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Achieving health through diet: a joint event of the Sabri Ülker Foundation and The Nutrition Society of UK and Ireland, May 2022

Published online by Cambridge University Press:  08 February 2023

Charlotte Elizabeth Louise Evans*
Affiliation:
University of Leeds, Leeds, UK
Halit Tanju Besler
Affiliation:
Istanbul Kent University, Istanbul, Türkiye
Özge Dinç
Affiliation:
Sabri Ülker Foundation, Istanbul, Türkiye
Michael E. J. Lean
Affiliation:
University of Glasgow, Glasgow, UK
Julie Anne Lovegrove
Affiliation:
University of Reading, Hugh Sinclair Unit of Human Nutrition, Department of Food and Nutritional Sciences, Reading, UK The Nutrition Society of UK and Ireland, London, UK
Nicola M. Lowe
Affiliation:
University of Central Lancashire, Preston, UK
John Mathers
Affiliation:
University of Newcastle, Newcastle, UK
Begum Mutuş
Affiliation:
Sabri Ülker Foundation, Istanbul, Türkiye
Ilhan Satman
Affiliation:
Istanbul University, Istanbul Faculty of Medicine, Department of Internal Medicine, Istanbul, Türkiye
Mine D. Tanriover
Affiliation:
Hacettepe University, Faculty of Medicine, Department of Internal Medicine, Ankara, Türkiye Hacettepe University, Vaccine Institute, Department of Immunization Policies, Ankara, Türkiye
Alison Tedstone
Affiliation:
Department of Health and Social Care, London, UK
Claire Theobald
Affiliation:
The British Nutrition Foundation, London, UK
Serhat Unal
Affiliation:
Hacettepe University, Vaccine Institute, Department of Immunization Policies, Ankara, Türkiye Hacettepe University Faculty of Medicine, Department of Infectious Diseases and Clinical Microbiology, Ankara, Türkiye
Erkki Vartiainen
Affiliation:
Finnish Institute for Health and Welfare, Helsinki, Finland
Rachel Wall
Affiliation:
Department of Health and Social Care, London, UK
Nazan Yardim
Affiliation:
Turkish Ministry of Health, GD Public Health, Ankara, Türkiye
Julian D. Stowell
Affiliation:
Sabri Ülker Foundation, Istanbul, Türkiye
*
*Corresponding author: Charlotte Elizabeth Louise Evans, email [email protected]
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Abstract

Optimum nutrition plays a major role in the achievement and maintenance of good health. The Nutrition Society of the UK and Ireland and the Sabri Ülker Foundation, a charity based in Türkiye and focused on improving public health, combined forces to highlight this important subject. A hybrid conference was held in Istanbul, with over 4000 delegates from sixty-two countries joining the proceedings live online in addition to those attending in person. The primary purpose was to inspire healthcare professionals and nutrition policy makers to better consider the role of nutrition in their interactions with patients and the public at large to reduce the prevalence of non-communicable diseases such as obesity and type 2 diabetes. The event provided an opportunity to share and learn from different approaches in the UK, Türkiye and Finland, highlighting initiatives to strengthen research in the nutritional sciences and translation of that research into nutrition policy. The presenters provided evidence of the links between nutrition and disease risk and emphasised the importance of minimising risk and implementing early treatment of diet-related disease. Suggestions were made including improving health literacy and strengthening policies to improve the quality of food production and dietary behaviour. A multidisciplinary approach is needed whereby Governments, the food industry, non-governmental groups and consumer groups collaborate to develop evidence-based recommendations and appropriate joined-up policies that do not widen inequalities. This summary of the proceedings will serve as a gateway for those seeking to access additional information on nutrition and health across the globe.

Type
Workshop Report
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Nutrition Society

Optimum nutrition plays a major role in the achievement and maintenance of good health and well-being. However, the current situation in many countries in terms of dietary behaviour is far from optimal. The Sabri Ülker Foundation (SUF) (https://www.sabriulkerfoundation.org/en) was established as a charity in Tűrkiye in 2009 in the name of a leading entrepreneur and philanthropist. It recently combined forces with the Nutrition Society of the UK and Ireland (https://www.nutritionsociety.org/) to highlight this important subject. A hybrid conference was held in Istanbul, with over 4000 delegates from sixty-two countries joining the proceedings live online in addition to those attending in person. The event provided an opportunity to share and learn from experiences of nutrition-related regulation, policy and research from the UK, Türkiye and Finland, highlighting different approaches and focusing on a range of initiatives to strengthen research in the nutritional sciences and translation of that research into nutrition policy. The primary purpose was to inspire healthcare professionals and nutrition policy makers to better consider the role of nutrition in their interactions with patients and the public to improve the management and reduce the incidence of diet-related diseases including obesity and type 2 diabetes. The presenters provided evidence of the links between nutrition and disease, highlighted the importance of reducing the risk and early treatment of diet-related disease and made suggestions for improving health literacy (HL) and strengthening policies to improve the quality of food production and dietary behaviour.

Diet and disease

The Global Burden of Disease analysis estimates that poor diet is responsible for approximately 11 million deaths and 255 million disability-adjusted life years annually around the world(1). Both over- and undernutrition are common. In many countries, diets are too low in fruits, vegetables and wholegrain and too high in fats, sugars and Na leading to higher rates of overweight and obesity. Rising rates of obesity over the past 3–4 decades have contributed to increased risk of common non-communicable diseases that are the major causes of morbidity and mortality globally including type 2 diabetes mellitus (T2DM), CVD, some cancers and mental health issues(2). In 2021, the WHO declared that over 1·9 billion people aged 18+ years were overweight with 650 million of these being obese(3). In the WHO European Region, overweight and obesity affect almost 60 % of adults. In higher income countries, overweight and obesity are more common among less-advantaged sections of the community. However, in contrast, in most countries of sub-Saharan Africa, obesity prevalence increases with wealth(Reference Yaya, Anjorin and Okolie4) and therefore requires different approaches. The rise in childhood obesity is of particular concern as it increases the risk of adulthood obesity(Reference Ward, Long and Resch5), cardio-metabolic diseases and premature mortality. Nearly one in three children (29 % of boys and 27 % of girls) in the WHO European Region are overweight or obese(6) although there are huge variations by country.

Related to high obesity rates is the concomitant high rate of T2DM in many countries. In 2021, 537 million people were living with any type of diabetes, estimated to be one-in-ten people aged 20–79 years, and similar numbers were living with impaired glucose tolerance(7). This prevalence varies substantially by ethnicity(Reference Goff8) with high prevalence in South Asians(Reference Sattar, Welsh and Leslie9). The increase in prevalence of T2DM is mainly due to populations gaining weight, at younger ages. T2DM is a nutritional disease of fat storage and just one of many chronic disease outcomes which commonly coexist as ‘multi-morbidity’. Its disabling, painful, life-shortening complications (in increasingly younger populations) now dominate many healthcare budgets as highly expensive drugs are prescribed to try to modify complications(Reference Hex, Bartlett and Wright10).

Hidden hunger, which refers to micronutrient deficiencies, is also common and may be present with or without a deficit in total energy intake and is therefore present in both over- and undernutrition. Micronutrient deficiencies affect growth as well as physical and cognitive development in children, and impaired immune function in adults, leading to increased morbidity and susceptibility to communicable as well as non-communicable diseases(Reference Hawkes, Ruel and Salm11,Reference Calder12) .

Specific micronutrients have well-known antioxidant and immunomodulatory properties and specific deficiencies in vitamins A, B12, C, D, E, folic acid, and minerals including Fe, Zn, Se, Mg and Cu can lead to immune dysfunction and increased susceptibility to microbial infections(Reference Gombart, Pierre and Maggini13). In addition, metabolites of n-3 fatty acids play an important role in immune function based on their anti-inflammatory properties(Reference Calder12,Reference Maggini, Pierre and Calder14) . The COVID-19 pandemic has further highlighted the importance of good nutrition for health in relation to communicable diseases identifying inflammation, hyperglycaemia, hyperlipidaemia, obesity and chronic disease as risk factors for more serious infection, more invasive procedures and a higher mortality rate in patients(Reference Sawadogo, Tsegaye and Gizaw15), and these outcomes may be independently predicted by malnutrition(Reference Vong, Yanek and Wang16). Research is ongoing into specific nutrients and COVID-19. Immune-boosting properties of vitamins C, D, E, Zn, Se and n-3 fatty acids(Reference Shakoor, Feehan and Al Dhaheri17) and healthy diet patterns such as the Mediterranean diet(Reference Mirzay-Razaz, Hassanghomi and Ajami18) could provide possible benefits to patients with COVID-19, particularly in elderly people, but results are inconsistent. A review of the evidence by the UK Scientific Advisory Committee on Nutrition (SACN) supports following a balanced diet and complying with dietary recommendations to achieve optimal immune function, but not the intake of any specific nutrients, including vitamin D, above current recommendations(19). More research is needed to better understand the clinical importance of diet and micronutrient supplementations in prevention and management of SARS-CoV-2 patients(Reference Diyya and Thomas20,Reference Beran, Mhanna and Srour21) .

Global action to improve diet and health

WHO and the World Cancer Research Fund (WCRF) have both recommended actions to improve dietary behaviour. The EAT-Lancet report(Reference Willett, Rockstrom and Loken22) took into account planetary boundaries as well as health-related factors and strongly recommended improvements to the food system in order to optimise diet and planetary health, to feed 10 billion people sustainably while saving an estimated 11 million lives per year. WHO have put forward the best value (in health economic terms) national policies for countries to follow named ‘best buys’, which include taxes on sugary drinks and reformulation to eliminate trans fats(23), while the changing behaviour framework from WCRF for healthy populations recommends a range of actions from education to labelling, fiscal policies, marketing and food supply(24). However, these policies generally are not implemented well enough(Reference Allen, Wigley and Holmer25).

For population-scale interventions to improve undernutrition, fortification and bio-fortification offer the most practical solutions. Fortification of salt with iodine has been a global success story in terms of international reach and the global impact on iodine deficiency disorders(Reference Zimmermann and Andersson26). However, effective national or regional monitoring of the fortification process is needed to ensure that the target level of added micronutrient in the food product is consistently achieved. Bio-fortification involves the enhancement of the nutrient content of the staple crops through traditional selective breeding techniques, genetic modification and/or agronomic methods such as the application of micronutrient fertilisers. It has the potential to be sustainable and highly cost effective because the high nutrient varieties can be released to farmers, replacing standard varieties over time, and thus raising the micronutrient intakes of the population. Some success has already been demonstrated around the world, for example, the release of vitamin A-rich maize in Zimbabwe, Fe-rich beans in Uganda and Zn-rich wheat and rice in Bangladesh(27).

Further challenges relate to evaluation of intervention programmes. Fe is a ‘type 1’ nutrient, meaning that a deficiency results in specific, measurable biochemical and metabolic consequences. As such, the diagnostic criteria for Fe deficiency (and similarly for iodine) are well defined and provide a robust indicator of an individual’s Fe (or iodine) status(Reference Lynch, Pfeiffer and Georgieff28). In contrast, Zn is a type 2 nutrient, meaning that the consequences of deficiency are general and non-specific, making diagnosis challenging(Reference King, Brown and Gibson29). The identification of novel, sensitive biomarkers of Zn status is a research priority, and recent studies suggest that blood fatty acid ratios(Reference Massih, Hall and Suh30) and indices of oxidative stress, such as DNA damage(Reference Zyba, Shenvi and Killilea31), may be responsive to small changes in dietary Zn intake.

Despite extensive recommendations and action from global organisations such as WHO and the FAO of the United Nations, countries struggle to optimise dietary behaviour. Sadly, global malnutrition is on the rise due to conflict and climate change(32), despite the United Nations (UN) decade of action for nutrition (2016–2025), and the drive to meet the UN sustainable development goal for zero hunger(33). The current situation in Türkiye and learnings from approaches in the UK and Finland are discussed in the next sections.

The current status of nutrition and health in Türkiye

In common with many countries, Türkiye is focused on improving the health and nutritional status of its population. Türkiye is suffering a larger burden of disease than most countries in Europe in terms of T2DM(7) and obesity(6), and major causes of death are CVD and lung cancer(34). Furthermore, the population is younger than elsewhere and therefore the burden is likely to increase in the future. TURDEP-I (1997–8) and TURDEP-II (2010) are two comprehensive population-based field surveys conducted by Istanbul University in collaboration with the Ministry of Health and under the monitoring of WHO in the same 540 centres throughout Türkiye and providing key information on diet and health(Reference Satman, Yilmaz and Sengül35,Reference Satman, Omer and Tutuncu36) . In addition, in 2019 the Republic of Türkiye Ministry of Health published a comprehensive report on the Türkiye Nutrition and Health Survey undertaken in 2017, highlighting areas of concern(37). The key public health priorities in Türkiye are to reduce tobacco and alcohol use, to increase physical activity and to improve poor diets.

Obesity and diabetes in Türkiye

In 2016, Türkiye was ranked number one across the WHO European Region in terms of prevalence of overweight and obesity in adults(6). The mean age standardised prevalence of combined overweight and obesity was 66·8 % of whom 32·1 % were obese(6) (using data from the STEPS survey(38)). The results from the 2017 Türkiye Nutrition and Health Survey using different age ranges reported that the frequency of individuals aged 15 years and over who were overweight was 35·6 % (males: 41·2 %; females:30·1 %), and the frequency of those who were obese was 28·8 % (males: 21·6 %; females: 35·9 %). The situation is worsening and a 44 % overall increase in obesity was observed between TURDEP-1 (1998) and TURDEP-II (2010)(39). Obesity is more common in young and middle-age women than in men. However, the rate of increase in obesity was higher in men than in women (107 % v. 34 %). The estimated obesity prevalence in the elderly (65+) is 36·8 % while 4·4 million children under 5 years old (7·9 %) are overweight or obese(6).

High rates of obesity increase the risk of T2DM and Türkiye ranks first in Europe with a diabetes prevalence of 14·5 % and a diabetes population of over 9 million according to 2020 data(7). Age-adjusted diabetes prevalence increased by 90 % from 6·6 % in 1998 to 14·1 % in 2010, with 44 % undiagnosed. According to TURDEP-II, in 2010 approximately 30 % of the adult Turkish population had some degree of pre-diabetes (impaired glucose tolerance and/or Impaired fasting glucose (IFG))(Reference Satman, Omer and Tutuncu36). These rates are likely to worsen with an ageing population, and the need for preventative action is urgent.

Nutrient deficiencies and dietary behaviour in Türkiye

Dietary intakes are currently not optimal for health in Türkiye with under- and overconsumption identified. Specific nutrient deficiencies include Fe deficiency anaemia which remains an important public health problem. All age groups but particularly preschool and school-age children, adolescents and pregnant and lactating women are at risk. Severe vitamin D deficiency (< 10 ng/ml) was found in 3·1 % of men and 12·7 % of women. Furthermore, according to the most recent data, 27·8 % of the population has iodine deficiency. Niacin and vitamin B12 status is also low in sectors of the population(37).

Overconsumption of some nutrients is an issue as it is in many countries. Salt consumption is twice that recommended by the WHO(37) although it has significantly decreased. Mean intakes of saturated fats are also above recommended, and daily intakes have increased from 9·4 g in 2010 to 11·4 g in 2017(37). However, total sugar consumption decreased from 33·0 to 30·6 g in the same time period(37). Although Türkiye is one of those rare countries where the four seasons can be experienced simultaneously, consumption of fruits and vegetables is low(37). As elsewhere, food waste is also an issue at an estimated 18 million tonnes per annum according to one source(40). Future policy action must aim to improve nutrient density of the diet and not solely focus on reducing fats, sugars and salt.

Health literacy in Türkiye

A further concern in Türkiye is the low level of HL, that is, the ability to accurately interpret health information. Modern healthcare systems can be difficult to navigate especially for those who are disadvantaged, vulnerable and elderly. Recently, personal HL has been defined as the degree to which individuals have the ability to find, understand and use information and services to inform health-related decisions and actions for themselves and others(4143).

In 2014, a Health Literacy Survey devised by the European Union was translated into Turkish(Reference Sorensen and Ristolainen44) and used to investigate the HL level of the adult population(Reference TANRIÖVER, YILDIRIM and READY42). The mean general HL index of the adult population was estimated as 30·4 over a scale of fifty points. It was determined that 64·6 % of the population fell into the ‘inadequate’ (24·5 %) or ‘problematic’ (40·1 %) HL category, which corresponded to almost 35 million adults. The level of HL was inversely correlated with age and directly correlated with educational level. Furthermore, higher use of healthcare services and a higher incidence of disease were associated with lower HL levels. According to the data, 43·5 % of those with inadequate HL level, 22·6 % of those with problematic HL, 19·7 % of those with adequate HL and only 13·5 % of those with excellent HL have a diagnosed disease.

Strategies to increase the HL in Türkiye should focus on improving the general literacy level of the population, empowering women and establishing a social structure which protects the vulnerable and disadvantaged people, and which attains socio-economic justice.

Actions to improve diet and health in Türkiye

Public health actions in Türkiye

A number of different policies and programmes are currently being implemented in Türkiye to improve diet and health, indicating strong political will to improve health. An awareness that tackling obesity needs to involve multisector collaboration has led to a wide range of voluntary and mandatory policies. The 2010 ‘Turkish Healthy Eating and Active Life Program’, updated for 2019–2023, covers the following objectives: evaluating the current status of obesity, halting childhood obesity, increasing physical activity and monitoring, evaluation and research. The action plan aims for a wide reach and is being implemented under the following headings:

  • Awareness studies, campaigns, public education and in-service trainings

  • Developing standards, guidelines and legislation especially focusing on children, including the Nutrition-Friendly School Program (the School Milk Program, Raisins Program, School Canteens Foods and Beverage standards, School Food Logo, Restriction of junk-food advertising for children on TV, Curriculum changes to improve HL and increasing physical activity at school) and

  • Reorganisation of health services(45).

The following interventions have been implemented.

Public awareness, public education and education in schools’ campaigns: School physical activity videos have been made with the involvement of the Ministry of Education, Ministry of Health and General Directorate of Public Health. Social media has been used to disseminate information (https://hsgm.saglik.gov.tr/tr/beslenmehareket-anasayfa).

Standards and guidelines: The following have been published and implemented:

  • Food and Beverage Standards for School Canteens (2015)(46)

  • FitnessGram Test for secondary and high schools including anthropometric measurements (2017)(47)

  • Turkish Dietary Guidelines(48) updated for 2023(48)

  • Food Profile Guide to reduce marketing pressure on children(49)

  • Obesity and Diabetes Clinical Guideline for Primary Health Care(50)

  • Weight Control and Monitoring Guide for dieticians(51)

  • Adult and Child Physical Activity Guidelines for Physicians(52,53)

  • Health Promotion Municipalities, specifically supporting healthy nutrition and improving the environment and

  • Work Place Programmes in collaboration with Health Province Directorates(54,55) .

Regulations: The sale of foods and beverages with high energy, fat, sugar and salt contents including chips, chocolates, candies, confectionery and sugar-sweetened beverages has been banned in schools. A School Foods Logo and compositional criteria have been developed for packaged cakes, biscuits, sugary milk, yogurt and ice cream in collaboration with industry, the Ministry of Education and the Ministry of Agriculture(56,57) . Advertising of ‘red list’ foods aimed at children has been prohibited since 2018. These include chocolates, candies, biscuits, cakes, chips, fruit juices, carbonated drinks, energy drinks and edible ices(58,59) . Trans-fatty acids have also been banned. In addition, the Ministry of Agriculture has implemented salt reduction regulations to include bread, tomato paste, cheese and olives. Salt packages must carry the following message: ‘Reduce salt, maintain your health’(60). Industry is collaborating on salt reduction, and taxes have been introduced for a range of products deemed to be contrary to optimum nutrition.(61). The School Lunch Programme has been included in the 11th Development Plan (2019–2023)(62).

Reorganised health services: Healthy Living Centres have been established as an element of Primary Health Care. Obesity centres have been established in 121 hospitals.

In addition to the official activities listed above, Turkish scientists, institutes and authorities are actively engaged in a variety of relevant European Union projects. These actions have contributed to improvements in salt and sugars intake with reported daily salt consumption in adults decreasing from 17·5 g in 2008 to 10·2 g in 2017, and the reported consumption of added sugar decreasing from 33 g to 30·6 g(Reference Gumus, Celik and Ozkan6365).

Actions for prevention and management of diabetes

The objectives of the Türkiye Diabetes Prevention and Control Programme 2011–2014 and the Türkiye Diabetes Programme 2015–2020 included the following:

  • Policy development and implementation of effective diabetes management

  • Prevention and early diagnosis of diabetes

  • Ensuring effective treatment of diabetes and its complications

  • Improving the care and treatment of type 1 diabetes in childhood

  • Preventing obesity and T2DM and

  • Monitoring and evaluation of the diabetes program.

DE-PLAN Türkiye (a joint project conducted in eighteen European countries aiming to prevent diabetes and funded by the European Commission Sixth Framework Program), focusing on low-fat and high-fibre diets together with increased physical activity, has reported some success in the prevention of T2DM with 21 % of participants returning to normal glucose tolerance levels and a 76 % reduction in hyperinsulinaemia(Reference SATMAN, ÇAKMAKCI and Kural66). However, given the current statistics and the ageing population, there is still much to be done. Currently, the Türkiye Diabetes Programme 2023–2027 Action Plan is under preparation.

The Sabri Ülker Foundation initiatives in Türkiye

In addition to government-funded nutrition programmes in Türkiye, charities also make an important contribution to nutrition and public health. The primary purpose of the SUF is to make a positive contribution towards improving public health in Tűrkiye and beyond. The programme of the Foundation is managed by a Science Committee under the headings: Research, Education and Communications. The activites of SUF are summarised in the Foundation website (https://sabriulkerfoundation.org/EN/). A major initiative has been underway in Tűrkiye to emphasise the role of nutrition in achieving and maintaining health, and target audiences have included schoolchildren, healthcare professionals and media representatives. In 2011, the Foundation initiated its ‘Balanced Nutrition Education Project’; a programme provided to primary school children, supported by a wide range of materials aimed at inspiring the children to improve their nutrition and lifestyle. It has been implemented across Türkiye in conjunction with the Turkish Ministry of Education and has so far reached over 6 million students, their teachers and families. The impact of the intervention was evaluated by researchers in Turkish universities and identified positive trends, both in terms of nutrition and physical activity(Reference Besler, Meseri and Küçükerdönmez67). The SUF has also addressed the question of HL via a range of activities including workshops for media and healthcare professionals and collaboration with the European Food Information Council and the British Nutrition Foundation (BNF).

Every country in Europe has taken a unique approach to improving nutrition and health over the last 50 years. Here we discuss two examples of policies and actions in Finland and in the UK that are relevant to nutrition policy in Türkiye and elsewhere.

Finland: an example of the power of interventions

In the 1960s, Finland, and especially North Karelia in the eastern part of the country, had the highest rate of cardiovascular mortality in the world. The decision was made to target the whole community to address whether risk factors and behaviours can be changed on a population level and if so, what happens to mortality rates. The North Karelia Project was started as a comprehensive preventive programme to reduce serum cholesterol levels, high blood pressure and smoking. The main aims related to diet were to reduce intake of saturated fats, mainly coming from dairy and meats, and replace them with polyunsaturated fats, as well as to reduce salt intake in the whole population(Reference Puska, Vartiainen and Nissinen68).

Based on established theoretical frameworks for behaviour modification, practical interventions were implemented which included improving knowledge and skills, incorporating social and environmental support and involving community organisations including lay opinion leaders, to promote health innovations in the community. Specific strategies were developed for schools and workplaces(Reference Puska, Vartiainen and Laatikainen69).

Cross-sectional population surveys were completed every 5 years starting in 1972. Results of the surveys indicated that saturated fats reduced from 20 % of energy intake to 12–14 % from 2007 to 2017 mainly by substitution with polyunsaturated fats(Reference Vartiainen, Laatikainen and Tapanainen70). Salt intake was reduced from 14 g to 9 g in men and from 11 g to 7 g in women. There was a substantial shift in the concept of what constitutes a healthy diet and smoking also declined from 52 % to 25 % in men.

Both risk factors and health outcomes improved substantially. Between 1972 and 2012, serum cholesterol was reduced from 6·9 mmol/l to 5·5 mmol/l (21 %) in men and from 6·8 mmol/l to 5·4 mmol/l (21 %) in women. Adults were invited once per year to have their blood pressure taken and get advice. Systolic blood pressure reduced from 148 mmHg to 135 mmHg in men and from 153 mmHg to 129 mmHg in women. Premature cardiovascular mortality in men declined by 84 %. After the 1980s, improvement in treatment explained a significant part of the decline(Reference Jousilahti, Laatikainen and Peltonen71). Many activities were expanded to the rest of the country. The only factor that is worsening is obesity; mean BMI has increased since 1972.

The medical community reached consensus on the role of dietary fats on serum cholesterol and CHD. Political consensus was achieved, and the Finnish Parliament agreed a health policy statement where prevention was key. After that agriculture policy and legislation were developed to support a healthy diet, with farmers encouraged to change from dairy products to berry and rapeseed oil production. Animal feed was also improved to reduce the saturated fat in milk.

The changes in policy also provided an incentive for the food industry to develop healthier products such as transferring to rapeseed oil to reduce trans fats in baked goods. Plant stanol esters, which can lower cholesterol, were incorporated into spreads as a replacement for butter and the use of rapeseed oil for cooking increased. The project continues through the implementation of innovative approaches including village competitions and reality TV programmes.

In conclusion, improved health by dietary changes is feasible at a population level but requires active work and large-scale cooperation between all meaningful sectors in society sustained over long periods of time.

The current status of nutrition and health in the UK

Prevalence of excess weight has increased over the last three decades: in England approximately 28 % children aged 4–5 years are living with overweight or obesity increasing to 41 % by aged 10–11 years(72) which worsened during the COVID-19 pandemic. In England, deprivation and obesity are strongly associated(73,74) ; however, failure to meet dietary recommendations is seen across all income groups. UK diets generally do not meet evidence-based recommendations as depicted in the Eatwell guide(75) and are high in saturated fat and free sugars and low in fruit and vegetables, fibre and oily fish(76,Reference Scheelbeek, Green and Papier77) . Average energy intakes exceed those for a healthy body weight for adults by an estimated 300–1200 kJ/d (70–300 kcal), for adults living with overweight and obesity by an estimated 1000–1800 kJ/d (250–400 kcal), for children by an estimated 84–418 kJ/d (20–100 kcal) and for children living with overweight and obesity by an estimated 586–2092 kJ/d (140–500 kcal)(78).

UK policies and strategies to improve diet and health

Tackling obesity has remained on the UK’s health agenda for three decades and involves many organisations in the four regions of the UK (health is devolved to the four regions of England, Scotland, Wales and Northern Ireland in the UK). In England, it includes Office for Health Improvement and Disparities (formerly part of Public Health England) based in the Department of Health and Social Care, community-based health services and charities.

The UK SACN established in 2000(79) provides independent scientific evidence-based advice to UK government organisations including Office for Health Improvement and Disparities in England, the Food Standards Agency in Scotland and health agencies in Wales and Northern Ireland, on nutrition and related health matters. Suggestions for nutrition priorities for risk assessment come from a variety of sources, including new evidence on possible diet–health interactions, requests from government ministers, UK Health Departments, Non-Government Organisations, Industry and SACN members. SACN must also respond to unexpected nutritional issues of concern, a recent example of which is the COVID-19 pandemic. SACN’s terms of reference include: (i) nutrient content of individual foods, and diet as a whole, and the nutritional status of people; (ii) how nutritional status of people in the UK may be monitored; (iii) nutritional issues which affect wider public health policy issues; (iv) nutrition of vulnerable groups and health inequality issues and (v) research requirements for these areas.

SACN publishes reports (https://www.gov.UK/government/groups/scientific-advisory-committee-on-nutrition) which have led to the formation of numerous Government policies on nutrition. For example, in 2015 these include the redefinition and new dietary reference values for dietary fibre (30 g/d) and free sugars (< 5 % total energy per day)(80), establishing dietary reference values for the intake of vitamin D (10 μg/d or 400 μg/d) for the general population aged 4 years and older in 2016(81), and saturated fat (less than 10 % total energy/d), with guidance for its replacement with unsaturated fats for those 5 years and older in 2019(82). In 2017, SACN recommended mandatory fortification of flour with folic acid to reduce the risk of neural tube defects in babies(83 ) but this has yet to be implemented. Data from the cross-sectional National Diet and Nutrition Survey rolling programme are used by SACN to identify dietary intake and nutritional status of a representative UK population and to model and develop new dietary recommendations.

New dietary recommendations by SACN are considered and acted upon by government departments leading on public health in the four devolved nations within the UK. Education and health promotion has been a central component of UK Government strategies to improve diet and reduce obesity. Campaigns promoting salt reduction(84) and sugar reduction(85), increasing fruit, vegetable and fibre consumption through ‘5-a-day’(86) and front-of-pack ‘traffic light’ labelling(87) have received significant investment and have focused on empowering the population to make healthier choices. Food and nutrition education for children in primary and secondary schools has formed part of the curriculum since 1990(Reference Owen-Jackson and Rutland88) and adherence to standards for school food is mandatory in all four devolved nations of the UK (although the standards vary by region)(89).

While public health campaigns have achieved high levels of awareness and engagement, knowledge of a healthy diet is only one of many factors influencing food choices. The food environment has changed dramatically as obesity prevalence has increased. Less healthy foods, high in saturated fat, salt and sugar, are highly accessible and heavily marketed and promoted(90). In recent years, the marketing of food delivery apps has become ubiquitous, catalysing a rapid increase in fast-food delivery(91). In the UK, similar food products brought from the out of home sector tend to contain more energy than those from retail(92,93) .

Tackling obesity requires meaningful reductions in population energy purchases and intakes. Following the SACN report on carbohydrates and health(80), Public Health England recommended a broad, cohesive programme(94) to simultaneously reduce the sugar and energy content of foods and drinks, and the effect of environmental drivers of poor diets. Many of these were structural policies that aimed to improve dietary choices at a population level without requiring personal agency or behaviour change.

In 2016, the voluntary sugar reduction and reformulation programme(95) announced the ambition to reduce the sugar content of foods contributing most to children’s sugar intakes by 20 % by 2020. The programme has had mixed results(93) achieving an overall 3 % sugar reduction in retailers and manufacturers food categories. Breakfast cereals and yogurts and fromage frais achieved a 13 % average sugar reduction, but this has been negated by sales increases in high sugar products like chocolate confectionery. Progress has been more mixed in the eating out of home sector for all products. There is more work to be done to drive reformulation and to encourage industry to deliver greater results.

Conversely, the soft drinks industry levy(96) legislated in 2018 has been successful(93). Analysis demonstrates a 43·7 % reduction in the total sugar content of drinks per 100 ml between 2015 and 2019. The positive effect of this policy on dietary behaviour is equally distributed across all socio-economic groups; however, no reductions in rates of childhood obesity have been detected in the UK.

The existence of an independent committee, in addition to health-related government departments, strengthens the nutrition evidence base and ensures a robust system is in place to identify needs, inform nutrition policies and evaluate improvements in diet behaviour. However, the evidence on improvements in health such as reductions in the prevalence of obesity remains elusive, despite concerted efforts, particularly for more vulnerable groups.

Evidence-based weight management and remission of type 2 diabetes in the UK

T2DM has been ‘associated’ with overweight and obesity for many years: the misleading word ‘co-morbidity’ has been used. It has extremely high relative risks at high BMI, but even knowing that prediabetes progression to diabetes can be prevented by weight loss did not immediately trigger recognition that T2DM is actually caused by weight gain with age – and thus a potentially reversible disease-process.

The DiRECT trial was designed to establish whether T2DM remission could be achieved, within routine primary-care, by weight loss using an evidence-based structured diet programme (Counterweight-Plus). Background information and links to publications from the DiRECT trial can be found on the website: https://www.directclinicaltrial.org./uk.

Intervention participants lost a mean 13·5 kg with 850 kcal/d for approximately 12 weeks. New-style meals with around 50 % of energy from carbohydrate were then introduced stepwise, to maintain a mean of around 10 kg loss at 12 months. Overall, almost half (46 %) were no longer diabetic and not requiring medication for diabetes, that is, in remission. Some regained weight, but with weight loss of more than 10 kg, over 70 % achieved remission, at both 12 and 24 months.

About a third of participants were also able to stop their antihypertensive medications, and fatty liver disease was similarly resolved. With reduced prescriptions and medical consultations and admissions, health economic analysis showed that the intervention would pay for itself in 5–6 years. Patients were estimated to live longer, feel better and cost less.

A subset of DiRECT participants underwent detailed metabolic and MRI investigations, which showed that people with T2DM (despite good treatment with UK guidelines) have excess fat in liver and pancreas, and that seems to be driving T2DM. With weight loss and remission, liver and pancreas fat falls to normal, the ragged sick-looking pancreas returns to a normal size and morphology, and maximal insulin production doubles, to become normal again.

DiRECT has thus confirmed that T2DM is a disease of ectopic fat accumulation, within the disease process of ‘obesity’ at almost any BMI level. It is reversible for the majority of people, with weight loss soon after diagnosis, results now repeated for Arab and North African people in the DIADEM-1 trial, and in RETUNE with BMI below 27 kg/m2. Questions remain, but remission is now a key T2DM management target, and weight loss of more than 10–15 kg should be encouraged for all, using self-help or professionally supported diet programmes. The COVID-19 experience showed that remote and face-to-face support are equally effective for Counterweight-Plus. Efforts are now being made to scale up this type of intervention so it is more widely available across the UK.

The British Nutrition Foundation

The BNF, established in 1967, is a public-facing charity which exists to give people, educators and organisations access to reliable information on nutrition. The mission of the BNF is to translate evidence-based nutrition science in engaging and actionable ways for a wide range of audiences, including the general public and health professionals. The website www.nutrition.org.uk provides a wealth of information on different aspects of nutrition, training through online courses and webinars, and practical resources such as downloadable factsheets, booklets and posters – with the majority of these available free of charge. In the financial year 2020–2021, www.nutrition.org.uk had 2·3 million users, over 12 million pages viewed and over 260 000 resources downloaded. The three most downloaded resources were the 7-day meal plan, Portion size guide and Nutrition requirements.

In addition to the information available on its website, the BNF has an official, peer reviewed journal, Nutrition Bulletin (impact factor 3·6) aimed at academics and health professionals; and for over 30 years has run a dedicated education programme, Food – a fact of life, aimed at school teachers and early year practitioners. The programme’s website www.foodafactoflife.org.uk houses free resources for those educating young people aged 3–16 years about food and nutrition, and webinars and online workshops, courses and conferences are offered. Resources focus on the key areas of healthy eating, cooking and food origins. Frameworks include the Characteristics of good practice in teaching food and nutrition education and Guidelines for producers and users of school education resources about food.

Nutrition-based charities such as the BNF and the SUF provide valuable additional resources to government and medical services in many countries.

Conclusions

Nutrition has a profound effect on health, impacting both communicable and non-communicable diseases and disorders. However, there is widespread acknowledgement that medical practitioners do not receive adequate input on nutrition during their training and subsequent practice(Reference Macaninch, Buckner and Amin97). In both Türkiye and the UK, obesity and type 2 diabetes have increased at an alarming rate during recent decades. Hidden hunger and overt micronutrient deficiencies remain critical issues for many, especially among disadvantaged sectors of the population.

This conference highlighted the wide range of factors to consider when aiming to improve diet and health of populations. Many initiatives are underway in different countries to prevent and manage poor health. At the heart of these is the need to achieve and maintain an optimum body weight and to consume a balanced diet sufficient but not excessive in both macro- and micronutrients.

The North Karelia project in Finland is a shining example of a success story whereby a community-based multidisciplinary and multifactorial approach resulted in an 84 % reduction in premature CVD deaths in males. In the UK, the sugary drinks industry levy led to substantial reductions in the consumption of free sugars and in the DiRECT trial substantial weight loss led to a 70 % remission in T2DM, providing important health benefits. These and other examples are inspirational. They give us the confidence to know that dramatic improvements in health are achievable.

Success has also been seen in programmes to reduce hidden hunger, although measuring impact on micronutrient status is not always straightforward. Successful scale-up of national bio-fortification programmes is dependent upon producer and consumer acceptance of the nutrient enhanced staple, and evidence of effectiveness of consuming the bio-fortified staple on micronutrient status and health outcomes.

Globally, success in terms of increased life expectancy is clear. From 1960 to 2022, life expectancy increased from 45 to 78 years in Türkiye and 71 to 82 years in the UK (Macrotrends.net/countries). However, morbidity has increased substantially (https://www.un.org/development/desa/disabilities/disability-and-ageing.html). Education is critical as a first step to improve knowledge and awareness and HL, but education alone does not guarantee change in eating behaviours. A multidisciplinary approach is needed whereby Governments, the food industry, non-governmental groups and consumer groups among others come together to develop evidence-based recommendations and appropriate joined-up policies that do not widen inequalities. These include dissemination of accurate and relevant information in an easy to understand format to all sectors of the population, healthy environments that provide easy access to affordable, healthy food and encourage increased levels of physical activity and legislation to ensure production of healthy foods and to avoid advertising inappropriate foods, especially to children. It is clear that no single policy or programme can reverse the trend in obesity prevalence. A whole systems approach is required with deeper engagement at all levels of society to reduce obesity and diet-related ill health.

Acknowledgements

None.

The conference was made possible with an unrestricted grant from the Sabri Ülker Foundation and non-financial support from The Nutrition Society of UK and Ireland.

J. D. S. conceived the original idea for the conference and led the conference organising committee. Individual contributions to the manuscript were as follows: J. D. S. – introduction and conclusions; J. M. – global overview; E. V. – The North Karelia Project; S. U. – communicable diseases; A. T./R. W. – UK nutrition status, initiatives to address; TB – Türkiye nutrition status; I. S. Türkiye initiatives to address obesity and diabetes; M. E. J. L. – DiRECT trial; N. M. L. – hidden hunger; M. D. T. – health literacy; N. Y. – Türkiye Ministry of Health initiatives; J. A. L. – UK Scientific Advisory Committee for Foods; C. T. – British Nutrition Foundation; B. M./O. D. – Sabri Ülker Foundation; C. E. L. E. compiled the first draft of the manuscript and contributed to all subsequent versions. All remaining authors presented at the conference, submitted summaries of their presentations with references and approved their section of the final version of the manuscript.

C. E. L. E. is a committee member of The Nutrition Society of UK and Ireland. Ö. D. is the Nutrition and Scientific Communication Executive at the Sabri Ülker Foundation. J. A. L. is the President of The Nutrition Society of UK and Ireland; Deputy Chair of the Scientific Committee for Nutrition (SACN) and Chair of SACN’s subgroup ‘Framework and Methods for Evidence Evaluation’.. J. M. is the Editor-in-Chief of the British Journal of Nutrition. In addition, he is a Chair of the Board of Trustees of the British Nutrition Foundation and a Trustee of the Rank Prize Funds. B. M. is the Board Member of the Sabri Ülker Foundation. H. T. B., M. L., N. M. L., I. S., M. D. T., A. T., C. T., S. U., E. V., R. W. and N. Y. declare none. J. D. S. is a Science Committee member of the Sabri Ülker Foundation and a Council Member of the Royal Society of Medicine Forum on Food and Health.

References

Global Burden of Disease Diet Collaborators (2019) Health effects of dietary risks in 195 countries, 1990–2017: a systematic analysis for the Global Burden of Disease Study 2017. Lancet 393, 19581972.CrossRefGoogle Scholar
Global Burden of Disease Obesity Collaborators (2017) Health effects of overweight and obesity in 195 countries over 25 years. N Engl J Med 377, 1327.CrossRefGoogle Scholar
World Health Organization (2021) Overweight and Obesity: Key Facts. Geneva: WHO.Google Scholar
Yaya, S, Anjorin, S & Okolie, EA (2022) Obesity burden by socioeconomic measures between 2000 and 2018 among women in sub-Saharan Africa: a cross-sectional analysis of demographic and health surveys. Obes Sci Pract 8, 617626.CrossRefGoogle ScholarPubMed
Ward, ZJ, Long, MW, Resch, SC, et al. (2017) Simulation of growth trajectories of childhood obesity into adulthood. N Engl J Med 377, 21452153.CrossRefGoogle ScholarPubMed
World Health Organization (2022) WHO European Regional Obesity Report 2022. Geneva: WHO.Google Scholar
International Diabetes Federation (2021) IDF Diabetes Atlas, 10th ed. Brussels: International Diabetes Federation.Google Scholar
Goff, LM (2019) Ethnicity and type 2 diabetes in the UK. Diabetic Med 36, 927938.CrossRefGoogle ScholarPubMed
Sattar, N, Welsh, P, Leslie, WS, et al. (2022) Dietary weight-management for type 2 diabetes remissions in South Asians: the South Asian Diabetes Remission Feasibility and Randomised Trial (STANDby). Lancet Reg Health-Southeast Asia 9, 100111.CrossRefGoogle Scholar
Hex, N, Bartlett, C, Wright, D, et al. (2012) Estimating the current and future costs of Type 1 and Type 2 diabetes in the UK, including direct health costs and indirect societal and productivity costs. Diabetic Med 29, 855862.CrossRefGoogle ScholarPubMed
Hawkes, C, Ruel, MT, Salm, L, et al. (2020) Double-duty actions: seizing programme and policy opportunities to address malnutrition in all its forms. Lancet 395, 142155.CrossRefGoogle ScholarPubMed
Calder, PC (2021) Nutrition and immunity: lessons for COVID-19. Eur J Clin Nutr 75, 13091318.CrossRefGoogle ScholarPubMed
Gombart, AF, Pierre, A & Maggini, S (2020) A review of micronutrients and the immune system-working in harmony to reduce the risk of infection. Nutrients 12, 236.CrossRefGoogle Scholar
Maggini, S, Pierre, A & Calder, PC (2018) Immune function and micronutrient requirements change over the life course. Nutrients 10, 1531.CrossRefGoogle ScholarPubMed
Sawadogo, W, Tsegaye, M, Gizaw, A, et al. (2022) Overweight and obesity as risk factors for COVID-19-associated hospitalisations and death: systematic review and meta-analysis. BMJ Nutr Prev Health 5, 1018.CrossRefGoogle ScholarPubMed
Vong, T, Yanek, LR, Wang, L, et al. (2022) Malnutrition increases hospital length of stay and mortality among adult inpatients with COVID-19. Nutrients 14, 1310.CrossRefGoogle ScholarPubMed
Shakoor, H, Feehan, J, Al Dhaheri, AS, et al. (2021) Immune-boosting role of vitamins D, C, E, zinc, selenium and n-3 fatty acids: could they help against COVID-19? Maturitas 143, 19.CrossRefGoogle Scholar
Mirzay-Razaz, J, Hassanghomi, M, Ajami, M, et al. (2022) Effective food hygiene principles and dietary intakes to reinforce the immune system for prevention of COVID-19: a systematic review. BMC Nutr 8, 113.CrossRefGoogle ScholarPubMed
SACN (2020) SACN Rapid Review: Vitamin D and Acute Respiratory Tract Infections. https://www.gov.uk/government/publications/sacn-rapid-review-vitamin-d-and-acute-respiratory-tract-infections (accessed July 2022).Google Scholar
Diyya, ASM & Thomas, NV (2022) Multiple micronutrient supplementation: as a supportive therapy in the treatment of COVID-19. Biomed Res Int 2022, 3323825.CrossRefGoogle ScholarPubMed
Beran, A, Mhanna, M, Srour, O, et al. (2022) Clinical significance of micronutrient supplements in patients with coronavirus disease 2019: a comprehensive systematic review and meta-analysis. Clin Nutr ESPEN 48, 167177.CrossRefGoogle ScholarPubMed
Willett, W, Rockstrom, J, Loken, B, et al. (2019) Food in the Anthropocene: the EAT-Lancet Commission on healthy diets from sustainable food systems. Lancet 393, 447492.CrossRefGoogle ScholarPubMed
World Health Organization (WHO) (2017) Tackling NCDs: Best Buys. https://apps.who.int/iris/bitstream/handle/10665/259232/WHO-NMH-NVI-17.9-eng.pdf (accessed July 2022).Google Scholar
International WCRF (2015) Nourishing Framework. Offer Healthy Foods and Set Standards in Public Institutions and Other Specific Settings. http://www.wcrf.org/sites/default/files/2_Offer%20Healthy%20Food_Final.pdf (accessed March 2015).Google Scholar
Allen, LN, Wigley, S & Holmer, H (2021) Implementation of non-communicable disease policies from 2015 to 2020: a geopolitical analysis of 194 countries. Lancet Global Health 9, e1528e1538.CrossRefGoogle ScholarPubMed
Zimmermann, MB & Andersson, M (2021) Global endocrinology: global perspectives in endocrinology: coverage of iodized salt programs and iodine status in 2020. Eur J Endocrinol 185, R13R21.CrossRefGoogle Scholar
(CAST) CfASaT (2020) Food Biofortification—Reaping the Benefits of Science to Overcome Hidden Hunger. Issue Paper. https://www.cast-science.org/publication/food-biofortification-reaping-the-benefits-of-science-to-overcome-hidden-hunger/ (accessed July 2022).Google Scholar
Lynch, S, Pfeiffer, CM, Georgieff, MK, et al. (2018) Biomarkers of Nutrition for Development (BOND)—iron review. J Nutr 148, 1001S1067S.CrossRefGoogle ScholarPubMed
King, JC, Brown, KH, Gibson, RS, et al. (2016) Biomarkers of Nutrition for Development (BOND)—zinc review. J Nutr 146, 858S885S.CrossRefGoogle Scholar
Massih, YN, Hall, AG, Suh, J, et al. (2021) Zinc supplements taken with food increase essential fatty acid desaturation indices in adult men compared with zinc taken in the fasted state. J Nutr 151, 25832589.CrossRefGoogle ScholarPubMed
Zyba, SJ, Shenvi, SV, Killilea, DW, et al. (2016) A moderate increase in dietary zinc reduces DNA strand breaks in leukocytes and alters plasma proteins without changing plasma zinc concentrations. Am J Clin Nutr 105, 343351.CrossRefGoogle ScholarPubMed
Food and Agriculture Organization (FAO) (2022) Global Report on Food Crises. https://www.fao.org/3/cb9997en/cb9997en.pdf (accessed July 2022).Google Scholar
United Nations (2018) Global indicator framework for the Sustainable Development Goals and Targets of the 2030 Agenda for Sustainable Development. https://unstats.un.org/sdgs/indicators/Global%20Indicator%20Framework%20after%20refinement_Eng.pdf (accessed July 2022).Google Scholar
Global Obesity Observatory (2017) Ranking (% Obesity by country). https://data.worldobesity.org/rankings/ (accessed August 2022).Google Scholar
Satman, I, Yilmaz, T, Sengül, A, et al. (2002) Population-based study of diabetes and risk characteristics in Turkey: results of the Turkish Diabetes Epidemiology Study (TURDEP). Diabetes Care 25, 15511556.CrossRefGoogle ScholarPubMed
Satman, I, Omer, B, Tutuncu, Y, et al. (2013) Twelve-year trends in the prevalence and risk factors of diabetes and prediabetes in Turkish adults. Eur J Epidemiol 28, 169180.CrossRefGoogle ScholarPubMed
General Directorate of Public Health RoTMoH (2019) Turkey Nutrition and Health Survey 2017 (TNHS). Ankara: General Directorate of Public Health.Google Scholar
WHO Europe (2018) National Household Health Survey in Turkey (STEPS) Prevalence of Noncommunicable Diseases Risk Factors 2017. https://apps.who.int/iris/handle/10665/342200 (accessed February 2023).Google Scholar
The Society of Endocrinology and Metabolism of Turkey (2020) Clinical Practice Guideline for Diagnosis, Treatment and Follow-up of Diabetes Mellitus and Its Complications. https://file.temd.org.tr/Uploads/publications/guides/documents/20200625154506-2020tbl_kilavuz86bf012d90.pdf (accessed February 2023).Google Scholar
United Nations (2021) New Collaboration Addresses Food Waste in the Food and Hospitality Sector in Turkey: Press Release. https://turkiye.un.org/en/114697-new-collaboration-addresses-food-waste-food-and-hospitality-sector-turkey (accessed August 2022).Google Scholar
Office of Disease Prevention and Health Promotion (ODPHP) (2022) Health Literacy in Healthy People 2030. https://health.gov/healthypeople/priority-areas/health-literacy-healthy-people-2030 (accessed August 2022).Google Scholar
TANRIÖVER, MD, YILDIRIM, HH, READY, FN, et al. (2014) Turkey Health Literacy Research, First Edition. Ankara: Sağlık-Sen Publications. https://www.sagliksen.org.tr/cdn/uploads/gallery/pdf/8dcec50aa18c21cdaf86a2b33001a409.pdf (accessed February 2023).Google Scholar
Ministry of Health GDoHPS (2018) Turkey Health Literacy Levels and Related Factors Research. Ankara: Ministry of Health.Google Scholar
Sorensen, K & Ristolainen, S (2015) Mapping health literacy in the Nordic countries: a systematic review: Kristine K Sorensen. Eur J Public Health 25, 80.CrossRefGoogle Scholar
Republic of Turkey Ministry of Health (2019) Turkey Healthy Nutrition and Active Life Program Action Plan For Prevention and Control of Adult and Childhood Obesity and Physical Activity 2019–2023. Ankara: Ministry of Health.Google Scholar
Republic of Turkey Ministry of Health (2015) Food and Beverages Standards in Schools. https://yalvacmae.meb.k12.tr/meb_iys_dosyalar/32/11/706442/dosyalar/2018_11/08190110_kitapcik_ing.pdf (accessed July 2022).Google Scholar
Cooper Institute (2017) FitnessGram Administration Manual: The Journey to MyHealthyZone. Champaign, IL: Human Kinetics.Google Scholar
Republic of Turkey Ministry of Health (2016) Turkey Dietary Guidelines. Ankara: Ministry of Health.Google Scholar
Republic of Turkey Ministry of Health: Turkish Public Health Association (2015) Food Profile Guideline for Food and Beverages Advertisement Whose Overconsumption is not recommended for Children. Ankara: Ministry of Health.Google Scholar
Public Health Institution of Turkey (2017) Primary Health Care Obesity and Diabetes Clinic Guide for Institutions, Turkey institute for Public Health. Ankara: Ministry of Health.Google Scholar
Republic of Turkey Ministry of Health (2017) Weight Management Manual, Ministry of Health, General Directorate of Public Health. Ankara: Ministry of Health.Google Scholar
General Directorate of Public Health (2019) Physical Activity Guide for Adults with Chronic Diseases. Ankara: GDPH.Google Scholar
General Directorate of Public Health (2019) Physical Activity Guide for Children and Adolescents with Chronic Diseases. Ankara: GDPH.Google Scholar
Ministry of Health (2021) Health Promoting Municipality, Practice Guide. Ankara. https://hsgm.saglik.gov.tr/depo/birimler/saglikli-beslenme-hareketli-hayat-db/SAGEB/SAGEB_Uygulama_Rehberi.pdf (accessed July 2022).Google Scholar
Ministry of Health (2021) Nutrition Friendly and supporting Workplace Physical Activities, Application Guide Ankara. https://hsgm.saglik.gov.tr/depo/birimler/saglikli-beslenme-hareketli-hayat-db/fiziksel_aktivite/109794288.pdf (accessed July 2022).Google Scholar
Ministry of Education (2016) Foods Sold in School Canteens and Food in Educational Institutions, Hygiene of Businesses Circular. http://merkezisgb.meb.gov.tr/meb_iys_dosyalar/2020_11/17151407_2020_8_SayYlY_Kantin_Genelgesi.pdf (accessed July 2022).Google Scholar
Official Gazette (2019) School Food Logo Application Procedure and Communiqué on the Principles. https://www.resmigazete.gov.tr/eskiler/2019/06/20190620-5.htm (accessed July 2022).Google Scholar
Official Gazette (2018) Regarding the Amendment of the Regulation on the Procedures and Principles of the Broadcasting Service Regulation. https://www.mevzuat.gov.tr/File/GeneratePdf?mevzuatNo=15508&mevzuatTur=KurumVeKurulusYonetmeligi&mevzuatTertip=5 (accessed July 2022).Google Scholar
Official Gazette (2018) Commercial Advertising and Unfair Commercial Applications Regulation. https://www.resmigazete.gov.tr/eskiler/2022/02/20220201-6.htm (accessed July 2022).Google Scholar
Republic of Turkey Ministry of Health (2019) Protocol Implementation and Salt Reduction Guide for Food and Beverage Industry. https://www.tgdf.org.tr/wp-content/uploads/2020/02/Tuz-Azaltma-Rehberi.pdf (accessed February 2023).Google Scholar
Official Gazette (2020) Special Consumption applicable to certain goods, determination of tax rates and amounts. https://www.turmob.org.tr/mevzuat/Pdf/17646 (accessed July 2022).Google Scholar
Presidency of Republic of Turkey (2019) Eleventh Development Plan (2019–2023). https://www.sbb.gov.tr/wp-content/uploads/2022/07/Eleventh_Development_Plan_2019-2023.pdf (accessed July 2022).Google Scholar
Gumus, E, Celik, H, Ozkan, S, et al. (2014) Ministry of Health Turkey Public Health Institution. Turkey Diabetes Program. 2015–2020. Ankara. https://erzurumism.saglik.gov.tr/Eklenti/8856/0/turkiyediyabetprogrami2015-2020pdf.pdf (accessed July 2022).Google Scholar
Erdem, Y, Arici, M, Altun, B, et al. (2010) The relationship between hypertension and salt intake in Turkish population: SALTURK study. Blood Press 19, 313318.CrossRefGoogle ScholarPubMed
T.R. Health (2019) Turkey Nutrition and Health Research-2017. Publication No: 1132. Ankara: Circulation Printing and Publishing Industry Trade Ltd.Google Scholar
SATMAN, , ÇAKMAKCI, C, Kural, F, et al. (2012) The impact of high-fiber, low-fat diet in prevention of type 2 diabetes through lifestyle modification (Tip 2 diyabetin yasam tarzi degisikligiyle onlenmesinde yuksek lifli ve dusuk yagli beslenmenin onemi). Diabet Bilimi 10, 4354.Google Scholar
Besler, HT, Meseri, R, Küçükerdönmez, Ö, et al. (2018) Implementation of a ‘Balanced Nutrition Education Program’ among primary school children in Turkey. Nutrition 55, S18S21.CrossRefGoogle Scholar
Puska, P, Vartiainen, E, Nissinen, A, et al. (2016) Background, principles, implementation, and general experiences of the North Karelia Project. Global Heart 11, 173178.CrossRefGoogle ScholarPubMed
Puska, P, Vartiainen, E & Laatikainen, T (editors) (2009) The North Karelia Project: From North Karelia to National Action. Helsinki: Helsinki University Printing House.Google Scholar
Vartiainen, E, Laatikainen, T, Tapanainen, H, et al. (2016) Changes in serum cholesterol and diet in North Karelia and all Finland. Global Heart 11, 179184.CrossRefGoogle ScholarPubMed
Jousilahti, P, Laatikainen, T, Peltonen, M, et al. (2016) Primary prevention and risk factor reduction in coronary heart disease mortality among working aged men and women in eastern Finland over 40 years: population based observational study. BMJ 352, i721.CrossRefGoogle ScholarPubMed
NHS Digital (2021) National Child Measurement Programme, England 2020/2021 School Year Part 1: Age, Time Series and Sex. https://digital.nhs.uk/data-and-information/publications/statistical/national-child-measurement-programme/2020-21-school-year  (accessed February 2023).Google Scholar
NHS Digital (2022) National Child Measurement Programme England 2020/2021 Part 4: Deprivation. https://digital.nhs.uk/data-and-information/publications/statistical/national-child-measurement-programme/2020-21-school-year  (accessed February 2023).Google Scholar
Public Health England (2016) The Eatwell Guide. https://www.gov.uk/government/publications/the-eatwell-guide (accessed July 2022).Google Scholar
Public Health England (2020) NDNS: Results from Years 9 to 11 (2016–2017 and 2018–2019). https://www.gov.uk/government/statistics/ndns-results-from-years-9-to-11-2016-to-2017-and-2018-to-2019 (accessed July 2022).Google Scholar
Scheelbeek, P, Green, R, Papier, K, et al. (2020) Health impacts and environmental footprints of diets that meet the Eatwell Guide recommendations: analyses of multiple UK studies. BMJ Open 10, e037554.CrossRefGoogle ScholarPubMed
Public Health England (2018) Calorie Reduction: The Scope and Ambition for Action. https://www.nutritionsociety.org/policy/public-health-england-calorie-reduction-report-scope-and-ambition-action  (accessed July 2022).Google Scholar
Department of health and Social Care (2022) Scientific Advisory Committee on Nutrition (SACN). https://www.gov.uk/government/collections/sacn-reports-and-position-statements (accessed February 2023).Google Scholar
SACN (2015) Carbohydrates and Health. London: SACN. https://www.gov.uk/government/publications/sacn-carbohydrates-and-health-report  (accessed July 2022).Google Scholar
SACN (2016) SACN Vitamin D and Health Report. https://www.gov.uk/government/publications/sacn-vitamin-d-and-health-report (accessed July 2022).Google Scholar
SACN (2019) Saturated Fats and Health: SACN Report. https://www.gov.uk/government/publications/saturated-fats-and-health-sacn-report  (accessed July 2022).Google Scholar
SACN (2017) Folic Acid: Updated SACN Recommendations. https://www.gov.uk/government/publications/folic-acid-updated-sacn-recommendations (accessed July 2022).Google Scholar
NHS (2022) Change4Life Salt. https://www.nhs.uk/healthier-families/food-facts/salt/ (accessed February 2023).Google Scholar
NHS (2022) Change4Life Sugar. https://www.nhs.uk/healthier-families/food-facts/sugar/ (accessed February 2023).Google Scholar
NHS (2022) Why 5 a Day? https://www.nhs.uk/live-well/eat-well/5-a-day/why-5-a-day/ (accessed February 2023).Google Scholar
Owen-Jackson, G. & Rutland, M (2016) Food in the school curriculum in England: Its development from cookery to cookery. Des Technol Educ: Int J 21, 6373.Google Scholar
Department for Education (2021) Standards for School Food in England. https://www.gov.UK/government/publications/standards-for-school-food-in-england (accessed February 2023).Google Scholar
Public Health England (2015) Sugar Reduction: The Evidence for Action. Annexe 3: a Mixed Methods Review of Behaviour Changes Resulting from Marketing Strategies Targeted at High Sugar Food and Non-Alcoholic Drink. London: PHE.Google Scholar
Statistica (2022) Online Food Delivery. https://www.statista.com/outlook/dmo/online-food-delivery/worldwide (accessed February 2023).Google Scholar
Public Health England (2020) Calorie Reduction Technical Report: Guidelines for Industry, 2017 Baseline Calorie Levels and the Next Steps. https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/915367/Calorie_reduction_guidelines-Technical_report_070920-FINAL.pdf (accessed February 2023).Google Scholar
Public Health England (2020) Sugar Reduction. Report on progress between 2015 and 2019. London: PHE.Google Scholar
Public Health England (2015) Sugar Reduction: The Evidence for Action. London: PHE.Google Scholar
HM Government (2016) Childhood Obesity: a Plan for Action 2016. https://www.gov.uk/government/publications/childhood-obesity-a-plan-for-action (accessed July 2022).Google Scholar
HM Revenue and Customs (2016) Soft Drinks Industry Levy: Policy Paper. https://www.gov.uk/government/publications/soft-drinks-industry-levy/soft-drinks-industry-levy (accessed July 2022).Google Scholar
Macaninch, E, Buckner, L, Amin, P, et al. (2020) Time for nutrition in medical education. BMJ Nutr Prev Health 3, 4048.CrossRefGoogle ScholarPubMed