This study investigates how the consumption of interesterified palm oil (IPO) affects the metabolic and morphological features of brown adipose tissue (BAT) in C57BL/6 mice fed a high-fat diet. Mice were divided into four groups: control, high-fat diet (lard), high-fat diet with palm oil (PO; HFP) and high-fat diet with IPO (HFI). The HFP and HFI groups exhibited significant body weight gain, increased fat mass and impaired glucose metabolism. Histological analyses revealed lipid infiltration in BAT, leading to structural remodelling from multilocular to unilocular adipocytes, which are hallmark features of the whitening process. This morphological shift was accompanied by reduced nuclear density and impaired vascularisation. Gene expression analysis indicated downregulation of key thermogenic markers, including Ucp1, Pparγ and Prdm16, especially in the HFI group. Increased expression of endoplasmic reticulum stress markers such as Chop and Atf4 and inflammatory cytokines (TNF-α and IL-6) highlighted the pro-inflammatory and pro-apoptotic microenvironment induced by PO and IPO. These changes culminated in a loss of BAT thermogenic capacity, as evidenced by decreased uncoupling protein 1 levels and impaired adaptive thermogenesis. Our findings underscore the detrimental effects of PO, mainly IPO, on BAT functionality, exacerbating obesity-related metabolic dysfunctions such as insulin resistance and glucose intolerance. The results emphasise the need for caution in the dietary use of these fats, particularly in ultra-processed food formulations, given their potential role in promoting adipose tissue remodelling and metabolic imbalances.

The dietary antioxidant quality score (DAQS) is a valid and reliable tool for assessing the overall antioxidant potency of a diet by considering the synergetic effects of dietary antioxidants. Non-alcoholic fatty liver disease (NAFLD) is linked to the imbalance of the body’s oxidant and antioxidant defense system. The objective of the present research was to investigate the possible associations between DAQS and odds of NAFLD in a large population of the Azar cohort study. The present propensity score–matched case–control study was applied to a population of 14 655 individuals. Demographic, anthropometric and dietary data were gathered, and biochemical markers were measured. The DAQS was evaluated based on the daily dietary intake of vitamin E, vitamin A, vitamin C, Se and Zn, compared with the daily recommended intake. The multivariable logistic regression analysis was employed to determine the association between DAQS with NAFLD-related outcomes. After propensity score matching based on age, gender and body mass index (BMI), participants were allocated into NAFLD (n 660) and non-NAFLD (n 1234) groups. Findings indicated significant differences in age, weight, BMI, waist:hip ratio, TAG, HDL-cholesterol and LDL-cholesterol and dietary intake between percentiles of DAQS in NAFLD patients. Nonetheless, no significant associations were observed between DAQS and NAFLD before and after propensity score matching. Comparing the results to prior research underlines the need for a comprehensive approach for exploring the association between dietary antioxidants, serum antioxidant level and biochemical indices in NAFLD, which is essential for the efficient clarification of the underlying mechanisms.

Pregnant women are particularly vulnerable to stress and depression, which can negatively impact birth outcomes and maternal care practices. This study aimed to investigate the prevalence and determinants of stress, depression and common mental disorders among pregnant women in East Lombok, Indonesia, during the COVID-19 pandemic. This cross-sectional study was part of the Action Against Stunting Hub. Data on maternal characteristics, dietary intake, anthropometry and biochemical status were collected. Mental health was assessed during the second and third trimesters using validated instruments, the Perceived Stress Scale, Edinburgh Postnatal Depression Scale and Self-Reporting Questionnaire. The prevalence of maternal stress, depression and common mental disorder (CMD) was 86·3 %, 26·5 % and 29·7 %, respectively. CMD was associated with iron deficiency (aOR 1·61) and not receiving government assistance (aOR 1·48). Low adherence to a healthy and diverse diet, i.e. limited intake of grains, tubers, eggs, fruits and vegetables, was associated with increased odds of antenatal stress (aOR 1·59) and CMD (aOR 1·60). For depression, significant factors included higher maternal education (aOR 2·27), low-to-moderate social support (aOR 1·72) and adherence to an unhealthy dietary pattern characterised by high sugar and fat intake (aOR 1·47). Targeted nutrition interventions, including food-based dietary recommendations and social safety net programs, are essential during pregnancy to support nutrient intake. In addition to addressing iron deficiency, integrated approaches that promote dietary diversity, provide government support to low-income households and strengthen social support networks are recommended to improve maternal mental health outcomes.

This scoping review provides an overview of the impact of fruit and vegetable (FAV) consumption on cognitive function in adolescents and young adults between January 2014 and February 2024. A comprehensive search across six databases, CINAHL, PubMed-MEDLINE, ProQuest, Web of Science, Scopus, and Embase, identified 5,181 articles, of which six met the inclusion criteria after deduplication and screening. This scoping review focused on individuals aged 11–35 years in schools, colleges, universities, and communities. Following a descriptive and narrative synthesis of the data, tables and figures were used to present the findings. Across the six included studies, most consistently demonstrated a positive association between higher fruit and vegetable (FAV) intake and improved cognitive performance among adolescents and young adults. This association was evident in both cross-sectional and longitudinal studies, with stronger effects observed for whole fruits and vegetables high in fibre and polyphenols. Cognitive domains positively impacted included psychomotor speed, memory, attention, and mood. However, findings varied by type of food and cognitive domain; while whole FAVs were generally beneficial, results for fruit juice were mixed—some studies showed acute benefits. Differences in study designs, dietary assessment tools, and cognitive measures contributed to variability. Despite these inconsistencies, the overall trend supports a beneficial role of FAV consumption in promoting cognitive health during adolescence and early adulthood. This review demonstrates that increased fruit and vegetable consumption is consistently linked to improved cognitive function in adolescents and young adults. However, further research is needed to establish its long-term effects on cognitive ageing and disease prevention

A significant association between tomato consumption and a lower risk of developing hypertension has been reported. In this study, we aimed to investigate the relationship between tomato intake and prehypertension risk among Korean adults. Hypertension was defined according to the criteria established by the Korean Society of Hypertension. The study participants were selected from the Health Examinees cohort study. Tomato consumption was measured using an FFQ and categorised into quintiles based on the amount consumed. Higher tomato consumption was associated with a lower risk of prehypertension in men (hazard ratio (HR) 0·86, 95 % CI 0·80, 0·92, Pfor trend 0·0005). Women in the highest quintile also showed a similar trend (HR 0·94, 95 % CI 0·90, 0·99, Pfor trend 0·0091). Stratified analyses revealed a reduced risk of prehypertension across all subgroups, except underweight individuals and those with a history of alcohol consumption (all Pfor interaction < 0·05). These findings indicate that higher tomato intake may offer potential advantages for managing blood pressure levels.

Longer life expectancy and growing income inequality have prompted an increasing interest in understanding the impact of ageing on nutritional requirements in order to optimise intakes, increase the number of years lived in good health and reduce morbidity and associated health and social care costs. Food insecurity reduces access to nutritious and healthy food. Understanding the evidence base on the impacts of food insecurity and the maintenance of food security for older people is crucial to informing policy and intervention. The increase in numbers of older people experiencing food insecurity is a public health emergency and is associated with under and malnutrition. Food insecurity can be experienced at any stage of the life course but has been more widely studied with families and children where poverty is a major driver. Food insecurity in later life has been less well explored by academics, but differs from that experienced in earlier years due to additional complexities, as physical and cognitive health amplify the impact of poverty. Additionally, factors which can appear to be relatively small in impact can act in a cumulative way to push people towards food insecurity. This review will draw on research about older people’s food practices, contexts and experiences in relation to food insecurity in later life and offers a model of food insecurity that has the potential to guide focused public health efforts in order to support the older population to be food secure.

To examine the association between snack characteristics (snack frequency, snack energy density and snack nutritional quality) with diet quality and cardiometabolic risks among US adolescents from the 2009–2016 National Health and Nutrition Examination Survey. Cross-sectional dietary data collected using a 24-h dietary recall from the 2011–2016 National Health and Nutrition Examination Survey (1999 boys and 1897 girls aged 12–19 years) were analysed. Associations between snack characteristics with diet quality, fasting blood glucose, TAG, total cholesterol, HDL, LDL, blood pressure, waist circumference and metabolic syndrome risk score using multiple linear regression were analysed stratified by sex. Higher snack nutritional quality (β (95 % CI): boys 0·31 (0·09, 0·52); girls 0·44 (0·30, 0·57)) was linked to better overall diet quality, whereas snack energy density excluding beverages (β (95 % CI): boys –1·82 (–2·52, –1·12); girls –1·75 (–2·69, –0·82)) was linked to poorer overall diet quality. Among girls, higher snack frequency was associated with lower waist circumference and lower fasting blood glucose (–0·67 (–1·28, −0·05)). Additionally, higher snack energy density and nutritional quality were associated with lower waist circumference and TAG, respectively. No associations between snack characteristics and cardiometabolic indicators or metabolic syndrome risk score were observed for boys. Findings suggest that strategies to improve adolescent snack nutritional quality and energy density may enhance overall diet quality. However, limited associations were observed between snack characteristics and cardiometabolic risk indicators among girls only. Prospective studies are needed to further investigate the relationship between snack characteristics and adolescent health outcomes.

Polycystic ovary syndrome is a disorder characterised by insulin resistance, low-grade inflammation and increased adipose tissue. The very low-carbohydrate ketogenic diet has been suggested to reduce obesity risks in polycystic ovary syndrome. This study aimed to update the evidence on the effects of the very low-carbohydrate ketogenic diet in women with polycystic ovary syndrome. Searches were conducted in electronic databases for randomised clinical trials addressing the research question. The values for the meta-analysis were presented as weighted mean difference (WMD). Twelve studies were included in the qualitative analysis and eleven in the quantitative analysis. Significant reductions were observed in anthropometric outcomes: weight (WMD: −9·57 kg; P < 0·0001), waist circumference (WMD: −7·75 cm; P < 0·0009), fat body mass (WMD: −7·44 kg; P = 0·0008), BMI (WMD: −3·45 kg/m2; P < 0·0001) and waist-to-hip ratio (WMD: −0·02; P < 0·0034). Hormonal improvements included free testosterone (WMD: −0·31 ng/dl; P < 0·0001), total testosterone (WMD: −7·21 ng/dl; P < 0·0001), sex hormone-binding globulin (WMD: 15·22 nmol/l; P = 0·0035), luteinising hormone (WMD: −3·97 U/L; P = 0·0008) and luteinising hormone:follicle-stimulating hormone ratio (WMD: −1·04; P = 0·0053), but not for follicle-stimulating hormone levels (WMD: 1·23 mUI/ml; P = 0·12). Significant changes in metabolic markers were seen in blood glucose (WMD: −9·65 mg/dl; P = 0·0031), insulin (WMD: −2·41 mg/dl; P = 0·0387), homeostatic model assessment for insulin resistance (WMD: −2·46; P = 0·0123) and TAG (WMD: −29·95 mg/dl; P = 0·0188). The very low-carbohydrate ketogenic diet shows significant benefits in managing body composition, reducing hyperandrogenism, balancing sex hormones and improving glucose metabolism in polycystic ovary syndrome.

This study aimed to develop and validate a questionnaire that investigates sugar-related eating behaviour, excessive consumption, and addictive-like eating. This questionnaire was validated using a rigorous process assessing content validity, face validity, reliability testing, feasibility testing, and construct validity. Spearman’s correlation coefficients and Cronbach’s alpha were used to assess reliability. Feasibility testing was used to further validate and confirm the scoring/categorisation of ‘low’, ‘medium’, and ‘high’ scorers for use in future research. Exploratory factor analysis and reliability analysis were used to determine underlying latent factors and assess construct validity. Content validity was assessed by health professionals (n = 16), face validity was assessed by the lay public who had no expertise in nutrition or addiction (n = 20). Reliability (n = 54), repeat reliability (n = 50), and feasibility (n = 113) testing were assessed with a sample from the lay public. Spearman’s correlation coefficients were in the range of 0.58–0.91 and were statistically significant (P < 0.001), indicating good temporal stability within the questionnaire. Cronbach’s alpha coefficients were in the range of 0.62–0.93, indicating good internal consistency. Feasibility testing confirmed the use of calculating an ‘average total score’ from the data set and splitting the data set into tertiles: low, medium, and high scorers. Exploratory factor analysis confirmed three latent factors: F1: Compulsive Eating; F2: Comfort Eating; and F3: Withdrawal. Results suggest the questionnaire is highly reliable and was successfully validated. This questionnaire can be used in research to investigate problematic and addictive-like eating behaviour and its effects on ill health.

Acute effects of a daily dose of red wine may cause deterioration of visual function; however, there is limited information on healthy individuals. This study aims to investigate acute effects of daily red wine consumption on visual function and retinal microvasculature in healthy young adults through a randomised self-controlled design and to explore the molecular mechanisms using an animal model. In healthy young adults’ study, twenty-seven adults with follow-up at baseline, 0·5 h and 2 h after consuming 300 ml of either red wine or water underwent blood biochemistry, visual function, morphology and blood flow of retinal and choroidal vasculatures, and cerebral blood flow (CBF) evaluation. Acute red wine consumption caused abnormal changes in retinal function (multifocal visual electrophysiology) that preceded changes in vision. Macular vessel diameter index (VDI) increased significantly at 0·5 h but decreased significantly at 2 h, despite increased regional CBF following red wine consumption, which was consistent with increased choroidal thickness and decreased retinal thickness. Animal experiments conducted on Brown Norway rats demonstrated a significant decrease in retinal VDI and vessel area density (VAD) associated with increased reactive oxygen species production following red wine administration, as well as decreased endothelial nitric oxide synthase (eNOS) and increased endothelin-1 (ET-1) levels in the retina. Consequently, red wine consumption caused abnormal changes in retinal function and microvascular constriction in healthy young adults, and an animal model suggested that the underlying mechanism may involve the regulation of eNOS and ET-1 levels in the retina. These findings imply the potential detrimental effects of drinking habits on individuals with retinal ischaemic diseases.

Family meals are positively associated with healthier diets among children and parents. We aimed to deepen the understanding of these relationships by exploring the associations between shared meals and dietary quality among children, fathers and mothers. A subset of parent-child dyads (296 children aged 3–6 years, 103 fathers, 293 mothers) from the DAGIS Intervention baseline assessment was included in this cross-sectional study. The parents reported how often they shared meals with the child and filled in a food frequency questionnaire assessing their child’s and their own food consumption. A Healthy Food Intake Index (HFII) describing dietary quality was calculated for all family members. We used linear regression to investigate the associations between shared meals and the HFII of the children, fathers and mothers. Models were adjusted for child’s age and gender, parent’s age and educational level and number of children in the household. Children whose fathers reported less frequently sharing a weekend lunch with the child had a lower HFII (B estimate –1·58, 95 % CI –2·66, –0·50). The association remained close to statistical significance with adjustments (B estimate –0·99, 95 % CI –2·17, 0·19). A less frequently shared weekend lunch was also borderline significantly associated with lower HFII among the fathers (adjusted model, B estimate –1·13, 95 % CI –2·30, 0·04). Fathers should be encouraged to share meals with their family, since it might have a role in the dietary quality of both children and fathers. Future studies should recognise fathers as important contributors to a healthy home food environment.

Children with moderate acute malnutrition (MAM) have an increased risk of iron deficiency, anaemia and death from infectious diseases. The iron-regulating hormone hepcidin is increased in inflammation and may be important in regulating iron metabolism in children with MAM. Asymptomatic malaria has previously been associated with elevated s-hepcidin. We assessed the association between inflammation, iron status, anthropometry and malaria and serum hepcidin (s-hepcidin) and evaluated the effect of food supplementation on s-hepcidin in a secondary analysis in 1019 children with MAM from a randomised intervention trial in Burkina Faso. Children received 12 weeks of supplementation of 500 kcal/d as either corn–soy blend (CSB) or lipid-based nutritional supplements (LNS). S-hepcidin was measured at baseline and after 12 weeks. At baseline, correlates of s-hepcidin were determined using Tobit regression. The effect of supplementation was determined using mixed effects Tobit regression. Children with iron deficiency had 82 % (95 % CI 76, 87) lower s-hepcidin than those without, whereas children with acute infection and inflammation had elevated s-hepcidin. Children with symptomatic malaria had 103 % (95 % CI 32, 210) higher s-hepcidin than afebrile children without detectable malaria, while children with recent or asymptomatic malaria had 51 % (95 % CI 35, 63) lower s-hepcidin. S-hepcidin increased 61 % (95 % CI 38, 87) after 12 weeks of food supplementation with 22 % higher (95 % CI 2, 45) concentration in those who received LNS compared with CSB. Expectedly, morbidity and inflammation were associated with higher, and iron deficiency with lower, s-hepcidin. Further studies are needed to corroborate the finding of decreased s-hepcidin in malnourished children with asymptomatic malaria.

Creatine is a vital bioenergetic compound that remains largely overlooked within food systems despite its well-established role in human health and performance. Unlike creatinine – a downstream breakdown product of creatine metabolism commonly measured as a biomarker of kidney function – creatine functions as an energy buffer, facilitating the rapid regeneration of ATP in tissues with high metabolic demands such as skeletal muscle, brain and heart. Although a portion of daily creatine requirements is met through endogenous synthesis, dietary intake – primarily from animal-source foods – remains essential to maintain optimal physiological levels. Emerging evidence indicates that suboptimal creatine status, or creatine insufficiency, may be widespread, particularly among vegetarians, vegans, older adults, individuals with chronic illness and those with increased energy needs. This paper examines the evolving role of creatine across four domains: its natural occurrence in foods, incorporation into fortified food products, use as a dietary supplement and potential future classification as a pharmaceutical agent. Special emphasis is placed on differences in regulatory status, intended use, dosage, labelling and public health implications. In light of mounting evidence that creatine insufficiency may contribute to adverse outcomes – including impaired cognition, reduced muscular performance and vulnerability to stressors – integrating creatine into food policy and nutrition strategies represents a promising, scalable and preventive approach to improve population health.

This study evaluated the effect of different medium-chain to long-chain fatty acid (MCFA:LCFA, M:L) ratios on growth performance, intestinal function, antioxidant capacity and gut microbiota in piglets. A total of 250 piglets were randomly assigned to five groups with five replicates, each containing ten pigs. The diets, containing varying amounts of MCFA-rich coconut oil and LCFA-rich soyabean oil, resulted in M:L ratios of 0, 2·1, 4·2, 8·8 and 33·8 %. Results showed that both final body weight and average daily weight gain increased as the M:L ratio increased (P < 0·05), while the 8·8 % M:L ratio diet exhibited the lowest feed:gain ratio (P < 0·05). As the M:L ratio increased, the contents of superoxide dismutase and glutathione peroxidase were increased, and MDA was decreased in serum (P < 0·05). The 8·8 and 33·8 % M:L diets improved ileal and jejunal morphology (P < 0·05), as indicated by greater villus height and villus height:crypt depth ratios. Furthermore, increasing M:L ratios from 0 to 33·8 % increased expression of tight junction proteins occludin and ZO-1 in the jejunum (P < 0·05). The 33·8 % M:L ratio reduced microbial α-diversity (P < 0·05), while 8·8 % M:L diet significantly increased the abundance of beneficial bacteria (e.g. Lactobacilli, Prevotella) and decreased harmful bacteria (e.g. Escherichia-Shigella, Enterococcus) in the cecum (P < 0·05). In summary, our study found that 8·8 % of dietary M:L ratios significantly improved growth performance, likely through modulating intestinal function, antioxidant activity and gut microbial composition.

Dieting is a global emerging trend in recent years as more people strive to adhere to food restriction plans for weight management in obese people and to achieve desired slim body. This strategy may have unforeseen repercussions in females that may affect reproductive potential. Therefore, we aimed to investigate the impact of dietary stress on reproductive hormone levels, histoarchitecture of the ovary, autophagy and apoptosis markers in the rat ovary. Data suggest that dietary stress caused due to food deprivation decreased body weight and ovary weight, luteinising hormone, follicular-stimulating hormone and estradiol-17β levels. The dietary stress reduced the number of primary follicles, altered the histoarchitecture of the ovary, increased number of fragmented and irregularly shaped oocytes. Dietary stress induced autophagy signalling by inhibiting mammalian target of rapamycin and increasing Lamp-1, LC-3 and Beclin-1 in the ovarian follicles. In addition, dietary stress induced proapoptotic signalling pathway by decreasing Bcl-2 and increasing Bax as well as cytochrome-c expressions in the ovary. Taken together, these findings suggest that dietary stress caused due to food deprivation reduced reproductive hormones levels, induced autophagy and apoptotic signalling pathways that affected histoarchitecture of the ovary, ovarian function, oocyte quality and thereby reproductive potential.

Intrinsic capacity, introduced by the WHO, represents a shift in focus from treating disease to maintaining physical and mental capacities individuals as they age. It encompasses five interrelated domains: vitality, sensory, cognition, psychology, and locomotion. Vitality refers to the body’s physiological reserve and is shaped by processes such as energy metabolism, immune function, and neuromuscular integrity. By definition, vitality is closely linked to nutritional status, which plays a central role in maintaining resilience and health in older adults. However, integrating nutritional status into the vitality domain presents several challenges due to inconsistent definitions and varied measurement approaches. This review examines these challenges and explores possibilities for integrating nutritional status in the vitality domain. The absence of standardised nutrition-related indicators limits comparability across studies and constrains the practical application of intrinsic capacity in both research and clinical contexts. To strengthen the role of intrinsic capacity in nutritional monitoring, it is essential to reach consensus on which nutritional indicators to include and how to score them consistently. Addressing these methodological challenges will support the use of intrinsic capacity in identifying early signs of nutritional decline and guiding timely interventions to promote healthy ageing.