0
selected
-
1.
Nutrients, Genetic Factors, and Their Interaction in Non-Alcoholic Fatty Liver Disease and Cardiovascular Disease.
Lombardi, R, Iuculano, F, Pallini, G, Fargion, S, Fracanzani, AL
International journal of molecular sciences. 2020;21(22)
-
-
-
Free full text
Plain language summary
Non-alcoholic fatty liver disease (NAFLD) and heart disease are influenced by diet and genetics. NAFLD cannot be managed with drugs and so lifestyle modification is the main recommendation, which is also advised in heart disease. The aim of this large review of 176 papers was to discuss the role of nutrients and genetics in NAFLD and heart disease. Amongst the main nutrients, excess fructose (a simple sugar) and high saturated and trans-fats were all shown to contribute to the development of both diseases. The influence of protein on NAFLD is controversial. Animal studies suggest that protein can be of benefit, but studies on humans have failed to support this. This is similar for heart disease where large scale trials in humans are not definitive. The role of fibre in NAFLD and heart disease appears to be beneficial. Several micronutrients were also reviewed including vitamins D, K, curcumin, plant chemicals and caffeine. The complex interplay involving genetics was also discussed and although fairly new science, evidence is mounting in support of genetic considerations when making dietary recommendations. It was concluded that diet and genetics influence the development of NAFLD, and heart disease and dietary recommendations need to reflect this. This study could be used by health care professionals to understand the interaction between diet and genetics and the importance of making personalised nutrition recommendations to individuals with NAFLD or heart disease.
Abstract
Non-alcoholic fatty liver disease (NAFLD) is the most common chronic liver disease in Western countries and expose patients to increased risk of hepatic and cardiovascular (CV) morbidity and mortality. Both environmental factors and genetic predisposition contribute to the risk. An inappropriate diet, rich in refined carbohydrates, especially fructose, and saturated fats, and poor in fibers, polyunsaturated fats, and vitamins is one of the main key factors, as well as the polymorphism of patatin-like phospholipase domain containing 3 (PNPLA3 gene) for NAFLD and the apolipoproteins and the peroxisome proliferator-activated receptor (PPAR) family for the cardiovascular damage. Beyond genetic influence, also epigenetics modifications are responsible for various clinical manifestations of both hepatic and CV disease. Interestingly, data are accumulating on the interplay between diet and genetic and epigenetic modifications, modulating pathogenetic pathways in NAFLD and CV disease. We report the main evidence from literature on the influence of both macro and micronutrients in NAFLD and CV damage and the role of genetics either alone or combined with diet in increasing the risk of developing both diseases. Understanding the interaction between metabolic alterations, genetics and diet are essential to treat the diseases and tailoring nutritional therapy to control NAFLD and CV risk.
-
2.
Effect of Hesperidin on Cardiovascular Disease Risk Factors: The Role of Intestinal Microbiota on Hesperidin Bioavailability.
Mas-Capdevila, A, Teichenne, J, Domenech-Coca, C, Caimari, A, Del Bas, JM, Escoté, X, Crescenti, A
Nutrients. 2020;12(5)
-
-
-
Free full text
Plain language summary
Cardiovascular diseases (CVDs) cause around 31% of all deaths worldwide. Certain dietary patterns have been associated with a reduction in CVDs and so the use of natural-based products has gained importance as a preventive strategy. Hesperidin is a bioactive compound found in high levels in citrus fruits. The reported beneficial properties include antitumor, antioxidant, anti-inflammatory; cholesterol and glucose lowering effects. Many animal studies show multiple beneficial effects but are inconclusive in human studies. The aim of this review is to describe the effects of hesperidin on CVD factors and to highlight the individual differences in its bioavailability and effectiveness. The gut bacteria play an important role in this. Hesperidin is not broken down by the normal digestive process and reaches the colon largely intact. It is the job of the gut bacteria to break it down into bioavailable substances that can be absorbed and utilised. The discrepancies observed in some of the results from human clinical trials may be partly due to individual differences, including that of the gut bacteria. Further clinical trials should be considered as well as classifying individuals according to individual differences in metabotypes.
Abstract
Recently, hesperidin, a flavonone mainly present in citrus fruits, has emerged as a new potential therapeutic agent able to modulate several cardiovascular diseases (CVDs) risk factors. Animal and in vitro studies demonstrate beneficial effects of hesperidin and its derived compounds on CVD risk factors. Thus, hesperidin has shown glucose-lowering and anti-inflammatory properties in diabetic models, dyslipidemia-, atherosclerosis-, and obesity-preventing effects in CVDs and obese models, and antihypertensive and antioxidant effects in hypertensive models. However, there is still controversy about whether hesperidin could contribute to ameliorate glucose homeostasis, lipid profile, adiposity, and blood pressure in humans, as evidenced by several clinical trials reporting no effects of treatments with this flavanone or with orange juice on these cardiovascular parameters. In this review, we focus on hesperidin's beneficial effects on CVD risk factors, paying special attention to the high interindividual variability in response to hesperidin-based acute and chronic interventions, which can be partly attributed to differences in gut microbiota. Based on the current evidence, we suggest that some of hesperidin's contradictory effects in human trials are partly due to the interindividual hesperidin variability in its bioavailability, which in turn is highly dependent on the α-rhamnosidase activity and gut microbiota composition.
-
3.
A Systematic Review of Organic Versus Conventional Food Consumption: Is There a Measurable Benefit on Human Health?
Vigar, V, Myers, S, Oliver, C, Arellano, J, Robinson, S, Leifert, C
Nutrients. 2019;12(1)
-
-
-
Free full text
Plain language summary
The demand for organic products has risen rapidly over the last decades. The reasons why consumers may favour organic over conventional products are varied. They may be for personal health and wellbeing, environmental considerations, animal welfare or perceived higher nutritional profile - which is true for some, but not all components. While the long-term safety of pesticide consumption through conventional food production has been questioned, organic foods clearly show lower levels of toxic metabolites, like heavy metals and synthetic fertilizer and pesticide residues. This systematic review aimed to assess the current evidence of organic diet consumption and human health compared to conventionally produced foods. Included were 35 papers on clinical trials and observational studies. The clinical trials studied pesticide and phytochemical excretion, antioxidant capacity, body composition, lipids and inflammatory markers. The observational studies were focused on fertility, foetal and childhood development, pregnancy, lactation and levels of pesticides in children and adults, as well as nutritional biomarkers and cancer risk in adults. An increased intake of organic produce in long-term studies appeared to reduce the incidence of infertility, birth defects, allergies, middle ear infection, pre-eclampsia, metabolic syndrome, high BMI, and non-Hodgkin lymphoma. Organic intake was also linked to reduced urinary levels of organophosphorus pesticides and herbicides. Yet, the author highlighted that organic consumers are more likely to be health conscious, physically active, eat a more plant-based diet, have higher education levels and income, and therefore are not representative of the general population. They also argue that the possible benefits from an organic diet may be partially due to the quality and composition of the diet rather than a direct effect of organic food consumption. Whereby a growing number of findings demonstrate the health benefits of organic food consumption, according to the authors, the current evidence does not yield a solid and definitive answer.
Abstract
The current review aims to systematically assess the evidence related to human health outcomes when an organic diet is consumed in comparison to its conventional counterpart. Relevant databases were searched for articles published to January 2019. Clinical trials and observational research studies were included where they provided comparative results on direct or indirect health outcomes. Thirty-five papers met the criteria for inclusion in the review. Few clinical trials assessed direct improvements in health outcomes associated with organic food consumption; most assessed either differences in pesticide exposure or other indirect measures. Significant positive outcomes were seen in longitudinal studies where increased organic intake was associated with reduced incidence of infertility, birth defects, allergic sensitisation, otitis media, pre-eclampsia, metabolic syndrome, high BMI, and non-Hodgkin lymphoma. The current evidence base does not allow a definitive statement on the health benefits of organic dietary intake. However, a growing number of important findings are being reported from observational research linking demonstrable health benefits with organic food consumption. Future clinical research should focus on using long-term whole-diet substitution with certified organic interventions as this approach is more likely to determine whether or not true measurable health benefits exist.
-
4.
A Review of Dietary (Phyto)Nutrients for Glutathione Support.
Minich, DM, Brown, BI
Nutrients. 2019;11(9)
-
-
-
Free full text
Plain language summary
Glutathione is made up of 3 amino acids (cysteine, glutamic acid and glycine) and plays important roles in the body, including oxidative stress reduction, supporting the immune system and contributing to detoxification processes. Evidence suggests that it is an important marker and target for treatment in many chronic, age-related diseases. This review article explores the evidence of nutritional strategies to improve glutathione status. The authors examine the evidence for supplementation of the precursors of glutathione as well as with various forms of supplemental glutathione itself, and the impacts on glutathione status and clinical impacts. Crucially, the review article provides information on dietary sources of precursors of glutathione and glutathione itself, which will provide Nutrition Practitioners with compelling information for use in clinic. Lean protein, brassica vegetables, polyphenol-rich fruits and vegetables, green tea, herbs and spices and omega-3 rich foods are all discussed in detail.
Abstract
Glutathione is a tripeptide that plays a pivotal role in critical physiological processes resulting in effects relevant to diverse disease pathophysiology such as maintenance of redox balance, reduction of oxidative stress, enhancement of metabolic detoxification, and regulation of immune system function. The diverse roles of glutathione in physiology are relevant to a considerable body of evidence suggesting that glutathione status may be an important biomarker and treatment target in various chronic, age-related diseases. Yet, proper personalized balance in the individual is key as well as a better understanding of antioxidants and redox balance. Optimizing glutathione levels has been proposed as a strategy for health promotion and disease prevention, although clear, causal relationships between glutathione status and disease risk or treatment remain to be clarified. Nonetheless, human clinical research suggests that nutritional interventions, including amino acids, vitamins, minerals, phytochemicals, and foods can have important effects on circulating glutathione which may translate to clinical benefit. Importantly, genetic variation is a modifier of glutathione status and influences response to nutritional factors that impact glutathione levels. This narrative review explores clinical evidence for nutritional strategies that could be used to improve glutathione status.
-
5.
Potential Factors Influencing the Effects of Anthocyanins on Blood Pressure Regulation in Humans: A Review.
Vendrame, S, Klimis-Zacas, D
Nutrients. 2019;11(6)
-
-
-
Free full text
Plain language summary
Anthocyanins (ACNs) are plant compounds belonging to the flavonoid group of polyphenols and are naturally occurring in a number of foods. They are responsible for the red, blue and purple pigmentation within plant foods, such as blueberries and raspberries and are known to contain therapeutic compounds. Several studies have investigated the anti-inflammatory, antioxidant and blood pressure modulation properties within ACNs, however, results for blood pressure modulation, unlike those for anti-inflammatory and antioxidant properties have been mixed and less consistent. This paper reviews 66 human intervention trials exploring the effects of various forms of ACNs, like whole berries, concentrates and freeze-dried powders in order to identify the singular variables related to blood pressure modulation in order to further investigate. Having looked at a number of variables within the trials, researchers concluded that ACNs do in fact contain blood pressure lowering properties, but further research into varying factors including dose effect, synergistic effects, absorption and metabolism and the functionality of the individuals gut microbiota is needed to clarify results further.
Abstract
Dietary intake of anthocyanins (ACNs) is associated with a reduced risk of cardiovascular and coronary heart disease. While the anti-inflammatory, antioxidant, and lipid-lowering effects of ACN consumption have been consistently reported, their effect(s) on blood pressure regulation is less consistent and results from human studies are mixed. The objective of this review is attempting to identify potential patterns which may explain the variability in results related to blood pressure. To do so, we review 66 human intervention trials testing the effects on blood pressure of purified ACN or ACN-rich extracts, or whole berries, berry juices, powders, purees and whole phenolic extracts, from berries that are rich in ACN and have ACNs as predominant bioactives. Several factors appear to be involved on the mixed results reported. In particular, the baseline characteristics of the population in terms of blood pressure and total flavonoid intake, the dose and duration of the intervention, the differential effects of individual ACN and their synergistic effects with other phytochemicals, the ACN content and bioavailability from the food matrix, and individual differences in ACN absorption and metabolism related to genotype and microbiota enterotypes.
-
6.
Prebiotic Potential of Herbal Medicines Used in Digestive Health and Disease.
Peterson, CT, Sharma, V, Uchitel, S, Denniston, K, Chopra, D, Mills, PJ, Peterson, SN
Journal of alternative and complementary medicine (New York, N.Y.). 2018;24(7):656-665
-
-
-
Free full text
-
Plain language summary
Triphala, licorice and slippery elm are key treatments for gastrointestinal health and disease in traditional systems of medicine. Prebiotics are defined as undigested dietary carbohydrates that alter the gut microbiota and promote human health. They reach the site of action in the colon mostly unmetabolized and are broken down by enzymes. The aim of the study was to find out whether the complex carbohydrates present in herbal medicine may be strong drivers to modulate gut microbiota composition. The study recruited 12 healthy men and women, aged between 30-60 years who had previously followed a vegan or vegetarian diet for more than 1 year, to donate a single stool sample. Results show that both the sugar and protein content of these herbal medicines drive alterations in gut microbiota profiles. Each of these herbal medicines studied, uniquely altered gut bacteria communities. Authors conclude that the health benefits of these herbs are mostly due to their ability to alter the gut microbiota in a manner that is predicted to improve colonic epithelium function, reduce inflammation, and promote protection from bacterial pathogenic infection.
Abstract
INTRODUCTION The prebiotic potential of herbal medicines has been scarcely studied. METHODS The authors therefore used anaerobic human fecal cultivation to investigate whether three herbal medicines commonly used in gastrointestinal health and disease in Ayurveda alter the growth and abundance of specific bacterial species. RESULTS Profiling of cultures supplemented with Glycyrrhiza glabra, Ulmus rubra, or triphala formulation by 16S rDNA sequencing revealed profound changes in diverse taxa in human gut microbiota. Principal coordinate analysis highlights that each herbal medicine drives the formation of unique microbial communities. The relative abundance of approximately one-third of the 299 species profiled was altered by all 3 medicines, whereas additional species displayed herb-specific alterations. Herb supplementation increased the abundance of many bacteria known to promote human health, including Bifidobacterium spp., Lactobacillus spp., and Bacteroides spp. Herb supplementation resulted in the reduced relative abundance of many species, including potential pathogens such as Citrobacter freundii and Klebsiella pneumoniae. Herbal medicines induced blooms of butyrate- and propionate-producing species. U. rubra and triphala significantly increased the relative abundance of butyrate-producing bacteria, whereas G. glabra induced the largest increase in propionate-producing species. To achieve greater insight into the mechanisms through which herbal medicines alter microbial communities, the authors assessed the shifts in abundance of glycosyl hydrolase families induced by each herbal medicine. Herb supplementation, particularly G. glabra, significantly increased the representation and potential expression of several glycosyl hydrolase families. DISCUSSION These studies are novel in highlighting the significant prebiotic potential of medicinal herbs and suggest that the health benefits of these herbs are due, at least in part, to their ability to modulate the gut microbiota in a manner predicted to improve colonic epithelium function, reduce inflammation, and protect from opportunistic infection. Forthcoming studies in human clinical trials will test the concordance of the results generated in vitro and the predictions made by genome analyses.