Covid-19 Karantina Süreçlerinin Besin Tüketimi ve Vücut Ağırlık Değişimleri Üzerine Etkileri: 1 Yılda Ne Değişti?
Year 2022,
Volume: 9 Issue: 1, 13 - 30, 30.04.2022
Nesli Ersoy
,
Aylin Açıkgöz Pınar
Abstract
Amaç: Salgında en etkili koruma yöntemi olarak düşünülen karantina uygulamasının, yetişkin bireylerin besin tüketim alışkanlıkları, besin destek kullanımı ve bazı antropometrik ölçümlerine etkisinin değerlendirilmesi amaçlanmıştır.
Gereç ve Yöntem: Çalışmaya birinci karantina sürecinde 135, ikinci karantina sürecinde 270 olmak üzere toplamda 405 kişi katılmıştır. Veriler online anket ile toplanmıştır.
Bulgular: Birinci karantinanın yaşandığı zaman bireylerin %70.4’ü besin tüketim miktarlarının arttığını belirtirken, %29.4’ü azaldığını beyan etmiştir. İkinci karantinanın yaşandığı süreçte ise bireylerin %43.3’ü besin tüketim miktarının arttığını, %17.4’ü ise azaldığını, %39.3’ü ise besin tüketiminde değişiklik olmadığını belirtmiştir. Besin tüketimindeki artışın vücut ağırlığı üzerine etkileri de gözlenmiştir. Birinci karantinanın yaşandığı dönemde bireylerin çoğunlukla; yumurta, taze sebze ve taze meyve ve ikinci karantinanın yaşandığı süreçte ise çay, taze meyve ve kahve tüketimlerinde artış olduğu saptanmıştır. Bireylerin %24,1’i besin desteği kullanmaktadır. En çok kullanılan besin destekleri; D vitamini (%89.2), C vitamini (%63.1) ve demir (%43.1)’dir. Besin desteği kullanan bireylerin çoğu bağışıklık sistemlerini güçlendirmek amacıyla destek kullandıklarını belirtmişlerdir (%67.7).
Sonuç: Karantina süreci bireylerin besin tüketim davranışını etkilemiş, besin tüketim miktarında ve vücut ağrılıklarında artışlara neden olmuştur. İleri zamanlarda yaşanması muhtemel karantina durumlarına yönelik planlamaların yapılmasında bu değişimlerin göz önüne alınarak, karantina süreçlerinde besin tedarik, hazırlama ve tüketim konularında halkın bilinçlendirilmesi ve bireylerin kaygı ve streslerinin azaltılması, ev için fiziksel aktivitelerinin artırılmasının teşvik edilmesi gerekmektedir.
Supporting Institution
Destekleyen kurum bulunmamaktadır.
Thanks
Çalışma verilerinin toplanmasında destek veren; Stj.Dyt. Ayşe Altın, Stj.Dyt. Esra Nur Arısoy, Stj.Dyt. Elif Şule Biçerler, Stj.Dyt. Ezgi Bulut, Stj.Dyt. Emine Çelikel, Stj.Dyt. Esranur Dane, Stj.Dyt. Fatma Göğremiş, Stj.Dyt. Murat Kaya, Stj.Dyt. Ezgi Özoğlu'na teşekkür ederiz.
References
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- Lazaridis, C., Vlachogiannis, N. I., Bakogiannis, C., Spyridopoulos, I., Stamatelopoulos, K., Kanakakis, I., Vassilikos, V., Stellos, K. (2020). Involvement of cardiovascular system as the critical point in coronavirus disease 2019 (COVID-19) prognosis and recovery. Hellenic Journal of Cardiology. Hellenic Cardiological Society, 61, 381–395.
- Li, H., Liu, S.M., Yu, X.H., Tang, S.L. & Tang, C.K. (2020). Coronavirus disease 2019 (COVID-19): current status and future perspectives. International Journal of Antimicrobial Agents, 55(5),105951.
- Lordan, R., Rando, H.M., Consortium, C.R., Greene, C.S. (2021). Dietary supplements and nutraceuticals under investigation for COVID-19 prevention and treatment. ArXiv, This article is a preprint.
- Macht, M. (2008). How emotions affect eating: a five-way model. Appetite, 50(1),1-11.
- Maggini, S., Pierre, A. & Philip, C. (2018). Calder PC. Immune function and micronutrient requirements change overthe life course. Nutrients, 10(10):1531.
- Mahase, E. (2020).Coronavirus covid-19 has killed more people than SARS and MERS combined, despite lower case fatality rate. BMJ, 368:m641.
- Martineau, A. R., Jolliffe, D. A., Hooper, R. L., Greenberg, L., Aloia, J. F., Bergman, P., Dubnov-Raz, G., Esposito, S, Ganmaa, D., Ginde A. A., Goodall E. C., Grant, C. C., Griffiths, C. J., Janssens, W., Laaksi, I., Manaseki-Holland, S., Mauger, D., Murdoch, D.R., Neale, R. ve diğerleri. (2017). Vitamin D supplementation to prevent acute respiratory tract infections: systematic review and meta-analysis of individual participant data. BMJ, 356:i6583.
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Effects of Covid-19 Quarantine on Food Consumption and Weight Changes: What Has Changed in 1 Year?
Year 2022,
Volume: 9 Issue: 1, 13 - 30, 30.04.2022
Nesli Ersoy
,
Aylin Açıkgöz Pınar
Abstract
Objectives: This study aimed to evaluate the effect of quarantine practice, which is considered as the most effective protection method in the epidemic, on the food consumption habits, dietary supplement use and some anthropometric measurements of adults.
Materials and Methods: A total of 405 adults participated in this study, (first period; 135 and second period; 270). Data were collected with an online questionnaire.
Results: When the first quarantine was experienced, 70.4% of the participants stated that their food consumption amount increased and 29.4% of participants stated that it was decreased. During second quarantine, 43.3% of the individuals stated that food consumption increased,17.4% stated that it decreased. The increment of food consumption affected to weight. During first quarantine period, consumption of eggs, fresh vegetables and fresh fruit were increased and during the second period, consumption of tea, fresh fruit and coffee was increased. 24.1% of participants use nutritional supplements. The most commonly used nutritional supplements are vitamin D (89.2%), vitamin C (63.1%) and iron (43.1%) Most of the individuals stated that they used nutritional supplements to strengthen their immune systems (67.7%).
Conclusion: The quarantine processes affected the food consumption behaviour of people, and caused to food consumption and weight increment. Considering these changes in planning for possible quarantine in the future, it is necessary to raise awareness of the public on food supply, preparation and consumption, and to reduce the anxiety and stress of individuals, to encourage the increase of physical activities at the home during quarantine processes.
References
- Anschutz, D. J., Van Strien, T., Van De Ven, M. O., Engels, R. C. (2009). Eating styles and energy intake in young women. Appetite, 53(1), 119-122.
- Bennouar, S., Cherif, A.B., Kessira, A., Bennouar, D.E., Abdi ,S. (2021). Vitamin D deficiency and low serum calcium as predictors of poor prognosis in patients with severe COVID-19. The Journal of the American College of Nutrition, 40:104-10.
- Cai, H., Yang, L., Lu, Y., Zhang, S., Ye, C., Zhang, X., Yu, G., Gu J., Lian, J., Hao, S., Hu, J., Zhang Y., Jin C., Sheng, J., Yang, Y., Jia H. (2021). High body mass index is a significant risk factor for the progression and prognosis of imported COVID-19: a multicenter, retrospective cohort study. BMC Infectious Diseases, 21(1), 147.
- Carr, A.C., Maggini, S. (2017). Vitamin C and immune function. Nutrients, 9(11):1211.
- Çulfa, S., Yıldırım, E., & Bayram, B. (2021). COVID-19 Pandemi Süresince İnsanlarda Değişen Beslenme Alışkanlıkları İle Obezite İlişkisi. Online Türk Sağlık Bilimleri Dergisi, 6(1),135-142.
- Deschasaux-Tanguy, M., , Druesne-Pecollo, N., Esseddik Y., Edelenyi F. S., Allès, B., Andreeva, V. A., Baudry J., Charreire, H., Deschamps V., Egnell M., Fezeu L. K., Galan, P., Julia C., Kesse-Guyot E., Latino-Martel P., Oppert J. M., Péneau S., Verdot, C., Hercberg S., Touvier, M. (2020). Diet and physical activity during the COVID-19 lockdown period (March-May 2020): results from the French NutriNet-Sante cohort study. The American Journal of Clinical Nutrition, 113(4):924-938.
- Di Renzo L., Gualtieri, P., Pivari F., Soldati L., Attinà, A., Cinelli, G., Leggeri, C., Caparello, G., Barrea, L., Scerbo, F., Esposito, E., Lorenzo, A. (2020). Eating habits and lifestyle changes during COVID-19 lockdown: An Italian survey. Journal of Translational Medicine, 18(1), 229.
- Drieskens, S., Berger, N., Vandevijvere, S., Gisle, L., Braekman, E., Charafeddine, R., De Ridder, K., Demarest, S. (2021). Short-term impact of the COVID-19 confinement measures on health behaviours and weight gain among adults in Belgium. Archives of Public Health, 79(1), 22.
- Farouk, S.S., Fiaccadori, E., Cravedi, P. & Campbell, N.K. (2020) COVID-19 and the kidney: what we think we know so far and what we don’t. Journal of Nephrology, 33,1213-18.
- Flook, M., Jackson, C., Vasileiou, E., Simpson, C. R., Muckian, M. D., Agrawal, U., McCowan, C., Jia, Y., Murray, J. L. K., Ritchie, L. D., Robertson, C., Stock, S. J., Wang, X., Woolhouse, M. E. J., Sheikh, A., Stagg, H. R. (2021). Informing the public health response to COVID-19: a systematic review of risk factors for disease, severity, and mortality. BMC Infectious Diseases, 21, 342.
- Gao, M., Piernas, C., Astbury, N. M., Hippisley, J., Rahilly, S., Aveyadt, P., Jebb, S. A. (2021). Associations between body-mass index and COVID-19 severity in 6·9 million people in England: a prospective, community-based, cohort study. The Lancet Diabetes & Endocrinology, 9, 350.
- Gibson, E.L. (2006). Emotional influences on food choice: sensory, physiological and psychological pathways. Physiology & Behavior, 89(1),53-61.
- Havermans, R.C., Vancleef, L., Kalamatianos, A. & Nederkoorn, C. (2015) Eating and inflicting pain out of boredom. Appetite, 85,52–7.
- Helen, C., Maxine, S., Louise, C. & Annemieke, T. (2021). Eating in the lockdown during the Covid 19 pandemic; self-reported changes in eating behaviour, and associations with BMI, eating style, coping and health anxiety. Appetite, 161,105082.
- Hemil, H. ve Chalker, E. (2013). Vitamin C for preventing and treating the common cold. Cochrane Database of Systematic Reviews, 2013(1):CD000980.
- Huang, Z., Rose, A.H. & Hoffmann, P.R. (2012). The role of selenium in inflammation and immunity:from molecular mechanisms to therapeutic opportunities.
Antioxidants & Redox Signaling, 16,705–43.
- Hubert, D., & Dariusz, W. (2021). Body Mass, Physical Activity and Eating Habits Changes during the First COVID-19 Pandemic Lockdown in Poland. International Journal of Environmental Research and Public Health, 18(11),5682.
- Jaeger, S.R., Vidal, L., Ares, G., Chheang, S.L.& Spinelli, S. (2021). Healthier eating: Covid-19 disruption as a catalyst for positive change. Food Quality and Preference, 92,104-220.
- Karataş, Z. (2020) COVID-19 Pandemisinin Toplumsal Etkileri , Değişim ve Güçlenme Social Impacts of COVID-19 Pandemic, Change and Empowerment. Türkiye Sosyal Hizmet Araştırmaları Dergisi, 4(1),3–17.
- Khoramipour, K., Basereh, A., Hekmatikar, A.A., Castell, L., Ruhee, R.T. & Suzuki, K. (2021). Physical activity and nutrition guidelines to help with the fight against COVID-19. Journal of Sports Sciences, 39(1),101-107.
- Lauer, S. A., Grantz, K. H., Bi, Q., Jones, F. K., Zheng, Q., Meredith, H. R., Azman, A. S., Reich N. G., Lessler, J. (2020). The incubation period of coronavirus disease 2019 (CoVID-19) from publicly reported confirmed cases: Estimation and application. Annals of Internal Medicine, 172(9), 577–582.
- Lazaridis, C., Vlachogiannis, N. I., Bakogiannis, C., Spyridopoulos, I., Stamatelopoulos, K., Kanakakis, I., Vassilikos, V., Stellos, K. (2020). Involvement of cardiovascular system as the critical point in coronavirus disease 2019 (COVID-19) prognosis and recovery. Hellenic Journal of Cardiology. Hellenic Cardiological Society, 61, 381–395.
- Li, H., Liu, S.M., Yu, X.H., Tang, S.L. & Tang, C.K. (2020). Coronavirus disease 2019 (COVID-19): current status and future perspectives. International Journal of Antimicrobial Agents, 55(5),105951.
- Lordan, R., Rando, H.M., Consortium, C.R., Greene, C.S. (2021). Dietary supplements and nutraceuticals under investigation for COVID-19 prevention and treatment. ArXiv, This article is a preprint.
- Macht, M. (2008). How emotions affect eating: a five-way model. Appetite, 50(1),1-11.
- Maggini, S., Pierre, A. & Philip, C. (2018). Calder PC. Immune function and micronutrient requirements change overthe life course. Nutrients, 10(10):1531.
- Mahase, E. (2020).Coronavirus covid-19 has killed more people than SARS and MERS combined, despite lower case fatality rate. BMJ, 368:m641.
- Martineau, A. R., Jolliffe, D. A., Hooper, R. L., Greenberg, L., Aloia, J. F., Bergman, P., Dubnov-Raz, G., Esposito, S, Ganmaa, D., Ginde A. A., Goodall E. C., Grant, C. C., Griffiths, C. J., Janssens, W., Laaksi, I., Manaseki-Holland, S., Mauger, D., Murdoch, D.R., Neale, R. ve diğerleri. (2017). Vitamin D supplementation to prevent acute respiratory tract infections: systematic review and meta-analysis of individual participant data. BMJ, 356:i6583.
- McAuliffe, S., Ray, S., Fallon, E., Bradfield, J., Eden, T., Kohlmeier, M. (2020). Dietary micronutrients in the wake of COVID-19: an appraisal of evidence with a focus on high-risk groups and preventative healthcare. BMJ Nutrition, Prevention & Health, 3,1.
- Moscatelli, F., Sessa, F., Valenzano, A., Polito, R., Monda, V., Cibelli, G., Villano, I., Pisanelli D., Perrella, M., Daniele, A., Monda, M., Messina, G., Messina, A. (2021). COVID-19: Role of Nutrition and Supplementation. Nutrients, 13(3), 976.
- NIH (2021). Dietary Supplements in the Time of COVID-19. ods.od.nih.gov/factsheets/COVID19-HealthProfessional/ adresinden elde edildi.
- Park, S.E. (2020) Epidemiology, virology, and clinical features of severe acute respiratory syndrome -coronavirus-2 (SARS-CoV-2; Coronavirus Disease-19). Clinical and Experimental Pediatrics. 63(4),119-124.
- Rodríguez-Pérez, C., Molina-Montes, E., Verardo, V., Artacho R., García-Villanova B., Guerra-Hernández E. J., Ruíz-López, MD. (2020). Changes in Dietary Behaviours during the COVID-19 Outbreak Confinement in the Spanish COVIDiet Study. Nutrients, 12(6):1730.
- Shakoor, H., Feehan, J., Al Dhaheri, A.S., Ali, H. I., Platat, C., Ismail, L. C., Apostolopoulos, V., Stojanovska, L. (2021). Immune-boosting role of vitamins D, C, E, zinc, selenium and omega-3 fatty acids: Could they help against COVID-19? Maturitas, 143, 1-9.
- T.C. Sağlık Bakanlığı (2021). Yeni Koronavirüs Hastalığı (COVİD-19). https://covid19bilgi.saglik.gov.tr/tr/ adresinden elde edildi. Erişim tarihi: 12 Eylül, 2021.
- Thibault, R., Seguin ,P., Tamion ,F., Pichard, C., Singer, P. (2020). Nutrition of the COVID-19 patient in the intensive care unit (ICU): a practical guidance. Critical Care, 24(1),447.
- Wang. Y., Wang, Y., Chen, Y., Qin Q. (2020). Unique epidemiological and clinical features of the emerging 2019 novel coronavirus pneumonia (COVID-19) implicate special control measures. Journal of Medical Virology. 92,568–576.