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Key Risk Factors Affecting Farmers' Mental Health: A Systematic Review.
Daghagh Yazd, S, Wheeler, SA, Zuo, A
International journal of environmental research and public health. 2019;16(23)
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The prevalence of psychological stress among farmers and farm workers is greater than that of non-farmers. The mental health of farmers can be affected by several factors, including pesticide exposure, financial problems, climate issues, and poor physical health. A total of 167 studies are included in this systematic review incorporating data from the studies conducted in 34 countries, including the United Kingdom, the United States and Australia. There is a need for risk assessment that influences farmers' mental health, according to this systematic review. There is a need for more robust studies to evaluate the impact of climate change and pesticide exposure on farmers' mental health and to determine which strategies can be used to help them find therapies. Using the results of this systematic review, healthcare professionals can raise awareness about mental health issues and assist farmers in identifying the symptoms, allowing them to seek help.
Abstract
Recently, concern has increased globally over farmers' mental health issues. We present a systematic review of the outcomes, locations, study designs, and methods of current studies on farmers' mental health. In particular, this review aims to fill an important gap in understanding of the potential key risk factors affecting farmers' mental health around the world. 167 articles on farmer mental health were included in a final systematic review using a standardized electronic literature search strategy and PRISMA guidelines. The four most-cited influences on farmers' mental health in the reviewed literature respectively were pesticide exposure, financial difficulties, climate variabilities/drought, and poor physical health/past injuries. The majority of studies were from developed countries, most specifically from the United States, Australia, and the United Kingdom. Comparative studies on the mental health of farmers and other occupational workers showed mixed results, with a larger portion identifying that psychological health disturbances were more common in farmers and farm-workers. Knowledge of farmer psychological disorder risk factors and its impacts are essential for reducing the burden of mental illness. Further research will be required on climate change impacts, developing country farmers' mental health, and information on how to reduce help-seeking barriers amongst farmers.
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Raw Cow's Milk and Its Protective Effect on Allergies and Asthma.
Sozańska, B
Nutrients. 2019;11(2)
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In the last decades, a significant increase in the prevalence of allergic diseases and asthma has been observed. Living on a farm can reduce the risk of allergen sensitisation and allergic diseases in children. Most proposed explanations have been based on variations in the “hygiene hypothesis” and a possible effects on immune balance of a farm environment. Here, the author reviews epidemiological and experimental evidence for the documented protective effects of unpasteurised milk on allergies and asthma. Epidemiological studies from a number of countries show that children who consume raw milk early in life are less likely to develop allergies, independent of other factors. In one study that looked into possible components for this effect found that certain milk proteins (α-lactalbumin, β-lactoglobulin, and bovine serum albumin whey protein) reduced the risk of developing asthma . Total fat and protein content, amount of bacteria in the milk, and lactose levels were not associated with allergies or asthma. Another study found that higher levels of total fat and of omega-3 polyunsaturated fatty acids in raw milk had protective effects. The author discusses differences between raw and treated milk. Homogenisation changes the physical structure of fats and proteins, resulting in casein proteins being more easily adsorbed. The aim of heating milk, either through pasteurisation or UHT sterilisation, is to reduce bacterial numbers and growth, but it also affects heat-sensitive milk components, including whey proteins, immunoglobulins and lactoferrin, which have been shown to modulate the immune system. The author concludes that components of raw milk can influence immune function, and acknowledges the controversy with regards to raw milk carrying a risk of bacterial pathogens and that a proof based on controlled studies in infants is not possible due to ethical reasons.
Abstract
Living on a farm and having contact with rural exposures have been proposed as one of the most promising ways to be protected against allergy and asthma development. There is a significant body of epidemiological evidence that consumption of raw milk in childhood and adulthood in farm but also nonfarm populations can be one of the most effective protective factors. The observation is even more intriguing when considering the fact that milk is one of the most common food allergens in childhood. The exact mechanisms underlying this association are still not well understood, but the role of raw milk ingredients such as proteins, fat and fatty acids, and bacterial components has been recently studied and its influence on the immune function has been documented. In this review, we present the current understanding of the protective effect of raw milk on allergies and asthma.
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Consumption of ultra-processed foods and cancer risk: results from NutriNet-Santé prospective cohort.
Fiolet, T, Srour, B, Sellem, L, Kesse-Guyot, E, Allès, B, Méjean, C, Deschasaux, M, Fassier, P, Latino-Martel, P, Beslay, M, et al
BMJ (Clinical research ed.). 2018;360:k322
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Foods that are heavily processed tend to have high levels of total fat, sugar and salt and low levels of fibre and vitamins. They also tend to have high levels of contaminants (caused for example by high heat treatment), food additives and plastic packaging exposure. This large prospective population-based cohort study assessed the association between ultra-processed food consumption and the incidence of cancer. The study found that ultra-processed food intake was associated with a higher overall cancer risk and a higher breast cancer risk. A 10% increase in the consumption of ultra-processed foods was associated with an increase of more than 10% greater risk of overall and breast cancer risk. The authors call for further studies to better understand the different elements of food processing and their association to cancer risk.
Abstract
OBJECTIVE To assess the prospective associations between consumption of ultra-processed food and risk of cancer. DESIGN Population based cohort study. SETTING AND PARTICIPANTS 104 980 participants aged at least 18 years (median age 42.8 years) from the French NutriNet-Santé cohort (2009-17). Dietary intakes were collected using repeated 24 hour dietary records, designed to register participants' usual consumption for 3300 different food items. These were categorised according to their degree of processing by the NOVA classification. MAIN OUTCOME MEASURES Associations between ultra-processed food intake and risk of overall, breast, prostate, and colorectal cancer assessed by multivariable Cox proportional hazard models adjusted for known risk factors. RESULTS Ultra-processed food intake was associated with higher overall cancer risk (n=2228 cases; hazard ratio for a 10% increment in the proportion of ultra-processed food in the diet 1.12 (95% confidence interval 1.06 to 1.18); P for trend<0.001) and breast cancer risk (n=739 cases; hazard ratio 1.11 (1.02 to 1.22); P for trend=0.02). These results remained statistically significant after adjustment for several markers of the nutritional quality of the diet (lipid, sodium, and carbohydrate intakes and/or a Western pattern derived by principal component analysis). CONCLUSIONS In this large prospective study, a 10% increase in the proportion of ultra-processed foods in the diet was associated with a significant increase of greater than 10% in risks of overall and breast cancer. Further studies are needed to better understand the relative effect of the various dimensions of processing (nutritional composition, food additives, contact materials, and neoformed contaminants) in these associations. STUDY REGISTRATION Clinicaltrials.gov NCT03335644.
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Crosstalk between the microbiome and epigenome: messages from bugs.
Qin, Y, Wade, PA
Journal of biochemistry. 2018;163(2):105-112
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Trillions of microbes live symbiotically in and on an individual human being, most of them inside the digestive tract and communally known as the gut microbiome. The gut microbiome plays a vital role in the individual host’s health, not only by helping digest food and harvest energy, but also by regulating immune development and influencing gene expression. Diet and factors, such as infections and the use of antibiotics, can alter the balance of the microbiome and lead to various outcomes. This paper reviewed the current understanding of the ways in which the gut microbiome is capable of altering the host’s gene expression through microbial signals, including metabolites, bile acids, inflammation and altered composition. The studies highlighted in the paper show that gut microbes communicate both with local cells in the intestines and with more distant organs, such as the liver and the cardiovascular system. Through this communication, they can regulate the expression of immune cells, cancer cells, enzymes and inflammation-related molecules. The authors concluded that these interactions, or the crosstalk between the microbes and the host, demonstrate a crucial role of the gut microbiome in the host’s response to environmental signals. However, many of the mechanisms are still unclear, so further studies are needed to explain specific microbe-derived signals, affecting host gene expression, and to deepen our understanding of how lifestyle, health status and environmental exposures, such as antibiotics, regulate the microbiome and its influence.
Abstract
Mammals exist in a complicated symbiotic relationship with their gut microbiome, which is postulated to have broad impacts on host health and disease. As omics-based technologies have matured, the potential mechanisms by which the microbiome affects host physiology are being addressed. The gut microbiome, which provides environmental cues, can modify host cell responses to stimuli through alterations in the host epigenome and, ultimately, gene expression. Increasing evidence highlights microbial generation of bioactive compounds that impact the transcriptional machinery in host cells. Here, we review current understanding of the crosstalk between gut microbiota and the host epigenome, including DNA methylation, histone modification and non-coding RNAs. These studies are providing insights into how the host responds to microbial signalling and are predicted to provide information for the application of precision medicine.
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Human Gut Microbiota and Gastrointestinal Cancer.
Meng, C, Bai, C, Brown, TD, Hood, LE, Tian, Q
Genomics, proteomics & bioinformatics. 2018;16(1):33-49
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In this article the authors review research on the influence of the human gut microbiota on the development and progression of gastrointestinal cancers, and go into significant detail about the molecular mechanisms involved. Helicobacter pylori is a known risk factor for gastric cancer (GC) but other dysbiotic changes in the gut microbiota are also observed in GC. On the other hand, H. pylori is associated with a decreased risk for oesophageal cancer (OC). An increase in gram-negative bacteria is associated with OC, whilst gram-positive bacteria are dominant in a healthy oesophagus. Dietary factors are associated with the risk for colorectal cancer (CRC) and may be due to their effect on the bacterial composition of the bowel. The authors explore possible mechanisms for these links. Although the liver is considered sterile, carcinogenesis can be influenced by the gut microbiota through pathogens and bacterial metabolites which can disturb metabolic pathways and immune responses in the liver. In pancreatic cancer (PC), the gut microbiota may influence carcinogenesis by promoting inflammation. In addition to various lifestyle factors, H. pylori is a risk factor for PC. The authors also review the use of prebiotics, probiotics, synbiotics (a combination of pre- and pro-biotics) and Traditional Chinese Medicine as an adjunct to conventional cancer treatment to reduce side effects, as well as their potential preventive mechanisms.
Abstract
Human gut microbiota play an essential role in both healthy and diseased states of humans. In the past decade, the interactions between microorganisms and tumors have attracted much attention in the efforts to understand various features of the complex microbial communities, as well as the possible mechanisms through which the microbiota are involved in cancer prevention, carcinogenesis, and anti-cancer therapy. A large number of studies have indicated that microbial dysbiosis contributes to cancer susceptibility via multiple pathways. Further studies have suggested that the microbiota and their associated metabolites are not only closely related to carcinogenesis by inducing inflammation and immune dysregulation, which lead to genetic instability, but also interfere with the pharmacodynamics of anticancer agents. In this article, we mainly reviewed the influence of gut microbiota on cancers in the gastrointestinal (GI) tract (including esophageal, gastric, colorectal, liver, and pancreatic cancers) and the regulation of microbiota by diet, prebiotics, probiotics, synbiotics, antibiotics, or the Traditional Chinese Medicine. We also proposed some new strategies in the prevention and treatment of GI cancers that could be explored in the future. We hope that this review could provide a comprehensive overview of the studies on the interactions between the gut microbiota and GI cancers, which are likely to yield translational opportunities to reduce cancer morbidity and mortality by improving prevention, diagnosis, and treatment.
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The microbiome and autoimmunity: a paradigm from the gut-liver axis.
Li, B, Selmi, C, Tang, R, Gershwin, ME, Ma, X
Cellular & molecular immunology. 2018;15(6):595-609
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The incidence of autoimmune and inflammatory diseases has been increasing worldwide. Changes in environmental factors, such as modern lifestyle, diet, antibiotics and hygiene are thought to play a critical role in the development of various autoimmune diseases. It is the mucosal microbial flora that is shaped by our environment and communicates with the innate and adaptive immune systems, and when disrupted, can lead to the loss of immune tolerance and dysregulated immune cells. This review paper provides an overview of the interactions between the intestinal microbiome and the immune system. It explains how these interactions affect host autoimmunity locally and systemically and sheds light on the molecular mechanisms, utilised by microbes that may contribute to systemic autoimmunity in genetically susceptible individuals. The links between the gut microbiome and various autoimmune diseases, such as rheumatoid arthritis, type 1 diabetes and multiple sclerosis, as well as the gut-liver axis, involving intestinal microbiome and autoimmune liver diseases, are discussed in more detail.
Abstract
Microbial cells significantly outnumber human cells in the body, and the microbial flora at mucosal sites are shaped by environmental factors and, less intuitively, act on host immune responses, as demonstrated by experimental data in germ-free and gnotobiotic studies. Our understanding of this link stems from the established connection between infectious bacteria and immune tolerance breakdown, as observed in rheumatic fever triggered by Streptococci via molecular mimicry, epitope spread and bystander effects. The availability of high-throughput techniques has significantly advanced our capacity to sequence the microbiome and demonstrated variable degrees of dysbiosis in numerous autoimmune diseases, including rheumatoid arthritis, type 1 diabetes, multiple sclerosis and autoimmune liver disease. It remains unknown whether the observed differences are related to the disease pathogenesis or follow the therapeutic and inflammatory changes and are thus mere epiphenomena. In fact, there are only limited data on the molecular mechanisms linking the microbiota to autoimmunity, and microbial therapeutics is being investigated to prevent or halt autoimmune diseases. As a putative mechanism, it is of particular interest that the apoptosis of intestinal epithelial cells in response to microbial stimuli enables the presentation of self-antigens, giving rise to the differentiation of autoreactive Th17 cells and other T helper cells. This comprehensive review will illustrate the data demonstrating the crosstalk between intestinal microbiome and host innate and adaptive immunity, with an emphasis on how dysbiosis may influence systemic autoimmunity. In particular, a gut-liver axis involving the intestinal microbiome and hepatic autoimmunity is elucidated as a paradigm, considering its anatomic and physiological connections.
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Fasting blood glucose, glycaemic control and prostate cancer risk in the Finnish Randomized Study of Screening for Prostate Cancer.
Murtola, TJ, Vihervuori, VJ, Lahtela, J, Talala, K, Taari, K, Tammela, TL, Auvinen, A
British journal of cancer. 2018;118(9):1248-1254
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Studies have shown that people with diabetes mellitus have lower risk of developing prostate cancer compared with non-diabetics. Glucose metabolism (the process by which simple sugars found in food are processed and used to produce energy) may have an independent role in prostate cancer development and progression. The aim of this study was to investigate the associations between fasting blood glucose and glycaemic control and prostate cancer risk. The study recruited 80,144 men who were randomly assigned either to be screened with PSA at four-year intervals (the screening arm, 31,866 men) or to control arm with no intervention and followed through national registries (48,278 men). Results indicate an association between fasting blood glucose level and elevated prostate cancer risk. This association was more noticeable in the screening arm, and concerned both poorly and well-differentiated cancers. Furthermore, compared to the normoglycemic men, overall prostate cancer risk was elevated in diabetic, but not in pre-diabetic men. Authors conclude that diabetic fasting blood glucose level is associated with elevated prostate cancer risk in a population-based cohort of Finnish men.
Abstract
BACKGROUND Diabetic men have lowered overall risk of prostate cancer (PCa), but the role of hyperglycaemia is unclear. In this cohort study, we estimated PCa risk among men with diabetic fasting blood glucose level. METHODS Participants of the Finnish Randomized Study of Screening for Prostate Cancer (FinRSPC) were linked to laboratory database for information on glucose measurements since 1978. The data were available for 17,860 men. Based on the average yearly level, the men were categorised as normoglycaemic, prediabetic, or diabetic. Median follow-up was 14.7 years. Multivariable-adjusted Cox regression was used to calculate hazard ratios (HRs) and 95% confidence intervals (95% CIs) for prostate cancer overall and separately by Gleason grade and metastatic stage. RESULTS In total 1,663 PCa cases were diagnosed. Compared to normoglycaemic men, those men with diabetic blood glucose level had increased risk of PCa (HR 1.52; 95% CI 1.31-1.75). The risk increase was observed for all tumour grades, and persisted for a decade afterwards. Antidiabetic drug use removed the risk association. Limitations include absence of information on lifestyle factors and limited information on BMI. CONCLUSIONS Untreated diabetic fasting blood glucose level may be a prostate cancer risk factor.
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Reversing the immune ageing clock: lifestyle modifications and pharmacological interventions.
Duggal, NA
Biogerontology. 2018;19(6):481-496
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Advancing age is accompanied by a compromised ability of older adults to combat bacterial and viral infections, increased risk of autoimmunity, poor vaccination responses and the re-emergence of latent infections. This review discusses current understanding of immunesenescence [the gradual deterioration of our immune system as we get older] and also focuses on lifestyle interventions and therapeutic strategies that have been shown to restore immune functioning in aged individuals. Findings show that: - changes in nutrition and lifestyle can be an effective approach towards improving immune outcome in older adults but may be hard to achieve at a population level. - improving immune responses, such as the developments of vaccines, may be used as an early biomarker for anti-ageing effects. Authors conclude that immunomodulation represents a promising therapeutic approach to improve the health of older adults.
Abstract
It is widely accepted that ageing is accompanied by remodelling of the immune system, including reduced numbers of naïve T cells, increased senescent or exhausted T cells, compromise to monocyte, neutrophil and natural killer cell function and an increase in systemic inflammation. In combination these changes result in increased risk of infection, reduced immune memory, reduced immune tolerance and immune surveillance, with significant impacts upon health in old age. More recently it has become clear that the rate of decline in the immune system is malleable and can be influenced by environmental factors such as physical activity as well as pharmacological interventions. This review discusses briefly our current understanding of immunesenescence and then focuses on lifestyle interventions and therapeutic strategies that have been shown to restore immune functioning in aged individuals.
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Improvements in health-related quality of life over 3 years with liraglutide 3.0 mg compared with placebo in participants with overweight or obesity.
Kolotkin, RL, Gabriel Smolarz, B, Meincke, HH, Fujioka, K
Clinical obesity. 2018;8(1):1-10
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Obesity is associated with reduced health-related quality of life affecting physical, psychological and social function and well-being. The aim of the study was to determine the durability of improvement of health-related quality of life in participants taking Liraglutide 3.0mg after 3 years. The study included participants with prediabetes who were overweight or obese and presented weight-related conditions (hypertension or dyslipidaemia). Results indicate that participants taking 3.0mg of liraglutide for 3 years saw improvements in obesity-specific and physical aspects of health-related quality of life, and health utility. However, it showed little effects on the mental components when compared to the placebo. Authors conclude that Liraglutide 3.0mg, together with diet and exercise, lead to weight loss in obesity which is linked with improved health related quality of life.
Abstract
Previously in the SCALE Obesity and Prediabetes trial, at 1 year, participants with obesity (or overweight with comorbidities) and prediabetes receiving liraglutide 3.0 mg experienced greater improvements in health-related quality of life (HRQoL) than those receiving placebo. The current study extends these findings by examining 3-year changes in HRQoL. HRQoL was assessed using the obesity-specific Impact of Weight on Quality of Life-Lite (IWQOL-Lite) questionnaire, as well as the Short-Form 36 v2 (SF-36) health survey. At 3 years, mean change (±standard deviation) in IWQOL-Lite total score from baseline for liraglutide (n = 1472) was 11.0 ± 14.2, vs. 8.1 ± 14.7 for placebo (n = 738) (estimated treatment difference [ETD] 3.4 [95% confidence interval (CI): 2.0, 4.7], P < 0.0001). Mean change in SF-36 physical component summary (PCS) score from baseline for liraglutide was 3.1 ± 7.3, vs. 2.6 ± 7.6 for placebo (ETD 0.87 [95% CI: 0.17, 1.6], P = 0.0156). Mean change in SF-36 mental component summary score did not significantly differ between groups. Both IWQOL-Lite total score and PCS score demonstrated an association between greater HRQoL improvement with higher weight loss. Liraglutide 3.0 mg was also associated with improved health utility (Short-Form-6D and EuroQol-5D, mapped from IWQOL-Lite and/or SF-36) vs. placebo. Liraglutide 3.0 mg, plus diet and exercise, is associated with long-term improvements in HRQoL with obesity or overweight with comorbidity vs. placebo.
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Navy Beans Impact the Stool Metabolome and Metabolic Pathways for Colon Health in Cancer Survivors.
Baxter, BA, Oppel, RC, Ryan, EP
Nutrients. 2018;11(1)
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Colorectal cancer (CRC) is one of the leading cause of cancer-related death around the world. Emerging evidence supports that increased consumption of pulses / legumes, such as navy beans, can reduce risk. Consuming navy beans as part of one's diet has been previously shown to positively affect the relationship between a person's gut bacteria and their health status. This study looked at stool samples to assess the impact of navy bean consumption on health based on the by-products of metabolism generated by gut bacteria (metabolites). The study was a 4-week, randomised-controlled trial with overweight and obese CRC survivors and involved consumption of 1 meal and 1 snack daily. People in the intervention group ate 35g of cooked navy bean daily whereas those in the control group had 0g of navy beans. From amongst the hundreds of metabolites identified in both groups, there was a 5-fold increase in ophthalmate for navy bean consumers, which can indicate an increase in glutathione. Glutathione is an antioxidant and detoxifying substance produced in the human liver. It is involved in cancer control mechanisms such as detoxification of xenobiotics (toxins), antioxidant defense, proliferation, and apoptosis. Other interesting results include the metabolism of the amino acid lysine, which supports health immune function, and an increase in plant-based nutrients or phytochemicals in those who consumed navy bean vs the control group. These results are indicative of an acute response to increased navy bean intake, which merit further investigation for improving colonic health after long-term consumption.
Abstract
Colorectal cancer (CRC) is the third leading cause of cancer-related death in the United States and emerging evidence supports that increased consumption of legumes, such as navy beans, can reduce risk. Navy bean consumption was previously shown to modulate host and microbiome metabolism, and this investigation was performed to assess the impact on the human stool metabolome, which includes the presence of navy bean metabolites. This 4-week, randomized-controlled trial with overweight and obese CRC survivors involved consumption of 1 meal and 1 snack daily. The intervention contained 35 g of cooked navy bean or macronutrient matched meals and snacks with 0 g of navy beans for the control group (n = 18). There were 30 statistically significant metabolite differences in the stool of participants that consumed navy bean at day 28 compared to the participants' baseline (p ≤ 0.05) and 26 significantly different metabolites when compared to the control group. Of the 560 total metabolites identified from the cooked navy beans, there were 237 possible navy bean-derived metabolites that were identified in the stool of participants consuming navy beans, such as N-methylpipecolate, 2-aminoadipate, piperidine, and vanillate. The microbial metabolism of amino acids and fatty acids were also identified in stool after 4 weeks of navy bean intake including cadaverine, hydantoin-5 propionic acid, 4-hydroxyphenylacetate, and caprylate. The stool relative abundance of ophthalmate increased 5.25-fold for navy bean consumers that can indicate glutathione regulation, and involving cancer control mechanisms such as detoxification of xenobiotics, antioxidant defense, proliferation, and apoptosis. Metabolic pathways involving lysine, and phytochemicals were also modulated by navy bean intake in CRC survivors. These metabolites and metabolic pathways represent an acute response to increased navy bean intake, which merit further investigation for improving colonic health after long-term consumption.