Programme characteristics

According to the National Audit of Cardiac Rehabilitation (NACR), there were 231 CR providers across England, Northern Ireland and Wales in 2020⁽³³⁾. Others reported a further sixty-nine CR centres in Scotland^{(Reference Turk-Adawi, Supervia and Lopez-Jimenez34)}. We received responses from forty-nine different CR centres. This is an estimated response rate of ∼16 % of eligible centres, although the total number of CR programmes in the UK is now likely lower after many programmes were suspended during the coronavirus disease 2019 pandemic^{(Reference O’Doherty, Humphreys and Dawkes35)}. Although our sample includes less than one-fifth of CR centres, we received responses from all regions across the UK (Fig. 2), representing a range of socio-economically diverse areas. Forty-one responses (84 %) were from England. This representation is consistent with data from the NACR⁽³³⁾. The median 8-week duration of CR programmes in our sample was also consistent with NACR data⁽³³⁾. Therefore, we are confident that key characteristics of the sample of CR programmes included in this survey are typical of CR centres across the UK.

Dietary educators

Approximately half of the CR delivery teams in our sample contained dietary educators with no formal nutrition-related qualification. This is concerning and does not meet the BACPR minimum requirement for UK CR practitioners providing dietary education⁽³⁶⁾. That is, practitioners should be appropriately qualified and skilled, with demonstrable knowledge of seven nutrition-specific competencies⁽³⁶⁾. To our knowledge, this is the first study to report nutrition-specific qualifications of practitioners at UK-based CR programmes. Recently, European Society of Cardiology members recently cited lack of practitioner knowledge as detrimental to practise in secondary prevention of CVD^{(Reference Fitzsimons, Stępińska and Kerins37)}. Furthermore, 88 % of European Society of Cardiology members expected that greater patient compliance with lifestyle-related secondary prevention of CVD would be achieved with better education of the healthcare professionals advising them^{(Reference Fitzsimons, Stępińska and Kerins37)}.

A cardioprotective diet is a foundation for effective cardiovascular risk reduction^{(Reference Piepoli, Hoes and Agewall38)}. Patients are more likely to achieve meaningful reductions in body mass and blood pressure if attending a CR programme with, compared to without, a nutrition component^{(Reference Valentino, Galgani and Álamos39)}. Importantly, dietary education delivered by a dietitian can significantly improve body composition and lower blood lipids and blood pressure, compared with education delivered by non-dietitian practitioners^{(Reference Holmes, Sanderson and Maisiak40,Reference Riegel, Ribeiro and Rodrigues41)} . Despite this, around half of centres did not employ a dietitian and most practitioners delivering dietary education spend less than half a day per week focusing on nutrition (Fig. 3). Therefore, nutrition appears to be awarded low priority in UK CR programmes, despite it being a cornerstone of CVD prevention^{(Reference Visseren, Mach and Smulders6,42)} .

The value to patients of access to appropriately qualified and skilled practitioners should not be understated. Our findings suggest that the nutritional component of CR should be urgently targeted for additional investment. Moreover, minimum qualification and/or competency requirements for the provision of dietary education could be more rigorously adhered to. The number of practitioners with nutrition-specific qualifications in UK CR should be increased.

Dietary assessment

General dietary assessment was conducted with patients upon enrolment to CR in 80 % of programmes, adhering to the latest BACPR core standards⁽⁴³⁾. However, dietary assessment methods varied. Practitioners who did not perform dietary assessments cited lack of time, training and knowledge in nutrition as barriers. According to current guidelines from the BACPR, dietary assessment should be undertaken with all patients⁽⁴³⁾. Some dietary assessment tools in CVD have variable utility, due to low specificity to detect some nutrients^{(Reference Neubeck, Lowres and Jackson44)} or high time demand^{(Reference Aberegg, Collins and Hinderliter45)}. However, several validated rapid diet assessment tools exist^{(Reference Vadiveloo, Lichtenstein and Anderson46)}. Use of diet screening tools in practice can help standardise diet-related healthcare provision, identify patients in need of additional dietetic support and document changes to dietary habits following intervention^{(Reference Vadiveloo, Lichtenstein and Anderson46)}. In the CR setting, where dietary assessment is often performed by non-dietitians, validated scoring tools such as the Mediterranean Diet Score Tool⁽⁴⁷⁾ can facilitate quick identification of patients in need of additional dietetic support. To improve the accuracy of reporting, pictorial guides to portion sizes can also be provided. If required, patients can then be referred to a registered dietitian for comprehensive assessment of their dietary history and individualised advice.

Malnutrition was assessed in around half of CR centres with the MUST tool^{(Reference Stratton, Hackston and Longmore48)} being used most frequently (46·9 % of centres). Recently, one-third of patients undergoing percutaneous coronary intervention were at risk for malnutrition and lower nutritional risk score predicted in-hospital mortality^{(Reference Calvo, Teruel and Rosenfeld49)}. Furthermore, poor nutrition status is a diagnostic domain in several definitions of frailty^{(Reference Giallauria, Di Lorenzo and Venturini50)}, an age-related syndrome common in people with CVD^{(Reference Calvo, Teruel and Rosenfeld49)}. Consensus and increased utilisation of malnutrition assessments are required, in addition to supported services once malnutrition is identified.

We found formally documented assessment of dietary intake of patients at the start and end of the programme was underutilised. A core component of UK CR is audit and evaluation⁽⁵¹⁾; however, this is precluded in centres who do not document dietary assessment. There is a need for standardising assessment and reassessment methods for dietary history, and appropriate training for performing these assessments, within UK CR.

Dietary education

Dietary education was delivered twice (median) during CR programmes, although the frequency was highly varied across centres (between one and twelve sessions). Encouragingly, dietary education was most often in the form of dedicated nutrition content rather than in combination with other risk factor management strategies (Table 1), which could diminish the impact of the dietary education. Lara-Breitinger and colleagues^{(Reference Lara-Breitinger, Lynch and Kopecky52)} suggest that ≥ 3 dietary education sessions are needed, based on a non-randomised controlled trial showing two education sessions were not better at modifying fat and carbohydrate intake compared with standard care after 6 weeks and 3 months.^{(Reference Timin, Shores and Reicks53)} However, both intervention and standard care groups increased carbohydrate and reduced saturated fat intake, in line with recommended targets^{(Reference Timin, Shores and Reicks53)}. Therefore, dietary intake may be meaningfully altered with any dietary intervention. Where capacity allows, increasing the number of dietary education sessions in UK CR should be considered to optimise patient outcomes.

Figure 4 summarises the key focus of diet sessions delivered in CR. The Mediterranean-style diet was ranked as the pattern most frequently offered to patients (Table 2). Other whole-food approaches, including the DASH and Nordic diets, were offered. The basis of most healthy diet patterns, such as the DASH and Nordic diets and those advocated by the Eatwell Guide and BHF, shares key qualities with the Mediterranean diet^{(Reference Sacks, Obarzanek and Windhauser54–Reference Scarborough, Kaur and Cobiac57)}. Broadly, these recommendations are derived from research findings, which suggest a cardioprotective effect of eating plentiful fruits, vegetables^{(Reference Aune, Giovannucci and Boffetta58)}, legumes^{(Reference Ha, Sievenpiper and de Souza59)}, wholegrains^{(Reference Aune, Keum and Giovannucci60)}, olive oil and nuts^{(Reference Estruch, Ros and Salas-Salvadó61)} and reducing or replacing saturated fats with unsaturated fats^{(Reference Jakobsen, O’Reilly and Heitmann62)}. Although not widespread, there were non-evidence-based resources used in one CR programme, which is concerning. Reassuringly, dietary education appears largely evidence based. Centres should be signposted to evidence-based and alerted to non-evidence-based resources.

Recommendations for macronutrient intake

Dietary education in UK CR appears to be focused on encouraging a general healthy dietary pattern rather than on individual nutrients. Reports from large cohort studies (n > 120 000) show that modulating macronutrient intake (either by altering food quantity or quality) is associated with changes to cardiovascular risk^{(Reference Li, Hruby and Bernstein63)}. Substituting 5 % intake of carbohydrates from refined starches or added sugars, with PUFA or wholegrains, or substituting 5 % intake of SFA with PUFA reduced CVD risk in middle-aged and older adults^{(Reference Li, Hruby and Bernstein63)}. Accordingly, in the current sample, wholegrains and unsaturated fats were favoured over non-wholegrain carbohydrate sources and saturated fats, respectively. However, 64 and 76 % of practitioners do not recommend a specific amount of dietary fat or carbohydrate to patients, respectively. This is consistent with guidelines advocating a ‘whole diet’ approach rather than focus on specific macronutrients^{(Reference Butler, Kerley and Altieri5,42)} . In a UK Biobank study (n 210 106 adults aged 40–69 years), two-thirds exceeded recommended saturated fat intake and half did not meet the recommended carbohydrate intake^{(Reference Bennett, Peters and Woodward64)}. Therefore, food-based recommendations should be tailored to encourage optimised fat and carbohydrate intake, without implementing specific nutrient targets.

Higher protein intake supports recovery without complications from illness or injury^{(Reference Cawood, Elia and Stratton65)} and is associated with higher muscle mass and strength in patients attending CR^{(Reference Harada, Kai and Niiyama21)}. However, no responses referenced protein intake as a key focus of CR dietary education. When prompted, the most frequently cited examples of protein sources recommended to patients were meat products (81 %). The Eatwell Guide recommends non-animal sources of protein, in addition to animal sources, due to their greater environmental sustainability^{(Reference Buttriss66)}. We found that beans, pulses and legumes were recommended by 61 % of practitioners, although soya products and meat-free alternatives such as mycoprotein (QuornTM) were less frequently mentioned. Additional focus on general protein intake and on non-animal sources of protein would be of benefit in CR dietary education.

Tailoring dietary education for co-morbidities

Co-morbidities frequently addressed during CR included dyslipidaemia, hypertension, diabetes and obesity. These were addressed by formal assessment, individual targeting of dietary advice or referral to a specialised dietitian (Fig. 6). Practitioners more frequently referred patients to specialist dietitians for targeted dietary advice related to diabetes and obesity, over dyslipidaemia and hypertension. Access to tailored dietary information for a range of co-morbidities is important for people with CVD; among patients accessing CR programmes in the UK, 77·0 % presented with two or more co-morbidities⁽³³⁾. It is promising that dietary education is tailored towards specific conditions in CR, either in-house or via referral to specialist dietitians. In a large, multi-country cohort study in people without history of CVD, presence of dyslipidaemia, hypertension, diabetes and abdominal obesity was associated with an increased risk of myocardial infarction over 10 years^{(Reference Yusuf, Joseph and Rangarajan67)}. Modification of dietary intake to address these risk factors will likely improve long-term outcomes for patients following CR.

Sarcopenia and frailty were not prioritised by practitioners for assessment, targeting of individualised advice or referral to a specialised dietitian (Fig. 6). Furthermore, maintenance of muscle mass and bone health were low ranking reasons for dietary modification, as discussed with patients. This indicates that dietary modifications to support musculoskeletal health are low priority during current UK CR practice. This reflects our findings related to education on macronutrients, where protein intake was less commonly addressed than fat and carbohydrate intake. Importantly, the BACPR core standards highlight that dietary advice should support improvements in body composition, including gaining or maintaining muscle mass⁽⁴³⁾. Sarcopenia and frailty should be considered within tailored nutrition prescriptions^{(Reference Abreu, Frederix and Dendale68)}.

Implications for practice

Based on the findings of this survey, our recommendations for practice include

• The number of practitioners with nutrition-specific qualifications in UK CR should be increased, in accordance with the BACPR minimum competency requirements for the provision of dietary education.

• Standardised assessment and reassessment of dietary history should be implemented. Provision of appropriate training for practitioners to conduct these assessments is important.

• Consensus and increased utilisation of malnutrition assessments are required.

• Where capacity allows, increasing the number of dietary education sessions within core CR programmes should be considered.

• CR centres should be directed to evidence-based, over non-evidence-based, resources.

• Emphasis on overall protein intake, particularly from non-animal sources, would be of benefit in CR dietary education.

• Sarcopenia and frailty commonly coexist with CVD and should be considered within nutrition prescriptions, where indicated.

Strengths and limitations

The study provides a novel cross-sectional overview of current dietary education in CR. We include responses representing all parts of the UK. Our findings set a platform from which dietary education within services can be targeted and improved.

The survey questions were designed by the research team, which we acknowledge as a potential source of bias. The geographical distribution and median duration of CR programmes from which we received responses were broadly aligned with national averages from the larger NACR sample. However, we acknowledge that self-selection bias will influence the findings of this voluntary survey and that a higher response rate would have improved the certainty of our findings. Survey recruitment methods predominantly targeted BACPR members, potentially limiting the representativeness of the sample. The survey was conducted during the coronavirus disease 2019 pandemic, which may have negatively affected the response rate and/or captured responses from CR programmes operating with an altered delivery method. Finally, responses were collated from one practitioner from each centre, who predominantly reported on their own experiences and practices. Clinicians who were not solely responsible for delivering dietary education at their CR centre might be unaware of the nature of dietary education being provided by their colleagues, as reported by others^{(Reference Mayr, Savill and Law23,Reference Meyer, Coveney and Ward69)} .