alpha-carotene and Body-Weight

Excess body weight, including overweight and obesity, is one of the major factors influencing human health, and plays an important role in the global burden of disease. Carotenoids serve as precursors of vitamin A-related retinoids, and are considered to have potential effects on many diseases. However, the influence of carotenoids on people with excess body weight is unclear.. This meta-analysis was conducted to assess the effects of carotenoids on overweight or obese subjects utilizing the available evidence. We searched PubMed, Medline, Cochrane Library, Web of Science and EMBASE databases up to September 2020. Random effects models were used to calculate the standard mean differences (SMDs) and odds ratios (ORs) with their 95% confidence intervals (95% CIs).. A total of seven randomized controlled trials and eight observational studies met the inclusion criteria and contained 28 944 subjects and data on multiple carotenoid subgroups, including lycopene, astaxanthin, cryptoxanthin, α-carotene, and β-carotene. In all included Randomized Controlled Trial (RCT), the intervention duration was 20 days at the shortest and 16 weeks at the longest, and the range of intervention doses was 1.2-60 mg d-1. Our study found that the insufficiency of serum carotenoids was a risk factor for overweight and obesity (OR = 1.73, 95% CI [1.57, 1.91], p < 0.001). Moreover, carotenoid supplementation was significantly associated with body weight reductions (SMD = -2.34 kg, 95% CI [-3.80, -0.87] kg, p < 0.001), body mass index decrease (BMI, SMD = -0.95 kg cm-2, 95% CI [-1.88, -0.01] kg cm-2, p < 0.001) and waist circumference losses (WC, SMD = -1.84 cm, 95% CI [-3.14, -0.54]cm, p < 0.001).. In summary, the carotenoids show promising effects in overweight or obese subjects. Additional data from large clinical trials are needed.

Topics: Animals; beta Carotene; Body Mass Index; Body Weight; Carotenoids; Cryptoxanthins; Databases, Factual; Dietary Supplements; Humans; Obesity; Overweight; Waist Circumference; Weight Loss

To investigate whether epileptic patients who become obese after valproic acid (VPA) therapy can have a high risk of atherosclerosis related to the oxidation of low-density lipoprotein, we prospectively studied the plasma concentrations of lipid-soluble antioxidant vitamins in a group of 20 epileptic girls and 20 controls. After 1 year of VPA treatment, epileptic patients who gained weight had decreased plasma concentrations of alpha-tocopherol and alpha- and beta-carotene, the main lipid-soluble antioxidants. Moreover, 5 patients who gained weight were reevaluated 6 months after withdrawal from VPA therapy and showed normal body mass indices and normalized plasma levels of antioxidants. In conclusion, the data suggest that epileptic patients who gain weight after VPA therapy have reduced plasma concentrations of antioxidant vitamins and that these reductions are reversible after VPA withdrawal.

Topics: Adolescent; alpha-Tocopherol; Anticonvulsants; Antioxidants; beta Carotene; Body Weight; Carotenoids; Child; Epilepsy; Female; Follow-Up Studies; Humans; Obesity; Prospective Studies; Valproic Acid; Weight Gain

Excessive consumption of energy and fat increases the risk for obesity. Snacks containing sucrose polyesters (SPE) as a dietary fat replacer are on the market in the United States. SPE products have been shown to lower concentrations of serum carotenoids in short-term studies. Experimental studies on the longer-term effects on health of decreased carotenoid concentrations are lacking. A 1-y randomized, double-blind, placebo-controlled parallel trial was performed. Subjects (n = 380) with a habitual low or high fruit and vegetable intake were assigned to the treatments (0, 7, 10 or 17 g/d SPE). SPE was given in the form of spreads, chips or both. The groups were compared for serum carotenoids, vitamins and markers of oxidative damage, eye health, cardiovascular health and immune status. After 1 y, serum lipid-adjusted carotenoids showed the largest decrease in the SPE chips and spread group (17 g/d) compared with the control group [alpha-carotene 33%; beta-carotene 31%, lycopene 24%, beta-cryptoxanthin 18%, lutein 18% (all P < 0.001) and zeaxanthin 13% (P < 0.05)]. Consumption of SPE spread (10 g/d SPE) decreased carotenoid concentrations by 11-29% (all P < 0.05). SPE chips (7 g/d SPE) decreased zeaxanthin (11%), beta-carotene (12%) and alpha-carotene (21%; all P < 0.05). Serum lipid adjusted alpha-tocopherol decreased significantly by 6-8% (all P < 0.001) in all SPE groups. No negative effects were observed on markers of oxidation, eye health, cardiovascular health or immune status. This study shows that decreases in serum carotenoid concentrations do not affect possible markers of disease risk.

Topics: Adolescent; Adult; Aged; alpha-Tocopherol; beta Carotene; Body Weight; Cardiovascular Diseases; Carotenoids; Dietary Fats, Unsaturated; Double-Blind Method; Endothelium, Vascular; Eye Diseases; Fatty Acids; Female; Health Status; Humans; Immunity; Lipid Peroxidation; Lipids; Macula Lutea; Male; Middle Aged; Patient Compliance; Placebos; Risk Factors; Sucrose; Xanthophylls; Zeaxanthins

The influence of palm oil carotene treatment on X-ray-induced chromosomal damage in bone marrow cells of mice was studied. Palm oil carotene contains alpha- and beta-carotene in a ratio of 1:3. Mice were fed either a basal diet or carotene diet containing 50 mg of palm oil carotene/100 g for 15 days. On day 13, mice to be X-ray-irradiated received 0.5 Gy of X-ray to their whole bodies, and the chromosomal damage in bone marrow cells was evaluated in terms of the percentages of micronucleated reticulocytes in their peripheral blood on day 15. The chromosomal damage in the X-ray irradiated mice was 10 times higher than that in the unirradiated mice. The feeding of the carotene diet did not prevent the X-ray-induced chromosomal damage. In the bone marrow cells of mice fed the carotene diet, alpha- and beta-carotene were detected, but the concentration of the carotenes was less than one-hundredth of that of vitamin E. In addition, the feeding of carotene diet markedly reduced the concentration of vitamin E in bone marrow cells and serum. The X-ray irradiation reduced the concentration of vitamin C in the bone marrow cells, but did not reduce that of vitamin E or carotene in the cells.

Topics: Animals; beta Carotene; Body Weight; Bone Marrow; Bone Marrow Cells; Carotenoids; Cell Nucleus; Chromosomes; DNA; Male; Mice; Mice, Inbred ICR; Palm Oil; Plant Oils; Vitamin E

To assess the validity of nutrient intake estimates from a food frequency questionnaire, the authors compared estimates of intake of preformed retinol (dietary plus supplements), beta-carotene, other active carotenoids, and total vitamin A computed from questionnaire responses with serum retinoid and carotenoid concentrations. Data were obtained from 302 male and female current or former smokers, participants in a lung cancer chemoprevention trial at the Fred Hutchinson Cancer Research Center in Seattle, Washington, during 1985-1986. Both serum beta-carotene and serum alpha-carotene were associated, although weakly, with food frequency estimates of total vitamin A intake, dietary vitamin A, beta-carotene, other carotenoids, and total carotenoids (0.18 less than or equal to r less than or equal to 0.26). Serum retinol was associated with supplementary vitamin A intake (r = 0.16). Nondietary factors were also associated with serum nutrient concentrations--in particular, cigarette smoking, alcohol intake, and body mass index. Cigarette smoking emerged as an important modifying factor of the relation between serum beta-carotene and dietary beta-carotene (r = 0.14 for current smokers, r = 0.30 for former smokers).

Topics: Aged; Alcohol Drinking; beta Carotene; Body Weight; Carotenoids; Diet Surveys; Female; Humans; Male; Middle Aged; Nutrition Surveys; Regression Analysis; Smoking; Surveys and Questionnaires; Vitamin A