1.
The impact of nutrition on COVID-19 susceptibility and long-term consequences.
Butler, MJ, Barrientos, RM
Brain, behavior, and immunity. 2020;87:53-54
-
-
-
Free full text
-
Plain language summary
The impacts of Covid-19 are being felt across the world, affecting health, healthcare and economies. Statistics from across the world are showing that the elderly, those with underlying medical conditions and under-represented minority groups are particularly vulnerable to severe complications and have a higher risk of dying of Covid-19. This opinion piece presents arguments for the importance of focusing on diet to support health resilience in general and the immune system in particular, to minimise the impact of this and future viruses. Research is presented on excessive intake of saturated fat leading to chronic activation of the innate immune system (first line, rapid defence against infection), resulting in inflammation, and associated heightened susceptibility to complications of viral infection. The standard western diet (high saturated fat, refined carbohydrates and sugars, low levels of fibre, unsaturated fat and antioxidants) has also been shown to affect the adaptive immune system (second line, delayed defence against infection), depressing its action against infection. The piece also discusses possible long-term, future impacts of those recovered from Covid-19 infection, particularly in relation to neurodegenerative diseases such as Alzheimer’s. The authors call for fresh, healthy wholefoods to be readily available and affordable to everyone in society.
Abstract
While all groups are affected by the COVID-19 pandemic, the elderly, underrepresented minorities, and those with underlying medical conditions are at the greatest risk. The high rate of consumption of diets high in saturated fats, sugars, and refined carbohydrates (collectively called Western diet, WD) worldwide, contribute to the prevalence of obesity and type 2 diabetes, and could place these populations at an increased risk for severe COVID-19 pathology and mortality. WD consumption activates the innate immune system and impairs adaptive immunity, leading to chronic inflammation and impaired host defense against viruses. Furthermore, peripheral inflammation caused by COVID-19 may have long-term consequences in those that recover, leading to chronic medical conditions such as dementia and neurodegenerative disease, likely through neuroinflammatory mechanisms that can be compounded by an unhealthy diet. Thus, now more than ever, wider access to healthy foods should be a top priority and individuals should be mindful of healthy eating habits to reduce susceptibility to and long-term complications from COVID-19.
2.
Influence of diet on the gut microbiome and implications for human health.
Singh, RK, Chang, HW, Yan, D, Lee, KM, Ucmak, D, Wong, K, Abrouk, M, Farahnik, B, Nakamura, M, Zhu, TH, et al
Journal of translational medicine. 2017;15(1):73
-
-
-
Free full text
Plain language summary
Gut microbiome plays an important role in modulating the risk of many chronic diseases through its impact on host immunity and metabolic health. Diet, in turn, can alter the composition of the microbiota. This paper reviewed current understanding of the effects of common dietary components and three select diets on gut microbiota composition and host health. Dietary components included plant and animal protein, saturated and unsaturated fats, digestible and non-digestible carbohydrates, probiotics and polyphenols. The diets included Western diet, gluten-free diet and Mediterranean diet. Based on the reviewed papers, the authors concluded that diet can modify the intestinal microbiome, which in turn has a profound impact on overall health. The impact can be beneficial or detrimental, depending on the abundance and identity of microbial populations and the nature of their interactions with the host. The authors also state that further research using large, long-term clinical trials to evaluate a greater variety of food components would be helpful in making specific dietary recommendations to patients.
Abstract
Recent studies have suggested that the intestinal microbiome plays an important role in modulating risk of several chronic diseases, including inflammatory bowel disease, obesity, type 2 diabetes, cardiovascular disease, and cancer. At the same time, it is now understood that diet plays a significant role in shaping the microbiome, with experiments showing that dietary alterations can induce large, temporary microbial shifts within 24 h. Given this association, there may be significant therapeutic utility in altering microbial composition through diet. This review systematically evaluates current data regarding the effects of several common dietary components on intestinal microbiota. We show that consumption of particular types of food produces predictable shifts in existing host bacterial genera. Furthermore, the identity of these bacteria affects host immune and metabolic parameters, with broad implications for human health. Familiarity with these associations will be of tremendous use to the practitioner as well as the patient.
3.
Adolescent diet and subsequent serum hormones, breast density, and bone mineral density in young women: results of the Dietary Intervention Study in Children follow-up study.
Dorgan, JF, Liu, L, Klifa, C, Hylton, N, Shepherd, JA, Stanczyk, FZ, Snetselaar, LG, Van Horn, L, Stevens, VJ, Robson, A, et al
Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology. 2010;19(6):1545-56
-
-
-
Free full text
-
Plain language summary
Population and animal studies suggest that fat in the diet may have an influence on the development of breast cancer, but the results of studies in humans are inconsistent. This randomised controlled trial aimed to determine the effects of a lower-fat diet during childhood and adolescence on markers associated with breast cancer risk in adults. Female participants were initially recruited at age 8-10 years old, as part of a study to test the effects of lower-fat diets on cholesterol levels in children. The study diet limited total fat intake to 28% of calories (<8% saturated fat, <9% polyunsaturated fat, remainder monounsaturated), cholesterol was limited to 150mg/day and consumption of fibre was encouraged. The children followed the diet for 7 years, when the trial was terminated. This follow-up study was conducted 9 years later, when the participants were aged 25 to 29 years old. After adjusting for current diet, the lower-fat diet group had significantly higher oestradiol levels and bone mineral density. Progesterone concentrations and breast density did not differ between the two groups. The authors concluded that consumption of a lower-fat diet during adolescence does not appear to affect factors associated with breast cancer risk. Current diet may be more important than adolescent diet in determining hormone levels in premenopausal women.
Abstract
BACKGROUND Adolescent diet is hypothesized to influence breast cancer risk. We evaluated the long-term effects of an intervention to lower fat intake among adolescent girls on biomarkers that are related to breast cancer risk in adults. METHODS A follow-up study was conducted on 230 girls who participated in the Dietary Intervention Study in Children (DISC), in which healthy, prepubertal, 8 to 10 year olds were randomly assigned to usual care or to a behavioral intervention that promoted a reduced fat diet. Participants were 25 to 29 years old at follow-up visits. All tests of statistical significance are two-sided. RESULTS In analyses that did not take account of diet at the time of the follow-up visit, the only statistically significant treatment group difference was higher bone mineral content in intervention group participants compared with usual care group participants; their mean bone mineral contents were 2,444 and 2,377 g, respectively. After adjustment for current diet, the intervention group also had statistically significantly higher bone mineral density and luteal phase serum estradiol concentrations. Serum progesterone concentrations and breast density did not differ by treatment group in unadjusted or adjusted analyses. CONCLUSIONS Results do not support the hypothesis that consumption of a lower fat diet during adolescence reduces breast cancer risk via effects on subsequent serum estradiol and progesterone levels, breast density, or bone mineral density. It remains unclear, however, if the results are specific to the DISC intervention or are more broadly applicable. IMPACT Modest reductions in fat intake during adolescence are unlikely to lower later breast cancer risk via long-term effects on the biomarkers measured.