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Nicotinamide riboside does not alter mitochondrial respiration, content or morphology in skeletal muscle from obese and insulin-resistant men.
Dollerup, OL, Chubanava, S, Agerholm, M, Søndergård, SD, Altıntaş, A, Møller, AB, Høyer, KF, Ringgaard, S, Stødkilde-Jørgensen, H, Lavery, GG, et al
The Journal of physiology. 2020;598(4):731-754
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Preclinical evidence suggests that the nicotinamide adenine dinucleotide (NAD+) precursor nicotinamide riboside (NR) boosts NAD+ levels. Boosting NAD+ metabolism has emerged as a promising strategy to counter age-related functional decline and promote healthy ageing. Progressive deterioration of mitochondrial function and NAD+ metabolism are hallmarks of ageing of human tissue. The aim of this study was to determine if NR supplementation in humans impacts NAD+ metabolism and mitochondrial respiration in skeletal muscle. This study is a randomised, double-blinded, placebo-controlled clinical trial. Participants were randomised into two groups: NR (n=20) and placebo (n=20). Results show that 12 weeks of oral NR supplementation (2000 mg/day) decreased nicotinamide phosphoribosyltransferase protein levels [an enzyme] in muscle without affecting cellular NAD+ content. Despite changes in nicotinamide phosphoribosyltransferase, neither beneficial nor detrimental effects on mitochondrial respiration, content or dynamics were observed in skeletal muscle. Authors conclude that NR supplementation does not enhance aspects of mitochondrial function in human skeletal muscle of middle-aged, obese, insulin-resistant healthy males.
Abstract
KEY POINTS This is the first long-term human clinical trial to report on effects of nicotinamide riboside (NR) on skeletal muscle mitochondrial function, content and morphology. NR supplementation decreases nicotinamide phosphoribosyltransferase (NAMPT) protein abundance in skeletal muscle. NR supplementation does not affect NAD metabolite concentrations in skeletal muscle. Respiration, distribution and quantity of muscle mitochondria are unaffected by NR. NAMPT in skeletal muscle correlates positively with oxidative phosphorylation Complex I, sirtuin 3 and succinate dehydrogenase. ABSTRACT Preclinical evidence suggests that the nicotinamide adenine dinucleotide (NAD+ ) precursor nicotinamide riboside (NR) boosts NAD+ levels and improves diseases associated with mitochondrial dysfunction. We aimed to determine if dietary NR supplementation in middle-aged, obese, insulin-resistant men affects mitochondrial respiration, content and morphology in skeletal muscle. In a randomized, placebo-controlled clinical trial, 40 participants received 1000 mg NR or placebo twice daily for 12 weeks. Skeletal muscle biopsies were collected before and after the intervention. Mitochondrial respiratory capacity was determined by high-resolution respirometry on single muscle fibres. Protein abundance and mRNA expression were measured by Western blot and quantitative PCR analyses, respectively, and in a subset of the participants (placebo n = 8; NR n = 8) we quantified mitochondrial fractional area and mitochondrial morphology by laser scanning confocal microscopy. Protein levels of nicotinamide phosphoribosyltransferase (NAMPT), an essential NAD+ biosynthetic enzyme in skeletal muscle, decreased by 14% with NR. However, steady-state NAD+ levels as well as gene expression and protein abundance of other NAD+ biosynthetic enzymes remained unchanged. Neither respiratory capacity of skeletal muscle mitochondria nor abundance of mitochondrial associated proteins were affected by NR. Moreover, no changes in mitochondrial fractional area or network morphology were observed. Our data do not support the hypothesis that dietary NR supplementation has significant impact on skeletal muscle mitochondria in obese and insulin-resistant men. Future studies on the effects of NR on human skeletal muscle may include both sexes and potentially provide comparisons between young and older people.
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The mitochondria-targeted antioxidant MitoQ, attenuates exercise-induced mitochondrial DNA damage.
Williamson, J, Hughes, CM, Cobley, JN, Davison, GW
Redox biology. 2020;36:101673
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Mitochondria have an established role in the life cycle of a cell, contributing to cellular networks aligned to metabolism, biosynthetic pathways, and apoptotic cell death. Exercise increases the univalent reduction of ground state molecular dioxygen to superoxide in skeletal muscle. The aim of this study was to determine whether (1) a bout of high-intensity intermittent exercise (HIIE) damaged mitochondrial (mt)DNA; and (2) Mitoquinone (MitoQ) [orally available mitochondrial-targeted coenzyme Q10] could prevent mtDNA damage. This study is a double-blind, randomized, placebo-controlled design. Twenty-four (n = 24) healthy, recreationally active males volunteered to take part in the study. The participants were allocated to two groups: MitoQ (n = 12) and placebo (n = 12), and subsequently took part in a two-phased supplementation trial. Results showed that: - exercise increased DNA damage in nucleus and mitochondria. In fact, HIIE damages mtDNA both systemically in lymphocytes and locally in muscle tissue, occurring in parallel with nuclear DNA damage. - chronic MitoQ supplementation offers a prophylactic effect. - MitoQ decreases exercise-induced DNA damage. Authors conclude that the notion that a protective effect of a mitochondria-targeted antioxidant is only unmasked by exercise, reinforces the value of interrogating multiple physiological states when appraising the efficacy of an antioxidant.
Abstract
High-intensity exercise damages mitochondrial DNA (mtDNA) in skeletal muscle. Whether MitoQ - a redox active mitochondrial targeted quinone - can reduce exercise-induced mtDNA damage is unknown. In a double-blind, randomized, placebo-controlled design, twenty-four healthy male participants consisting of two groups (placebo; n = 12, MitoQ; n = 12) performed an exercise trial of 4 x 4-min bouts at 90-95% of heart rate max. Participants completed an acute (20 mg MitoQ or placebo 1-h pre-exercise) and chronic (21 days of supplementation) phase. Blood and skeletal muscle were sampled immediately pre- and post-exercise and analysed for nuclear and mtDNA damage, lipid hydroperoxides, lipid soluble antioxidants, and the ascorbyl free radical. Exercise significantly increased nuclear and mtDNA damage across lymphocytes and muscle (P < 0.05), which was accompanied with changes in lipid hydroperoxides, ascorbyl free radical, and α-tocopherol (P < 0.05). Acute MitoQ treatment failed to impact any biomarker likely due to insufficient initial bioavailability. However, chronic MitoQ treatment attenuated nuclear (P < 0.05) and mtDNA damage in lymphocytes and muscle tissue (P < 0.05). Our work is the first to show a protective effect of chronic MitoQ supplementation on the mitochondrial and nuclear genomes in lymphocytes and human muscle tissue following exercise, which is important for genome stability.
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From mitochondria to healthy aging: The role of branched-chain amino acids treatment: MATeR a randomized study.
Buondonno, I, Sassi, F, Carignano, G, Dutto, F, Ferreri, C, Pili, FG, Massaia, M, Nisoli, E, Ruocco, C, Porrino, P, et al
Clinical nutrition (Edinburgh, Scotland). 2020;39(7):2080-2091
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Despite the increase in life expectancy, there is no corresponding increase in healthy life expectancy. Lifestyle changes appear to be fundamental in increasing healthy life expectancy, and adequate nutrition is enormously important, given that malnutrition (i.e., undernutrition), particularly as protein-energy deficit is very common amongst the elderly population. It has been suggested that the aging process significantly affects protein metabolism and enhances the muscle wastage that accompanies undernutrition and sarcopenia. The aim of this study was to evaluate the efficacy of a specific branched-chain amino acids enriched mixtures (BCAAem) compared to diet advice to promote mitochondrial function and improve clinical outcomes, particularly muscle and cognitive performance, in malnourished elderly community-dwelling subjects. This study is a parallel, randomised, controlled, open-label trial. One hundred and fifty-five malnourished elderly patients were enrolled. The participants were randomly assigned to one of the two groups: diet advice, summarised in an easy-to-use brochure for lay persons or BCAAem supplements. Results show that amelioration of nutritional status is associated with improvement in general health status, muscle and cognitive performances in old, malnourished patients. In fact, the diagnosis of malnutrition and its treatment, albeit using different approaches, is fundamental in improving the patients’ general health and nutritional status. Authors conclude that BCAAem treatment in old, malnourished patients may be a good strategy to ameliorate the bioenergetic capacity of peripheral blood mononuclear cells.
Abstract
RATIONALE Malnutrition often affects elderly patients and significantly contributes to the reduction in healthy life expectancy, causing high morbidity and mortality. In particular, protein malnutrition is one of the determinants of frailty and sarcopenia in elderly people. METHODS To investigate the role of amino acid supplementation in senior patients we performed an open-label randomized trial and administered a particular branched-chain amino acid enriched mixture (BCAAem) or provided diet advice in 155 elderly malnourished patients. They were followed for 2 months, assessing cognitive performance by Mini Mental State Examination (MMSE), muscle mass measured by anthropometry, strength measure by hand grip and performance measured by the Timed Up and Go (TUG) test, the 30 s Chair Sit to Stand (30-s CST) test and the 4 m gait speed test. Moreover we measured oxidative stress in plasma and mitochondrial production of ATP and electron flux in peripheral blood mononuclear cells. RESULTS Both groups improved in nutritional status, general health and muscle mass, strength and performance; treatment with BCAAem supplementation was more effective than simple diet advice in increasing MMSE (1.2 increase versus 0.2, p = 0.0171), ATP production (0.43 increase versus -0.1, p = 0.0001), electron flux (0.50 increase versus 0.01, p < 0.0001) and in maintaining low oxidative stress. The amelioration of clinical parameters as MMSE, balance, four meter walking test were associated to increased mitochondrial function. CONCLUSIONS Overall, our findings show that sustaining nutritional support might be clinically relevant in increasing physical performance in elderly malnourished patients and that the use of specific BCAAem might ameliorate also cognitive performance thanks to an amelioration of mitochondria bioenergetics.
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Exercise twice-a-day potentiates markers of mitochondrial biogenesis in men.
Andrade-Souza, VA, Ghiarone, T, Sansonio, A, Santos Silva, KA, Tomazini, F, Arcoverde, L, Fyfe, J, Perri, E, Saner, N, Kuang, J, et al
FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 2020;34(1):1602-1619
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Endurance exercise is a powerful stimulus affecting cytoplasmic and nuclear proteins, and genes encoding mitochondrial proteins, with a subsequent increase in mitochondrial biogenesis (ie, the generation of new mitochondrial components leading to increased mitochondrial content and respiratory function). The aim of this study was to investigate whether greater exercise-induced signalling with the “train-low” approach can be attributed to the cumulative effects of performing two exercise sessions in close proximity. This study enrolled eight healthy men whom each completed three experimental trials in a crossover, randomized, and incomplete balanced Latin Square counterbalanced measure design. Results show that the greater exercise-induced nuclear protein abundance and transcription of genes involved in mitochondrial biogenesis with the “train-low” approach might be attributed to performing two exercise sessions in close proximity. Furthermore, the twice-a-day approach was associated with a higher heart rate, ventilation, and oxygen uptake, and a lower plasma glucose concentration, during high-intensity interval exercise than both the once-daily and the control condition. Authors conclude that further studies comparing different “train-low” approached in well-trained athletes are required.
Abstract
Endurance exercise begun with reduced muscle glycogen stores seems to potentiate skeletal muscle protein abundance and gene expression. However, it is unknown whether this greater signaling responses is due to performing two exercise sessions in close proximity-as a first exercise session is necessary to reduce the muscle glycogen stores. In the present study, we manipulated the recovery duration between a first muscle glycogen-depleting exercise and a second exercise session, such that the second exercise session started with reduced muscle glycogen in both approaches but was performed either 2 or 15 hours after the first exercise session (so-called "twice-a-day" and "once-daily" approaches, respectively). We found that exercise twice-a-day increased the nuclear abundance of transcription factor EB (TFEB) and nuclear factor of activated T cells (NFAT) and potentiated the transcription of peroxisome proliferator-activated receptor-ɣ coactivator 1-alpha (PGC-1α), peroxisome proliferator-activated receptor-alpha (PPARα), and peroxisome proliferator-activated receptor beta/delta (PPARβ/δ) genes, in comparison with the once-daily exercise. These results suggest that part of the elevated molecular signaling reported with previous "train-low" approaches might be attributed to performing two exercise sessions in close proximity. The twice-a-day approach might be an effective strategy to induce adaptations related to mitochondrial biogenesis and fat oxidation.
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Supplement with whey protein hydrolysate in contrast to carbohydrate supports mitochondrial adaptations in trained runners.
Hansen, M, Oxfeldt, M, Larsen, AE, Thomsen, LS, Rokkedal-Lausch, T, Christensen, B, Rittig, N, De Paoli, FV, Bangsbo, J, Ørtenblad, N, et al
Journal of the International Society of Sports Nutrition. 2020;17(1):46
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Nutrition is crucial for long-term success in elite sports to support athletic performance and recovery. Furthermore, adaptations to training can be amplified or dampened by the dietary intake of food and specific supplements. The aim of this study was to investigate the effect of consuming whey protein (PRO) hydrolysate before and whey PRO hydrolysate plus carbohydrates (CHO) after each exercise session compared to intake of isocaloric CHO on mitochondrial protein content, maximal oxygen uptake and time trial performance during a controlled six-week training period in trained runners. This study is a double-blinded block-randomized controlled intervention trial. Healthy, trained runners (18–50 yrs.) were recruited for the study. Half of the participants were randomised to ingest a PRO beverage before and PRO-CHO beverage after each exercise session (PRO-CHO). The other half of the group (CHO) ingested an energy matched CHO beverage before and after each exercise session. Results show that ingestion of whey protein hydrolysate before and whey protein hydrolysate plus carbohydrate after each exercise session during a six-week endurance training period improved specific mitochondrial protein adaptations compared to isocaloric intake of CHO. Authors conclude that the significance of mitochondrial adaptations for performance remains to be elucidated since adaptations were not followed by a better performance.
Abstract
BACKGROUND Protein supplementation has been suggested to augment endurance training adaptations by increasing mixed muscle and myofibrillar protein synthesis and lean body mass. However, a potential beneficial effect on mitochondrial adaptations is yet to be clarified. The aim of the present study was to investigate the effect of consuming whey protein hydrolysate before and whey protein hydrolysate plus carbohydrate (PRO-CHO) after each exercise session during a six-week training period compared to similarly timed intake of isocaloric CHO supplements on biomarkers of mitochondrial biogenesis, VO2max and performance in trained runners. METHODS Twenty-four trained runners (VO2max 60.7 ± 3.7 ml O2 kg- 1 min1) completed a six-week block randomized controlled intervention period, consisting of progressive running training. Subjects were randomly assigned to either PRO-CHO or CHO and matched in pairs for gender, age, VO2max, training and performance status. The PRO-CHO group ingested a protein beverage (0.3 g kg- 1) before and protein-carbohydrate beverage (0.3 g protein kg- 1 and 1 g carbohydrate kg- 1) after each exercise session. The CHO group ingested an energy matched carbohydrate beverage. Resting muscle biopsies obtained pre and post intervention were analyzed for mitochondrial specific enzyme activity and mitochondrial protein content. Subjects completed a 6 K time trial (6 K TT) and a VO2max test pre, midway (only 6 K TT) and post intervention. RESULTS Following six weeks of endurance training Cytochrome C (Cyt C) protein content was significantly higher in the PRO-CHO group compared to the CHO group (p < 0.05), with several other mitochondrial proteins (Succinate dehydrogenase (SDHA), Cytochrome C oxidase (COX-IV), Voltage-dependent anion channel (VDAC), Heat shock protein 60 (HSP60), and Prohibitin (PHB1)) following a similar, but non-significant pattern (p = 0.07-0.14). β-hydroxyacyl-CoA dehydrogenase (HAD) activity was significantly lower after training in the CHO group (p < 0.01), but not in the PRO-CHO group (p = 0.24). VO2max and 6 K TT was significantly improved after training with no significant difference between groups. CONCLUSION Intake of whey PRO hydrolysate before and whey PRO hydrolysate plus CHO after each exercise session during a six-week endurance training period may augment training effects on specific mitochondrial proteins compared to intake of iso-caloric CHO but does not alter VO2max or 6 K TT performance. TRIAL REGISTRATION clinicaltrials.gov , NCT03561337 . Registered 6 June 2018 - Retrospectively registered.
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Niacin Cures Systemic NAD+ Deficiency and Improves Muscle Performance in Adult-Onset Mitochondrial Myopathy.
Pirinen, E, Auranen, M, Khan, NA, Brilhante, V, Urho, N, Pessia, A, Hakkarainen, A, Kuula, J, Heinonen, U, Schmidt, MS, et al
Cell metabolism. 2020;31(6):1078-1090.e5
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Nicotinamide adenine dinucleotide (NAD+) metabolite and its derivatives are fundamental orchestrators of daily homeostasis in our tissues. The relative amounts of NAD forms (NAD+, NADH, NADP, and NADPH) and their cofactor functions to drive metabolism to either catabolic or anabolic direction, deciding whether nutrients are broken down to synthesize ATP (adenosine 5′-triphosphate), the cellular energy currency or used as building blocks for growth and repair. An increased NAD+ /NADH ratio is a signal for a low nutrient state activating cellular fasting responses. The main question of this study was whether NAD+ levels are depleted in mitochondrial dysfunction, as mitochondria are regulating NAD+ concentrations, and if so, whether NAD+ deficiency can be restored in the tissues of the patients. Results show that mitochondrial muscle disease causes NAD+ deficiency, a myopathy-induced vitamin B3 deficiency, a metabolic pellagra. Furthermore, NAD+ levels can be rescued by a potent NAD+ booster niacin, a vitamin B3 form. Authors conclude that their findings (1) underscore the potent role of micronutrient vitamin B3 as a metabolic modifier; (2) identify NAD+ deficiency as a contributor to mitochondrial myopathy progression; (3) point to usefulness of niacin therapy for progressive external ophthalmoplegia patients; (4) introduce blood NAD+ test as a tool to identify and follow-up NAD+ deficiency; (5) indicate that correction of metabolome and function can occur without correction of transcriptional stress responses, emphasizing importance of metabolomic analysis in follow-up of treatment efficacy.
Abstract
NAD+ is a redox-active metabolite, the depletion of which has been proposed to promote aging and degenerative diseases in rodents. However, whether NAD+ depletion occurs in patients with degenerative disorders and whether NAD+ repletion improves their symptoms has remained open. Here, we report systemic NAD+ deficiency in adult-onset mitochondrial myopathy patients. We administered an increasing dose of NAD+-booster niacin, a vitamin B3 form (to 750-1,000 mg/day; clinicaltrials.govNCT03973203) for patients and their matched controls for 10 or 4 months, respectively. Blood NAD+ increased in all subjects, up to 8-fold, and muscle NAD+ of patients reached the level of their controls. Some patients showed anemia tendency, while muscle strength and mitochondrial biogenesis increased in all subjects. In patients, muscle metabolome shifted toward controls and liver fat decreased even 50%. Our evidence indicates that blood analysis is useful in identifying NAD+ deficiency and points niacin to be an efficient NAD+ booster for treating mitochondrial myopathy.
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Consumption of ultra-processed foods and health outcomes: a systematic review of epidemiological studies.
Chen, X, Zhang, Z, Yang, H, Qiu, P, Wang, H, Wang, F, Zhao, Q, Fang, J, Nie, J
Nutrition journal. 2020;19(1):86
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Unhealthy diets are recognized as a major determinant of the occurrence of non-communicable diseases (NCDs). The aim of this study was to summarize the evidence for the association between ultra-processed food (UPFs) consumption and health outcomes. This study is a systemic review of 20 published epidemiological studies (12 cohort and 8 cross-sectional studies), with a total of 334,114 participants and 10 diseases. Results indicate a positive association between UPFs consumption and risk of all-cause mortality, overall cardiovascular diseases, coronary heart diseases, cerebrovascular diseases, hypertension, metabolic syndrome, overweight and obesity, depression, irritable bowel syndrome, overall cancer, postmenopausal breast cancer, gestational obesity, adolescent asthma and wheezing, and frailty. However, on the contrary, there was not an obvious association with cardiovascular disease mortality, prostate and colorectal cancer, gestational diabetes mellitus and gestational overweight. Authors conclude that their findings encouraged a decrease in UPFs consumption and an increase in the proportion of unprocessed or minimally processed foods, such as fruits and vegetables.
Abstract
BACKGROUND Consumption of ultra-processed foods (UPFs) plays a potential role in the development of obesity and other diet-related noncommunicable diseases (NCDs), but no studies have systematically focused on this. This study aimed to summarize the evidence for the association between UPFs consumption and health outcomes. METHODS A comprehensive search was conducted in PubMed, Embase, and Web of Science to identify all relevant studies. Epidemiological studies were included, and identified studies were evaluated for risk of bias.A narrative review of the synthesized findings was provided to assess the association between UPFs consumption and health outcomes. RESULTS 20 studies (12 cohort and 8 cross-sectional studies) were included in the analysis, with a total of 334,114 participants and 10 health outcomes. In a narrative review, high UPFs consumption was obviously associated with an increased risk of all-cause mortality, overall cardiovascular diseases, coronary heart diseases, cerebrovascular diseases, hypertension, metabolic syndrome, overweight and obesity, depression, irritable bowel syndrome, overall cancer, postmenopausal breast cancer, gestational obesity, adolescent asthma and wheezing, and frailty. It showed no significant association with cardiovascular disease mortality, prostate and colorectal cancers, gestational diabetes mellitus and gestational overweight. CONCLUSIONS This study indicated a positive association between UPFs consumption and risk of several health outcomes. Large-scale prospective designed studies are needed to confirm our findings.
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Food processing and cardiometabolic risk factors: a systematic review.
Santos, FSD, Dias, MDS, Mintem, GC, Oliveira, IO, Gigante, DP
Revista de saude publica. 2020;54:70
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Cardiovascular diseases (CVD) comprise the main cause of mortality in the world and approximately three quarters of deaths occur in low- and middle-income countries. The aim of this study was to assess the association between food consumption according to processing and cardiometabolic factors in adults and/or the elderly. This study is a systematic review of eleven studies. Five studies (46%) had a sample size greater than 10,000 participants and the smallest sample identified evaluated 302 individuals. Results indicate that the consumption of UPF can have an unfavourable impact on the health of individuals, especially contributing to increase the body mass index. The cardiometabolic risk factors identified were overweight or obesity, arterial hypertension and metabolic syndrome. Authors conclude that their findings may contribute to strengthening scientific evidence that underlies public policies related to the area of food and nutrition and the coping with cardiovascular diseases.
Abstract
OBJECTIVE To systematically review the evidence for the association between food consumption according to processing and cardiometabolic factors in adults and/or the elderly. METHOD Two independent evaluators analyzed the electronic databases PubMed, Web of Science and Lilacs until December 2018. We used the following terms: (convenience foods OR food processing OR highly-processed OR industrialized foods OR minimally-processed OR prepared foods OR processed foods OR ultra-processed OR ultraprocessed OR ultra processed OR unprocessed) AND (metabolic syndrome OR hypertension OR blood pressure OR diabetes mellitus OR glucose OR glycaemia OR insulin OR cholesterol OR triglycerides OR blood lipids OR overweight OR obesity) AND (adult OR adults OR adulthood OR aged OR elderly OR old). We assessed methodological and evidence qualities, and also extracted information for the qualitative synthesis from the selected studies. RESULTS Of the 6,423 studies identified after removing duplicates, eleven met the eligibility criteria. The main food classification we used was Nova. The consumption of ultra-processed foods was positively associated with overweight and obesity, high blood pressure and metabolic syndrome. All articles included met more than 50% of the methodological quality criteria. The quality of evidence was considered moderate for the outcome overweight and obesity and weak for hypertension and metabolic syndrome. CONCLUSIONS The Nova food classification stands out in the area of nutritional epidemiology when assessing the effects of food processing on health outcomes. Although caution is required in the interpretation, the results indicated that the consumption of ultra-processed foods can have an unfavorable impact in the health of individuals.
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Interaction Between Type 2 Diabetes Prevention Strategies and Genetic Determinants of Coronary Artery Disease on Cardiometabolic Risk Factors.
Merino, J, Jablonski, KA, Mercader, JM, Kahn, SE, Chen, L, Harden, M, Delahanty, LM, Araneta, MRG, Walford, GA, Jacobs, SBR, et al
Diabetes. 2020;69(1):112-120
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Individual risk of Coronary Artery Disease (CAD) and type 2 diabetes reflects the interplay between lifestyle behaviours acting on a backdrop of genetic predisposition. The aim of this study was to examine whether type 2 diabetes prevention strategies, either an intensive lifestyle intervention (ILS) or metformin treatment (MET), modify the association between CAD genetic risk and cardiometabolic risk factors (CRFs) in participants at high risk of type 2 diabetes. The study is a randomised controlled trial were participants were randomly allocated to one of the three groups; ILS (n = 1,079), MET (850 mg twice daily [n = 1,073]), or placebo (n = 1,082). Results indicate that there weren’t major significant differences in baseline characteristics, except for lower high-density lipoprotein and higher triglyceride in the placebo individuals compared with individuals assigned to MET or ILS. In fact, either an ILS or MET has a beneficial effect on 1-year change in different CRFs. Authors conclude that type 2 diabetes–preventive strategies for individuals at high risk of type 2 diabetes provide beneficial effects on CRFs regardless of CAD genetic risk profile.
Abstract
Coronary artery disease (CAD) is more frequent among individuals with dysglycemia. Preventive interventions for diabetes can improve cardiometabolic risk factors (CRFs), but it is unclear whether the benefits on CRFs are similar for individuals at different genetic risk for CAD. We built a 201-variant polygenic risk score (PRS) for CAD and tested for interaction with diabetes prevention strategies on 1-year changes in CRFs in 2,658 Diabetes Prevention Program (DPP) participants. We also examined whether separate lifestyle behaviors interact with PRS and affect changes in CRFs in each intervention group. Participants in both the lifestyle and metformin interventions had greater improvement in the majority of recognized CRFs compared with placebo (P < 0.001) irrespective of CAD genetic risk (P interaction > 0.05). We detected nominal significant interactions between PRS and dietary quality and physical activity on 1-year change in BMI, fasting glucose, triglycerides, and HDL cholesterol in individuals randomized to metformin or placebo, but none of them achieved the multiple-testing correction for significance. This study confirms that diabetes preventive interventions improve CRFs regardless of CAD genetic risk and delivers hypothesis-generating data on the varying benefit of increasing physical activity and improving diet on intermediate cardiovascular risk factors depending on individual CAD genetic risk profile.
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Impact of a Web-Based Exercise and Nutritional Education Intervention in Patients Who Are Obese With Hypertension: Randomized Wait-List Controlled Trial.
Lisón, JF, Palomar, G, Mensorio, MS, Baños, RM, Cebolla-Martí, A, Botella, C, Benavent-Caballer, V, Rodilla, E
Journal of medical Internet research. 2020;22(4):e14196
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Cardiovascular disease is the leading cause of morbidity and mortality in developed countries. Internet-based interventions are a promising strategy for promoting healthy lifestyle behaviours. The aim of this study was to investigate the short- and long-term efficacy of a self-administered internet-based intervention aimed at promoting lifestyle changes in patients who are obese with hypertension. The study is a randomized wait-list controlled trial which recruited 105 adults with hypertension who were overweight or obese and randomly assigned to either a 3-month internet-based intervention group (n=55) or the wait-list control group (n=50). Results showed a significant decrease in the body mass index, body fat mass and blood glucose (blood sugar) levels at 3 months in the internet-based intervention group. In addition, there was a favourable trend towards a relation to blood pressure, which reached statistical significance at the 12-month follow-up. Authors conclude that simple strategies that can easily be incorporated into daily living in a scalable and cost-effective way can empower patients by educating them about health, thus, increasing their confidence and promoting self-management.
Abstract
BACKGROUND Internet-based interventions are a promising strategy for promoting healthy lifestyle behaviors. These have a tremendous potential for delivering electronic health interventions in scalable and cost-effective ways. There is strong evidence that the use of these programs can lead to weight loss and can lower patients' average blood pressure (BP) levels. So far, few studies have investigated the effects of internet-based programs on patients who are obese with hypertension (HTN). OBJECTIVE The aim of this study is to investigate the short- and long-term efficacy, in terms of body composition and BP parameters, of a self-administered internet-based intervention involving different modules and learning techniques aimed at promoting lifestyle changes (both physical activity and healthy eating) in patients who are obese with HTN. METHODS A randomized wait-list controlled trial design was used. We recruited 105 adults with HTN who were overweight or obese and randomly assigned them to either a 3-month internet-based intervention group (n=55) or the wait-list control group (n=50). We assessed BMI (primary outcome), body fat mass (BFM), systolic (S)BP and diastolic (D)BP, blood glucose and insulin levels, physical activity levels, and functional capacity for aerobic exercise at Time 0 (preintervention) and Time 1 (postintervention). All the patients in the wait-list control group subsequently received the intervention, and a secondary within-group analysis, which also included these participants, was conducted at Time 2 (12-month follow-up). RESULTS A 2-way mixed analysis of covariance showed a significant decrease in BMI, BFM, and blood glucose at 3 months in the internet-based intervention group; the effect size for the BMI and BFM parameters was moderate to large, and there was also a borderline significant trend for DBP and insulin. These results were either maintained or improved upon at Time 2 and showed significant changes for BMI (mean difference -0.4, 95% CI -0.1 to -0.6; P=.005), BFM (mean difference -2.4, 95% CI -1.1 to -3.6; P<.001), DBP (mean difference -1.8, 95% CI -0.2 to -3.3; P=.03), and blood glucose (mean difference -2, 95% CI 0 to -4; P=.04). CONCLUSIONS Implementation of our self-administered internet-based intervention, which involved different learning techniques aimed to promote lifestyle changes, resulted in positive short- and long-term health benefits in patients who are obese with HTN. TRIAL REGISTRATION ClinicalTrials.gov NCT03396302; https://clinicaltrials.gov/ct2/show/NCT03396302.