Nutrition Research Reviews最新文献

Lipids play an important role in human nutrition. Although adequate lipid consumption is necessary for an optimal functioning of the human body, overconsumption of saturated fatty acids can lead to postprandial hypertriglyceridaemia, which triggers the development of atherosclerosis. Important parameters that impact postprandial lipaemia and inflammation are related to the matrix structure and the fat-soluble micronutrient profile of ingested foods/lipids, but the specific effect of these parameters should be further studied, as most of the available studies evaluate their effect at fasting state. This review specifically explores the effects of food structure and fat-soluble micronutrients, from either micronutrient-rich foods or supplements, on postprandial hypertriglyceridaemia and inflammation. The review also highlights the potential of emerging biomarkers such as miRNAs or circulating microvesicles, as an alternative to the widely use biomarkers (e.g. low-density lipoproteins or blood concentration of pro-inflammatory cytokines), to identify inflammation associated with postprandial hypertriglyceridaemia at early stages.

The concept of the protein transition represents a shift from a diet rich in animal proteins to one richer in plant-based alternatives, largely in response to environmental sustainability concerns. However, a simple swap by replacing dairy protein with plant protein will lead to lower protein quality and a lower intake of key micronutrients that sit naturally within the dairy matrix. Owing to antagonistic effects within the plant food matrix, micronutrients in plant sources exhibit lower bioavailability which is not reflected in food composition data or dietary guidelines. The dairy matrix effect includes moderation of blood lipid levels in which calcium plays a key role. Protein recommendations often take a muscle-centric approach. Hence, strategies to increase the anabolic potential of plant proteins have focused on increasing total protein intake to counter the suboptimal amino acid composition relative to dairy protein or leucine fortification. However, emerging evidence indicates a role for nutrient interactions and non-nutrient components (milk exosomes, bioactive peptides) of the dairy matrix in modulating postprandial muscle protein synthesis rates. To ensure the food system transformation is environmentally sustainable and optimal from a nutrition perspective, consideration needs to be given to complementary benefits of different food matrices and the holistic evaluation of foods in the protein transition. This narrative review critically examines the role of dairy in the protein transition, emphasising the importance of the food matrix in nutrient bioavailability and muscle health. By considering both nutritional and sustainability perspectives, we provide a holistic evaluation of dairy's contribution within evolving dietary patterns.

Coffee is a widely consumed beverage, which has been extensively studied for its potential effects on health. We aimed to map genetic evidence for the effect of habitual coffee consumption on health. We searched PubMed, Embase, Cochrane Database of Systematic Reviews, Cumulative Index to Nursing and Allied Health Literature and two preprint repositories from inception to 30 September 2022, and included fifty-nine studies, spanning 160 disease or biomarker associations. We evaluated the articles for certainty of evidence using a modified GRADE tool and robustness of the associations by comparing Mendelian randomisation (MR) sensitivity analyses. Coffee consumption was associated with smaller grey matter brain volume in one study, and there was probable evidence for an increased risk of Alzheimer’s disease and younger age of onset of Huntington’s disease. MR studies provided probable evidence for an association with increased risk of oesophageal and digestive cancers, but protective effects for hepatocellular carcinomas and ovarian cancer. We found probable evidence for increased risk of type 2 diabetes mellitus, osteoarthritis, rheumatoid arthritis, menopausal disorders, glaucoma, higher total cholesterol, LDL-cholesterol and ApoB, and lowered risk of migraines, kidney disease and gallstone disease. Future studies should aim to understand underlying mechanisms of disease, expand knowledge in non-European cohorts and develop quality assessment tools for systematic reviews of MR studies.Systematic review registration: PROSPERO registration number CRD42021295323.

The iron regulation mechanisms are not exactly the same between adulthood and the early postnatal period. Also, neonatal iron status is different in full-term versus preterm infants because the prenatal/gestational period, when hepatic iron accumulates, is shortened. Newborns, especially premature infants, are at high risk of iron deficiency due to inadequate iron stores, which constitute the primary source of iron to satisfy the neonate's increasing iron requirements. In addition, frequent blood transfusions and congenital haemochromatosis may induce iron overload in the affected neonate. To understand the cause of neonatal iron deficiency/overload and to promote the development of effective therapeutic interventions in humans, different animal models have been generated by genetic engineering, low-/high-iron diets, phlebotomy/transfusion and surgical manipulation. These models use various laboratory and domestic animals to study iron imbalance. They serve as surrogate models for experiments that are ethically or practically unfeasible to conduct on human neonates. Although an animal model for studying neonatal iron disorders may not fully replicate the complexities of human diseases, it is designed to model specific aspects of these conditions. Combined data from multiple models can help to offset the limitations inherent in each individual model. In this review, we outline approaches to induce neonatal iron disorders, current animal models of full-term and preterm neonates, and recommendations for diagnosis.

Adolescent girls are vulnerable and deserve the utmost attention to complement their nutrition. This scoping review endeavours to identify the determinants of malnutrition among adolescent girls in Pakistan and to comprehend the interventions to improve their health and nutritional status. This review of the literature was conducted using Google Scholar, PubMed/Medline, Scopus and Web of Science for articles published between 2015 and 2024. MeSH terms used for search were as follows: adolescent, youth, health, malnutrition, nutrition interventions, systems approach. In addition, reports from the WHO, the UN, the World Bank, the Government of Pakistan and other organisations were also critically reviewed. Moreover, this paper has used the Pathways framework, which advocates multi-sectoral approaches for poverty reduction. In most developing countries, the compromised nutritional status of adolescent girls, compounded by poverty, has life-long health and economic consequences, as well as their infants having nutritional deficits. They are expected to grow as stunted children. Abundant evidence has shown that nutrition-sensitive and nutrition-specific interventions can improve their nutritional status and that of subsequent generations. There is a dire need to involve key stakeholders from health, education, nutrition, population, women's development, social welfare and other relevant sectors. It is imperative to design interventions for adolescent girls in each country's context to break the intergenerational cycle of malnutrition and to improve economic productivity. Political commitment and effective governance along with policy coherence are required for their healthy transitions into adulthood.

Reducing crude protein in amino acid-adequate diets for broiler chickens is effective in reducing nitrogenous emissions and competition for resources between the food and feed sectors. This review provides a comprehensive analysis of the literature on the relevance of nonessential amino acids in low protein diets for broiler chickens. Glycine and serine, owing to their interconvertibility summarised as glycine equivalents (Gly_equi), limit growth when dietary crude protein is reduced below 19% in up to 3-week-old birds. Considering essential amino acids and the variable Gly_equi requirements enables the reduction of dietary crude protein to ∼16% without compromising growth. Variation in Gly_equi requirements likely occurs predominantly from the varying amounts of uric acid formed. Other influences seem to exert lower impacts on dietary Gly_equi requirements. Asparagine or glutamine is probably the growth-limiting amino acid when crude protein is reduced below 16%. Alternatively, nonspecific amino-nitrogen may be lacking in such diets. The current potential to reduce dietary crude protein when using free essential and nonessential amino acids enables to increase the efficiency of nitrogen utilisation to a value above 80%. This coincides with reduced uric acid synthesis and energy expenditure for nitrogen excretion. The lower nitrogen excretion via the urine results in a lower energy expenditure. Hence, dietary energy may prospectively be reduced once the energy-sparing effect is quantified, thereby further reducing the competition for resources between food and feed.

Entomophagy (eating edible insects) could potentially address human deficiencies of iron, zinc and vitamin B₁₂. This article aims to summarise available evidence about the iron, zinc and vitamin B₁₂ content of raw and processed edible insects and compare these with the nutritional needs of different human life stages. A systematic literature search using specific keywords (edible insects, iron content, zinc content, vitamin B₁₂ content and nutritional composition) in Web of Science and Scopus databases was performed. Forty-six studies were reviewed. To ensure standardised comparisons, articles with nutrient-enriched edible insects were excluded. The quality of records was assessed using standardised protocols. Results indicate that edible insects are generally either 'sources of' or 'rich in' iron, zinc and vitamin B₁₂ required for optimal nutrition and health of different human life stages. Moreover, iron, zinc and vitamin B₁₂ contents of edible insect species were generally either comparable to or higher than that of (lean) beef, (lean) pork, poultry and kidney beans. Most insect species were oven processed with little/no species-specific data for other processing methods. Variations in micronutrient content existed between processing methods and among oven-processed edible insects. Data inaccuracies, poor data quality control and lack of insect-specific official analytical methods contributed to fairly high variations and made comparisons difficult. Based on available data, edible insects can potentially address human deficiencies of iron, zinc and vitamin B₁₂ despite the observed variations, data gaps and lack of edible insect matrix-specific official methods, in addition to limited human bioavailability and efficacy studies.

Chronic kidney disease (CKD) poses a global health challenge, with dietary protein intake being a key factor in disease management. This review synthesises evidence on the impact of different protein intake strategies, including low-protein diet (LPD), very-low-protein diet (VLPD), high-protein diet (HPD) and plant-based diet (PBD), on CKD progression and patient outcomes. The review explores personalised nutrition strategies and identifies gaps in the literature. A systematic search of PubMed, Cochrane Library, Web of Science and Scopus was conducted, covering studies published from 1982 to 2024, including randomised controlled trials (RCT), observational studies and meta-analyses involving adult patients with CKD. The findings suggest that LPD and VLPD may slow CKD progression, particularly when supplemented with ketoanalogues, but adherence and long-term benefits remain uncertain. PBD are associated with reduced renal burden and improved metabolic health, although achieving adequate protein intake from plant sources requires careful planning. HPD, particularly those rich in animal protein, may exacerbate CKD progression, although recent research indicates that higher protein intake may benefit specific populations, such as older adults with mild-to-moderate CKD. In conclusion, managing protein intake in CKD is complex and necessitates a personalised approach. While LPD and PBD offer potential benefits, their long-term success is contingent upon patient adherence, individualised dietary management and further research into their sustained effects. Future research should focus on long-term RCT and the development of personalised nutrition strategies incorporating emerging technologies and multidisciplinary care to optimise CKD management.

The dietary inflammatory index (DII) has emerged as a promising tool associated with the development of cardiovascular risk factors. This systematic review and meta-analysis, developed in accordance with the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines (the protocol was registered in the International Prospective Register of Systematic Reviews (PROSPERO) under number CRD42022323267), aimed to synthesise observational studies that evaluated the association between the DII and indicators of body adiposity and blood pressure in children and adolescents. PubMed/MEDLINE, Embase, LILACS, CINAHL, Web of Science, Scopus and Google Scholar were searched, without time and language restrictions. The methodological quality of the studies and the certainty of the evidence were assessed using the Newcastle–Ottawa scale and the Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach, respectively. The meta-analysis revealed that a higher DII (pro-inflammatory diet) was significantly associated with increased odds of body adiposity, as indicated by body mass index (BMI) (odds ratio [OR] = 1·62; 95% confidence interval [CI] 1·38–1·86), waist circumference (OR = 1·45; 95% CI 1·10–1·81) and the waist-to-height ratio (OR = 1·76; 95% CI 1·38–2·14) in adolescents, compared with those with a lower DII (anti-inflammatory diet). In addition, for every unit increase in the DII, there was a small but significant rise in mean BMI (β = 0·06 kg/m²). The children’s dietary inflammatory index (CDII) showed no association with cardiometabolic risk factors. There were no consistent associations between the DII or CDII and blood pressure. In conclusion, while a pro-inflammatory diet (based on the DII) is linked to body adiposity, additional longitudinal studies are needed to explore these associations, particularly regarding the CDII and blood pressure.

Intake of high quantities of dietary proteins sourced from dairy, meat or plants can affect body weight and metabolic health in humans. To improve our understanding of how this may be achieved, we reviewed the data related to the availability of nutrients and metabolites in the faeces, circulation and urine. All protein sources (≥20% by energy) increased faecal levels of branched-chain fatty acids and ammonia and decreased the levels of butyrate. Some metabolites responded to dairy and meat proteins (branched-chain amino acids) as well as dairy and plant proteins (p-cresol), which were increased in faecal matter. Specific to dairy protein intake, the faecal levels of acetate, indole and phenol were increased, whereas plant protein intake specifically increased the levels of kynurenine and tyramine. Meat protein intake increased the faecal levels of methionine, cysteine and alanine and decreased the levels of propionate and acetate. The metabolite profile in the faecal matter following dairy protein intake mirrored availability in circulation or urine. These findings provide an understanding of the contrasting gut versus systemic effects of different dietary proteins, which we know to show different physiological effects. In this regard, we provide directions to determining the mechanisms for the effects of different dietary proteins.