcome will be analysed as a difference in means between treatment arms using a linear mixed effects model, with arm allocation, SHARE-FI at baseline and age included as fixed effects and GP practice included as a random effect.

Clinical frailty status measured by CFS at three months will be analysed using a proportional odds mixed model with arm allocation and age as fixed effects and GP practice as random effect. Muscle mass measured by bioelectrical impedance at three months will be analysed using a logistic mixed model with arm allocation as fixed effect and GP practice as random effect.

Ease of the intervention measured on a five-point scale and difference to general health as a result of the exercises measured on a five-point scale will be analysed using a proportional odds model with arm allocation as covariate.

Incidence of in-patient hospitalisation during follow-up and incidence of LTC during follow up will be analysed using a logistic regression model with arm allocation and age as covariates.

All non-serious and serious AEs will be reported in tables in aggregate form by frequency and subjects affected by trial arm.

The level of statistical significance For hypothesis testing the significance level will be set at 0.05.

Procedure for accounting for missing, unused and spurious data Where appropriate, missing data will be imputed using multivariate imputation by chained equations (van Buuren & Groothuis-Oudshoorn, 2011).

Procedure for reporting any deviation(s) from the original statistical plan Deviation(s) from the original statistical plan will be reported in writing to the research ethics committee and approval sought.

All records and documents will be maintained by the principal investigator for a period of 12 months after the end of the trial.

The supervisor will ensure that this study is conducted in accordance with the ethical principles that have their origins in the Declaration of Helsinki. Approval for protocol modifications or amendments will be sought through formal REC submission and communicated to stakeholders (e.g., investigators, REC/IRBs, trial participants, trial registries, journals) by email where appropriate or by phone to participants with consent.

The GP will take informed consent in the primary care consultation. Informed consent will be obtained prior to any study related procedures being undertaken. The GP will explain the nature of the study to the participant, and answer all questions regarding this study. Prior to any study-related screening procedures being performed, the informed consent statement will be reviewed and signed and dated by the participant and the GP.

A model consent form is available at the Harvard Dataverse repository 22 .

The trial staff will ensure that the participants' anonymity is maintained. The participants will be identified only by first names and identification number on any database. All documents will be stored securely. The study will comply with the Data Protection Act.

In line with guidance from the European Medicines Agency, an external data management committee will not be part of this trial, due to the short time frame, non-critical nature of the syndrome being addressed and low risk of harm from the intervention.

The GPs hold medical liability insurance as required by the Irish College of General Practitioners and the Medical Council.

Initial dissemination of results will be through publication in a peer reviewed journal. The study team will also work with advocacy, primary care and academic partners to disseminate the findings. These will include, Age Action, the Irish College of General practitioners, University College Dublin and Trinity College Dublin. The study is at an early stage and is due to commence enrolment in December 2020. However, early planning for dissemination is underway and agreement for same received from the Health Research Board Primary Care Clinical Trials Network.

The principal investigator is John Travers. Doran, professor of medicine and associate dean of research at UCD, and scientific director of the UCD clinical research centre (CRC), will co-supervise the project. Dermot Power, consultant geriatrician at the Mater Misericordiae University Hospital and professor of medicine at UCD, will co-supervise the project. Roman Romero-Ortuno, consultant geriatrician and associate professor at the TCD Global Brain Health Institute, will help with study design, implementation and writing.

Underlying data All data underlying the results are available as part of the article and no additional source data are required. This project contains a model consent form used in this study. practice nurse play a role in screening/recruitment? Who will administer the CFS at baseline? Who will complete the follow-up assessments across at the sites and how will it be standardised across sites?

The authors should justify their rationale to destroy the data 5 years after the end of study.

The plan to disseminate the study findings is very comprehensive.

Overall, the REFEREE trial protocol describes an intervention for frailty that is evidence-based and stakeholder informed. The pragmatic intervention focuses on a syndrome that poses growing individual and societal challenges.

Is the rationale for, and objectives of, the study clearly described? Yes

Competing Interests: No competing interests were disclosed.

Reviewer Expertise: Ageing, frailty, research methods I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above.

John Travers, University College Dublin, Dublin, Ireland

Thank you very much for this very helpful and constructive feedback, which has enabled us to improve our approach to this trial. We have addressed each of these points in the text below and a revised protocol. We look forward to any other feedback that you may have.

1) People who are estimated to be at CFS level 6 and above require varying levels of assistance. The exercise intervention, derived from our systematic review and meta-analysis and co-designed by PPI, is for daily, independent use in the home, without assistance or carer supervision. We wish to minimise risk to participants and therefore feel it is appropriate to exclude a level of frailty that corresponds to CFS 6 and above. We have added this to the study rational (page 5). We plan to consider appropriate interventions for people with greater degrees of frailty in our future work.

2) Thank you, we have amended the protocol to make the process around screening and recruitment clearer (page 8). The GP co-investigator will undertake screening and recruitment at each site. In order to avoid inter-operator variability, the GP will also undertake follow up assessments. We feel the GP is well placed to undertake these interactions. They involve clinical aspects typically undertaken by a GP, such as assessment of co-morbidities, and reviewing for dementia and malnutrition; as well as providing study information, seeking informed consent and outlining the risks and benefits of the interventions.

The interactions will be standardised across sites by ensuring co-investigators have a clear understanding of the protocol steps. Three preparatory (online) meetings have been held with all co-investigators to agree a standardised assessment approach (page 7). These have involved dry-runs/ role playing of participant interactions. Monthly meetings with all coinvestigators will take place (page 7). These monthly meetings provide an opportunity to calibrate our approach in line with shared real assessment experiences. Additional ad-hoc meetings will enable real time communication on any challenges or questions that may arise and ensure the team remains aligned to a standardised approach.

3) The Irish College of General Practitioners (ICGP) ethics committee advised that this time duration be applied. It is our understanding that the length of time for holding data may be set by the relevant authority overseeing the work. This approach is described by the UK Medical Research Council. The rationale is to ensure sufficient time is given to enable further research and publication subsequent to the trial, while adhering to GDPR regulations. We have amended the protocol to reflect this (page 8).

Thank you for all your feedback and encouragement. It is hugely appreciated and will help us to progress our work.

describe which device they use for impendenciometry) This is an interesting article that presents a protocol for a randomized controlled trial using resistance exercises and dietary protein in order to reduce the level of frailty of the older adults in the community.

As the authors write, although we are aware of the benefits of both interventions, it is often difficult to transfer and implement them in routine clinical practice.

The article is well written and makes good use of current evidence, also highlighting that the authors start from a systematic review and meta-analysis that they have previously carried out.

The methodological and statistical aspects are correct, with a good calculation of the sample size and a correct approach to statistical interpretation.

I would like to make some / comments to the authors: A period of 3 months is sometimes short to show changes in situations of frailty, perhaps if they extend the follow-up period (although the intervention is not direct) it is worth it.

The use of bioimpedance has certain limitations that I think should be reflected, and also it is necessary to describe what instruments will be used.

○ I miss some aspects of CGA such as Barthel, Lawton, comorbidity or polypharmacy, and some geriatric syndrome (falls)… ○ Perhaps it would be interesting to evaluate SPPB or gait speed, although I understand that they are time-consuming variables, but perhaps they are more sensitive to intervention.

Regarding the exercise recommended by the authors, I think there is scientific evidence to advise multicomponent exercise and not just resistance, and instead of moderate activity HIIT exercises. An example could be the resources that you can find in http://vivifrail.com/ that allows the intervention to be highly individualized; on the other hand, the exercise proposed by the authors will be the same for everyone and should be more personalized or individualized.

○ I really liked the role of patients and institutions (PPI) in the development of the protocol, it is something that geriatricians should learn and implement. Perhaps the gender perspective must also be addressed in future studies.

Another possible additional intervention that has been shown to be useful could be the adjustment of polypharmacy and in parallel, a possible outcome could be what happens with the number /type of drugs.

○ Is the intervention able of modifying cognitive parameters? In this hypothesis, we would have to consider initial cognitive evaluation and trajectory.

If you are going to be advised and increment in protein intake, perhaps kidney function could be evaluated.

When mixing exercise and nutrition, we will wonder which component has more weight in the results, or if we only owe it to one of them, or if both are enhanced. In this case, each intervention could be stratified to see what the effect of each one is, or randomized by blocks.

○ My congratulations on the project, I hope that everything goes well and that my comments can be useful.

Is the rationale for, and objectives of, the study clearly described? Yes

Are the datasets clearly presented in a useable and accessible format? Not applicable 1) We agree a longer follow up period would be worthwhile. We would like to consider an additional follow up at 12 months if feasible, as well as our 3-month follow up described. We have included a 12-month follow up in the updated protocol and outlined that it is subject to further ethics approval (page 8).

We still look forward to analysing what changes might occur over a 3-month period. 15 of the 46 studies we reviewed in our systematic review of primary care frailty interventions had follow up periods of circa 3 months and many showed statistically significant outcomes. We also found in our own feasibility study, which involved 94 participants, that improvements to general health were reported within two months. If positive outcomes can be demonstrated for a short time period, they will underline the benefit of investing participant and medical professional time and effort in promoting such interventions to achieve early and meaningful results.

We have added details about the type of device and limitations of bioimpedance to our protocol (pages 3 and 8). This is very helpful feedback which will help a future write up and publication offering. Below is a longer reflection on bioimpedance and limitations:

Bioimpedance analysis (BIA) is a safe, non-invasive and rapid way to assess body composition. Studies show that BIA is a reasonably accurate method for estimating body composition 1,2 . Accuracy is broadly in line with other gold standard measurements, with one study showing correlations with DXA of 0.90 and above for foot-to-hand single and multiple frequency BIA 2 .

However, limitations include a reduction in absolute accuracy introduced by variable factors such as body weight, hydration and recent exercise 1,3 . BIA may be less accurate in obese people 4 . High extracellular water and total body water may overestimate fat-free mass (muscle and bone) and underestimate fat mass in individuals with body mass indices greater than 34 kg/m 2 . Dehydration may cause fat-free mass to be underestimated 1 . High intensity exercise may also affect the accuracy of BIA readings 1 . Such variability in factors may contribute to reduced repeatability and reproducibility of results 5 .

Given the limitations described above, Buchholz has proposed that BIA may be acceptable for monitoring changes in body composition within individuals over time, while less accurate for single measurements in individual patients 6 .

A final limitation to consider is relative cost. We are using the Tanita RD 545 Segmental Body Composition Analyser. It applies dual frequency technology, which is the mainstay of medical grade products and achieves high level accuracy. Measurements that can be recorded include: weight; body mass index; total muscle mass; muscle mass of the arms and legs; muscle mass of the trunk; body fat content; body water content; base metabolic rate; bone weight; and 'biological age'.

We did also consider using DXA-scans to measure bone density and also apply a novel algorithm to estimating muscle mass. However, we decided that the additional (albeit small) radiation dose to participants, the cost and the logistical challenges (especially during a pandemic) rendered this option less appropriate.

3) We tried to get the balance right between recording enough information to establish meaningful study metrics and the practical constraints of a 15-minute primary care consultation for baseline and follow up visits. We do record diagnosed co-morbidities, including recurrent falls, that have been coded in the participant's patient file. Polypharmacy is picked up in twice annual 'chronic disease management (CDM)' consultations.

We began to measure gait speed at the start of our feasibility study. However, we noted that a free space of even 4m long was not readily available in small primary care (PC) practices. It was both a time-consuming variable to measure, as you mention, but also not practical in the confined spaces available, with corridors shared by other patients entering and exiting consultations or other facilities. We do record reported changes to walking/ slowness in the SHARE-FI model.

Thank you, we agree that multicomponent exercises and not just resistance can be beneficial to participants, as shown in evidence. Our exercise regime includes exercises that aim to improve flexibility and balance as well as strength. The exercise guide also includes walking for 20 minutes 3-4 times a week. We also include a component where participants increase the number of repetitions with time to increase exercise intensity.

The Vivifrail site is very helpful in demonstrating how to personalise exercise regimes for different ability levels. It points to how we can build on our exercises with more individualised regimes at follow up. The Vivifrail exercises are described as supporting strength, flexibility, balance and cardiovascular health. Many are similar to the exercises we are proposing. Our regime of 10 exercises provides even more exercise options than the 6 to 8 exercises in the Vivifrail passports.

6) Thank you, we wished to ensure that potential participants were involved in co-designing the trial to ensure their priorities were at its core. We will continue to incorporate gender perspectives in our future work. 7) All primary care practices in Ireland now have a 'chronic disease management (CDM)' programme for older people. A key part of CDM is to review medications with every patient and address polypharmacy where appropriate. This dovetails well with our frailty assessment and intervention as the CDM consultation (twice yearly) is an opportunity to introduce this intervention. Polypharmacy review can be done in parallel. Changes in the number and types of drugs might be more suited to our 12-month follow up than the initial 3-month one.

8) This is an excellent point. It would be very interesting to assess cognitive parameters. It is beyond the scope of this study but something we could address in future work. 9) Following review of the literature on recommended levels of protein in chronic kidney disease (CKD), we note recent guidance of daily protein intake of 0.6-0.8g /kg body weight for those with CKD stage 3-4 (unless on dialysis). We have added CKD stage 3 or 4 to our exclusion criteria (page 7). Thank you for this helpful feedback. Dietary protein intake and chronic kidney disease -PubMed (nih.gov) 10) Our systematic review and meta-analysis give some insight into this, with exercise regimes shown to be more effective in delaying or reversing frailty.

Randomising by blocks would increase the required sample size beyond what we can achieve in the time frame for this current study.

We can seek input from our independent statistician on how best to analyse the data to derive additional insights on differences of adherence to the exercise and dietary components in relation to outcomes.

Thank you for your constructive and helpful feedback.

No competing interests were disclosed.

Effectiveness of an intervention to prevent frailty in pre-frail community-dwelling older people consulting in primary care: a randomised controlled trial

Frailty in elderly people

PubMed Abstract | Publisher Full Text | Free Full Text 3. United Nations, Department of Economic and Social Affairs, Population Division: World population prospects: the 2017 revision, key findings and advance tables

Prevalence of frailty in communitydwelling older persons: a systematic review

Operationalization of frailty using eight commonly used scales and comparison of their ability to predict all-cause

Comparisons of accuracy of estimating percent body fat by four bioelectrical impedance devices with different frequency and induction system of electrical current

Bioimpedance at the bedside: current applications, limitations, and opportunities

Limitations and validation of bioelectrical 4

This is an open access peer review report distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

School of Allied Health, Ageing Research Centre, Health Research Institute, University of Limerick, Limerick, Ireland I am delighted with the opportunity to review the protocol for a randomised controlled trial of a primary care intervention to Reverse Frailty and Enhance Resilience through Exercise and dietary protein Education (REFEREE) in community-dwelling adults aged 65 and over. It is welcome to see interventions for frailty delivered in the community. The rationale for conducting the current study is well articulated and the manuscript adheres to the relevant standardised reporting guidelines. There are a few issues in the methods that warrant further clarification. In the methods section, it would be helpful if the authors justified the exclusion criteria (cut-off on CFS). Furthermore, the process around screening and recruitment could be clearer. Will the

Reviewer Expertise: geriatrics, frailty, polypharmacy, iatrogenia, nosocomial disability I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above.

John Travers, University College Dublin, Dublin, Ireland Dear Dr Martinez-Velilla, I am so grateful for your review and the constructive feedback you have offered that will strengthen this paper. I will work with our team to address each of these points and I look forward to submitting a revised version soon. Best wishes, John Thank you for this very helpful feedback and commentary. It helps us strengthen our protocol. I have addressed each of the points below, made amendments to the protocol and look forward to any other feedback that may arise.