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Acute beetroot juice reduces blood pressure in young Black and White males but not females.
Grosicki, GJ, Flatt, AA, Cross, BL, Vondrasek, JD, Blumenburg, WT, Lincoln, ZR, Chall, A, Bryan, A, Patel, RP, Ricart, K, et al
Redox biology. 2023;63:102718
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Cardiovascular (CV) disease is the leading cause of death in the United States. Out of all ethnic groups, CV disease is particularly common in black Americans. High blood pressure (BP) is one of the main contributors to CV disease, and black Americans exhibit a disproportionally higher incident rate of high BP when compared to other ethnic groups. Partly this is due to genetic and physiological differences, yet is also influenced by social, socioeconomic, and environmental factors. One physiological difference that may contribute to higher BP in black adults appears to be a reduced availability of nitric oxide (NO). NO is a gas that is abundant in the human body. It regulates vascular tone and elasticity of the arteries, and therefore helps to manage blood pressure. Nitrates that occur in foods can be converted to NO and thus contribute to NO levels in the body. Beetroot juice (BRJ) is rich in nitrates. This study examined whether BRJ supplementation can reduce resting BP and cardiovascular reactivity in adults. The randomized, placebo-controlled, crossover-design study was completed by 18 black and 20 white young adults, male and female, with an average age of 21. The study monitored heart rate, BP and arterial stiffness in a variety of settings. The study also assessed socioeconomic status, perceived discrimination, sleep and dietary intake. The main findings from this investigation were that despite young black adults having higher resting BP, acute BRJ supplementation reduced the pressure to a similar extent in young black and white adults, but primarily in males. This reduction correlated with increased levels of circulating nitrites. However, acute BRJ supplementation did not influence resting arterial stiffness. The result also highlighted previously seen racial differences relating to social determinants of health and lifestyle, which may contribute to the elevated BP values seen in black participants. The study demonstrated that dietary nitrate from beetroot juice has the potential to be a cost-effective blood pressure-lowering strategy for young black and white males. Yet the findings also highlighted the complex interplay of social, lifestyle, and underlying physiological factors that influence racial differences when it comes to CV health
Abstract
A complex interplay of social, lifestyle, and physiological factors contribute to Black Americans having the highest blood pressure (BP) in America. One potential contributor to Black adult's higher BP may be reduced nitric oxide (NO) bioavailability. Therefore, we sought to determine whether augmenting NO bioavailability with acute beetroot juice (BRJ) supplementation would reduce resting BP and cardiovascular reactivity in Black and White adults, but to a greater extent in Black adults. A total of 18 Black and 20 White (∼equal split by biological sex) young adults completed this randomized, placebo-controlled (nitrate (NO3-)-depleted BRJ), crossover design study. We measured heart rate, brachial and central BP, and arterial stiffness (via pulse wave velocity) at rest, during handgrip exercise, and during post-exercise circulatory occlusion. Compared with White adults, Black adults exhibited higher pre-supplementation resting brachial and central BP (Ps ≤0.035; e.g., brachial systolic BP: 116(11) vs. 121(7) mmHg, P = 0.023). Compared with placebo, BRJ (∼12.8 mmol NO3-) reduced resting brachial systolic BP similarly in Black (Δ-4±10 mmHg) and White (Δ-4±7 mmHg) adults (P = 0.029). However, BRJ supplementation reduced BP in males (Ps ≤ 0.020) but not females (Ps ≥ 0.299). Irrespective of race or sex, increases in plasma NO3- were associated with reduced brachial systolic BP (ρ = -0.237, P = 0.042). No other treatment effects were observed for BP or arterial stiffness at rest or during physical stress (i.e., reactivity); Ps ≥ 0.075. Despite young Black adults having higher resting BP, acute BRJ supplementation reduced systolic BP in young Black and White adults by a similar magnitude, an effect that was driven by males.
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Oxidative Stress and Inflammation Are Associated With Age-Related Endothelial Dysfunction in Men With Low Testosterone.
Babcock, MC, DuBose, LE, Witten, TL, Stauffer, BL, Hildreth, KL, Schwartz, RS, Kohrt, WM, Moreau, KL
The Journal of clinical endocrinology and metabolism. 2022;107(2):e500-e514
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Serum testosterone declines gradually with age at a rate of ~1% per year after the third decade. Vascular aging, featuring endothelial dysfunction mediated by oxidative stress and inflammation, is a major risk factor for the development of age-associated cardiovascular disease (CVD). The aim of this study was to examine the effects of low testosterone on cardiovascular aging in men. This study is a cross-sectional study which recruited 58 healthy men of all races/ethnic backgrounds aged 50-75 years (middle-aged/older) and 18-40 years (young). Results show that middle-aged/older men with lower testosterone have evidence of “accelerated” vascular aging, as indicated by a greater age-associated endothelial dysfunction of large arteries compared with their age-matched peers. The greater macrovascular endothelial dysfunction in middle-aged/older men with chronically low testosterone was independent of CVD risk factors or symptoms of androgen deficiency. Furthermore, increased systemic oxidative stress and inflammation are mechanistically linked to the greater age-associated endothelial dysfunction in middle-aged/older men with lower testosterone. Authors conclude that normal physiological levels of testosterone may be beneficial to cardiovascular health by attenuating the age-related decline in endothelial function.
Abstract
CONTEXT Vascular aging, including endothelial dysfunction secondary to oxidative stress and inflammation, increases the risk for age-associated cardiovascular disease (CVD). Low testosterone in middle-aged/older men is associated with increased CVD risk. OBJECTIVE We hypothesized that low testosterone contributes to age-associated endothelial dysfunction, related in part to greater oxidative stress and inflammation. METHODS This cross-sectional study included 58 healthy, nonsmoking men categorized as young (N = 20; age 29 ± 4 years; testosterone 500 ± 58 ng/dL), middle-aged/older with higher testosterone (N = 20; age 60 ± 6 years; testosterone 512 ± 115 ng/dL), and middle-aged/older lower testosterone (N = 18; age 59 ± 8 years; testosterone 269 ± 48 ng/dL). Brachial artery flow-mediated dilation (FMDBA) was measured during acute infusion of saline (control) and vitamin C (antioxidant). Markers of oxidative stress (total antioxidant status and oxidized low-density lipoprotein cholesterol), inflammation (interleukin [IL]-6 and C-reactive protein [CRP]), and androgen deficiency symptoms were also examined. RESULTS During saline, FMDBA was reduced in middle-aged/older compared with young, regardless of testosterone status (P < 0.001). FMDBA was reduced in middle-aged/older lower testosterone (3.7% ± 2.0%) compared with middle-aged/older higher testosterone (5.7% ± 2.2%; P = 0.021), independent of symptoms. Vitamin C increased FMDBA (to 5.3% ± 1.6%; P = 0.022) in middle-aged/older lower testosterone but had no effect in young (P = 0.992) or middle-aged/older higher testosterone (P = 0.250). FMDBA correlated with serum testosterone (r = 0.45; P < 0.001), IL-6 (r = -0.41; P = 0.002), and CRP (r = -0.28; P = 0.041). CONCLUSION Healthy middle-aged/older men with low testosterone appear to have greater age-associated endothelial dysfunction, related in part to greater oxidative stress and inflammation. These data suggest that low testosterone concentrations may contribute to accelerated vascular aging in men.
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Higher circulating α-carotene was associated with better cognitive function: an evaluation among the MIND trial participants.
Liu, X, Dhana, K, Furtado, JD, Agarwal, P, Aggarwal, NT, Tangney, C, Laranjo, N, Carey, V, Barnes, LL, Sacks, FM
Journal of nutritional science. 2021;10:e64
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Diet has been identified as one of the important modifiable lifestyle factors in preventing Alzheimer’s disease. Carotenoids are potent antioxidants, naturally occurring pigments found in red, yellow, orange and dark green fruits and vegetables. Literature from epidemiological studies links fruit and vegetable consumption, and higher levels of carotenoids, with a lower risk of cognitive decline among older adults from different regions. The aim of this study was to examine (1) the association between dietary intakes of carotenoids and global/domain-specific cognition, and (2) how participants’ dietary patterns corresponded to their plasma levels of carotenoids. This study is an evaluation of baseline blood nutrients and cognition among the Mediterranean-DASH Intervention for Neurodegenerative Delay (MIND) participants. Participants are predominantly Caucasian females with a mean age of 69⋅8 years. Results show that high levels of plasma α-carotene were associated with higher scores for global cognition, and episodic and semantic memory. The carotenoids lutein and zeaxanthin (combined) were positively associated with better scores for semantic memory. A dietary pattern that featured greater consumption of vegetables other than green leafy vegetables and fruits, corresponded to high α-carotene in blood which was associated with higher cognition scores. Authors conclude that blood nutrient levels as objective markers could characterise individuals’ dietary patterns, which could facilitate a targeted dietary intervention to prevent cognitive decline.
Abstract
There is emerging evidence linking fruit and vegetable consumption and cognitive function. However, studies focusing on the nutrients underlying this relationship are lacking. We aim to examine the association between plasma nutrients and cognition in a population at risk for cognitive decline with a suboptimal diet. The Mediterranean-DASH Intervention for Neurodegenerative Delay (MIND) trial is a randomized controlled intervention that examines the effects of the MIND diet to prevent cognitive decline. The primary outcome is global cognition. A multivariate linear model was used to investigate the association between blood nutrients and global and/or domain-specific cognition. The model was adjusted for age, sex, education, study site, smoking status, cognitive activities and physical activities. High plasma α-carotene was associated with better global cognition. Participants in the highest tertile of plasma α-carotene had a higher global cognition z score of 0⋅17 when compared with individuals in the lowest tertile (P 0⋅002). Circulating α-carotene levels were also associated with higher semantic memory scores (P for trend 0⋅007). Lutein and zeaxanthin (combined) was positively associated with higher semantic memory scores (P for trend 0⋅009). Our study demonstrated that higher α-carotene levels in blood were associated with higher global cognition scores in a US population at risk for cognitive decline. The higher α-carotene levels in blood reflected greater intakes of fruits, other types of vegetables and lesser intakes of butter and margarine and meat. The higher circulating levels of lutein plus zeaxanthin reflected a dietary pattern with high intakes of fruits, green leafy, other vegetables and cheese, and low consumption of fried foods. Objective nutrient markers in the blood can better characterize dietary intake, which may facilitate the implementation of a tailored dietary intervention for the prevention of cognitive decline.
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Dietary flavanols improve cerebral cortical oxygenation and cognition in healthy adults.
Gratton, G, Weaver, SR, Burley, CV, Low, KA, Maclin, EL, Johns, PW, Pham, QS, Lucas, SJE, Fabiani, M, Rendeiro, C
Scientific reports. 2020;10(1):19409
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Fruits and vegetables contain flavonoids that can protect against vascular diseases and cognitive ageing. Studies have shown that cocoa flavonoids can enhance the function of endothelial cells and blood vessels in peripheral arteries. This randomised, double-blinded, placebo-controlled crossover study assessed the effects of cocoa flavanols on cerebral and peripheral vascular and cognitive function. The healthy young subjects showed greater tissue oxygenation and cerebrovascular reactivity in the frontal parts of the brain during the carbon dioxide challenge after high cocoa flavonoid intervention. Furthermore, the cocoa flavonoid intervention improved cognitive and peripheral endothelial functions in healthy young subjects. Even though the mechanistic link behind the beneficial effects of flavonoids is not understood completely, the positive effects could be due to the ability of flavanols to enhance the bioavailability of circulation Nitric Oxide (NO). The study also found that flavonoids improved cognitive function in healthy individuals only when there was a high cognitive demand. Further robust studies are required to evaluate the mechanisms behind the benefits associated with acute flavonoid intake. Healthcare professionals can utilise the findings from this study to gain insight into the advantages of consuming a flavonoid-rich diet. Additionally, they can learn about the differing responses to flavanol intake between individuals.
Abstract
Cocoa flavanols protect humans against vascular disease, as evidenced by improvements in peripheral endothelial function, likely through nitric oxide signalling. Emerging evidence also suggests that flavanol-rich diets protect against cognitive aging, but mechanisms remain elusive. In a randomized double-blind within-subject acute study in healthy young adults, we link these two lines of research by showing, for the first time, that flavanol intake leads to faster and greater brain oxygenation responses to hypercapnia, as well as higher performance only when cognitive demand is high. Individual difference analyses further show that participants who benefit from flavanols intake during hypercapnia are also those who do so in the cognitive challenge. These data support the hypothesis that similar vascular mechanisms underlie both the peripheral and cerebral effects of flavanols. They further show the importance of studies combining physiological and graded cognitive challenges in young adults to investigate the actions of dietary flavanols on brain function.
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Metabolic Slowing and Reduced Oxidative Damage with Sustained Caloric Restriction Support the Rate of Living and Oxidative Damage Theories of Aging.
Redman, LM, Smith, SR, Burton, JH, Martin, CK, Il'yasova, D, Ravussin, E
Cell metabolism. 2018;27(4):805-815.e4
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Following a calorie-restricted diet while maintaining adequate nutrition is known to have a beneficial effect on increasing longevity and promoting healthy ageing. Oxidative stress resulting from reactive oxygen species formation in mitochondria plays a role in accelerating ageing by damaging DNA, proteins and lipids. A calorie-restriction diet can reduce oxidative stress and cause metabolic adaptations. In this ancillary study, non-obese participants were randomly assigned to either a calorie restriction group which followed 25% calorie restriction while getting adequate nutritional support through supplementation or to a control group which included ad libitum calorie intake. After 2 years of intervention, participants in the calorie restriction group achieved 15% calorie restriction, 8.7kg weight loss and a reduction in 24-hour energy expenditure and sleep energy expenditure beyond weight loss because of metabolic adaptation. Oxidative stress and thyroid axis activity were also reduced in the calorie restriction group. Further robust studies are required to evaluate the effectiveness of calorie restriction in metabolic adaptation and oxidative stress and its effects on ageing. The results of this study can be used by healthcare professionals to understand the benefits of a nutritionally adequate calorie restriction diet on adjusting metabolic processes.
Abstract
Calorie restriction (CR) is a dietary intervention with potential benefits for healthspan improvement and lifespan extension. In 53 (34 CR and 19 control) non-obese adults, we tested the hypothesis that energy expenditure (EE) and its endocrine mediators are reduced with a CR diet over 2 years. Approximately 15% CR was achieved over 2 years, resulting in an average 8.7 kg weight loss, whereas controls gained 1.8 kg. In the CR group, EE measured over 24 hr or during sleep was approximately 80-120 kcal/day lower than expected on the basis of weight loss, indicating sustained metabolic adaptation over 2 years. This metabolic adaptation was accompanied by significantly reduced thyroid axis activity and reactive oxygen species (F2-isoprostane) production. Findings from this 2-year CR trial in healthy, non-obese humans provide new evidence of persistent metabolic slowing accompanied by reduced oxidative stress, which supports the rate of living and oxidative damage theories of mammalian aging.