Dimitra Rafailia Bakaloudi1, Afton Halloran2, Holly L Rippin3, Artemis Christina Oikonomidou4, Theodoros I Dardavesis5, Julianne Williams6, Kremlin Wickramasinghe7, Joao Breda8, Michail Chourdakis9. 1. Laboratory of Hygiene, Social & Preventive Medicine and Medical Statistics, School of Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, Greece. Electronic address: dimitrabakaloudi@gmail.com. 2. WHO European Office for the Prevention and Control of NCDs, WHO Regional Office for Europe, Moscow, Russian Federation; Department of Nutrition, Exercise and Sports, Faculty of Science, University of Copenhagen, Denmark. Electronic address: aha@nexs.ku.dk. 3. WHO European Office for the Prevention and Control of NCDs, WHO Regional Office for Europe, Moscow, Russian Federation. Electronic address: rippinh@who.int. 4. Laboratory of Hygiene, Social & Preventive Medicine and Medical Statistics, School of Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, Greece. Electronic address: artemis.oikonomidou@gmail.com. 5. Laboratory of Hygiene, Social & Preventive Medicine and Medical Statistics, School of Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, Greece. Electronic address: dardaves@auth.gr. 6. WHO European Office for the Prevention and Control of NCDs, WHO Regional Office for Europe, Moscow, Russian Federation. Electronic address: williamsj@who.int. 7. WHO European Office for the Prevention and Control of NCDs, WHO Regional Office for Europe, Moscow, Russian Federation. Electronic address: wickramasinghek@who.int. 8. WHO European Office for the Prevention and Control of NCDs, WHO Regional Office for Europe, Moscow, Russian Federation. Electronic address: rodriguesdasilvabred@who.int. 9. Laboratory of Hygiene, Social & Preventive Medicine and Medical Statistics, School of Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, Greece. Electronic address: mhourd@gapps.auth.gr.
Abstract
BACKGROUND: Vegan diets, where animal- and all their by-products are excluded from the diet, have gained popularity, especially in the last decade. However, the evaluation of this type of diet has not been well addressed in the scientific literature. This study aimed to investigate the adequacy of vegan diets in European populations and of their macro- and micronutrient intakes compared to World Health Organization recommendations. METHODS: A systematic search in PubMed, Web of Science, IBSS, Cochrane library and Google Scholar was conducted and 48 studies (12 cohorts and 36 cross-sectional) were included. RESULTS: Regarding macronutrients, vegan diets are lower in protein intake compared with all other diet types. Veganism is also associated with low intake of vitamins B2, Niacin (B3), B12, D, iodine, zinc, calcium, potassium, selenium. Vitamin B12 intake among vegans is significantly lower (0.24-0.49 μg, recommendations are 2.4 μg) and calcium intake in the majority of vegans was below recommendations (750 mg/d). No significant differences in fat intake were observed. Vegan diets are not related to deficiencies in vitamins A, B1, Β6, C, E, iron, phosphorus, magnesium, copper and folate and have a low glycemic load. CONCLUSIONS: Following a vegan diet may result in deficiencies in micronutrients (vitamin B12, zinc, calcium and selenium) which should not be disregarded. However, low micro- and macronutrient intakes are not always associated with health impairments. Individuals who consume a vegan diet should be aware of the risk of potential dietary deficiencies.
BACKGROUND: Vegan diets, where animal- and all their by-products are excluded from the diet, have gained popularity, especially in the last decade. However, the evaluation of this type of diet has not been well addressed in the scientific literature. This study aimed to investigate the adequacy of vegan diets in European populations and of their macro- and micronutrient intakes compared to World Health Organization recommendations. METHODS: A systematic search in PubMed, Web of Science, IBSS, Cochrane library and Google Scholar was conducted and 48 studies (12 cohorts and 36 cross-sectional) were included. RESULTS: Regarding macronutrients, vegan diets are lower in protein intake compared with all other diet types. Veganism is also associated with low intake of vitamins B2, Niacin (B3), B12, D, iodine, zinc, calcium, potassium, selenium. Vitamin B12 intake among vegans is significantly lower (0.24-0.49 μg, recommendations are 2.4 μg) and calcium intake in the majority of vegans was below recommendations (750 mg/d). No significant differences in fat intake were observed. Vegan diets are not related to deficiencies in vitamins A, B1, Β6, C, E, iron, phosphorus, magnesium, copper and folate and have a low glycemic load. CONCLUSIONS: Following a vegan diet may result in deficiencies in micronutrients (vitamin B12, zinc, calcium and selenium) which should not be disregarded. However, low micro- and macronutrient intakes are not always associated with health impairments. Individuals who consume a vegan diet should be aware of the risk of potential dietary deficiencies.
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