C-reactive protein concentration and concentrations of blood vitamins, carotenoids, and selenium among United States adults
about
Role of high-sensitivity C-reactive protein measurements in HIV patientsSerum coenzyme Q₁₀, α-tocopherol, γ-tocopherol, and C-reactive protein levels and body mass index in adolescent and premenopausal females.Associations of toenail selenium levels with inflammatory biomarkers of fibrinogen, high-sensitivity c-reactive protein, and interleukin-6: The CARDIA Trace Element Study.Lifestyle and clinical factors associated with elevated C-reactive protein among newly diagnosed Type 2 diabetes mellitus patients: a cross-sectional study from the nationwide DD2 cohortCosupplementation with vitamin E and coenzyme Q10 reduces circulating markers of inflammation in baboons.Pre-antiretroviral therapy serum selenium concentrations predict WHO stages 3, 4 or death but not virologic failure post-antiretroviral therapy.Vitamins D, C, and E in the prevention of type 2 diabetes mellitus: modulation of inflammation and oxidative stress.Provitamin A carotenoids are independently associated with matrix metalloproteinase-9 in plasma samples from a general population.Advancing beyond the "heart-healthy diet" for peripheral arterial diseaseSelenium and the prevention of prostate and colorectal cancer.A carotenoid health index based on plasma carotenoids and health outcomesEffect of vitamin C on inflammation and metabolic markers in hypertensive and/or diabetic obese adults: a randomized controlled trialConcurrent Anemia and Elevated C-Reactive Protein Predicts HIV Clinical Treatment Failure, Including Tuberculosis, After Antiretroviral Therapy InitiationCommon SNP rs6564851 in the BCO1 Gene Affects the Circulating Levels of β-Carotene and the Daily Intake of Carotenoids in Healthy Japanese WomenDiscordant risk: overweight and cardiometabolic risk in Chinese adults.Persistently Elevated C-Reactive Protein Level in the First Year of Antiretroviral Therapy, Despite Virologic Suppression, Is Associated With HIV Disease Progression in Resource-Constrained Settings.Selected physiologic variables are weakly to moderately associated with 29 biomarkers of diet and nutrition, NHANES 2003-2006.New evidences for C-reactive protein (CRP) deposits in the arterial intima as a cardiovascular risk factor.Selenium, Zinc, Copper, and Total Antioxidant Status in the Serum of Patients with Chronic Tonsillitis.Vitamin C in disease prevention and cure: an overviewResonance Raman spectroscopic evaluation of skin carotenoids as a biomarker of carotenoid status for human studies.The concentration of β-carotene in human adipocytes, but not the whole-body adipocyte stores, is reduced in obesity.Race differences in the relation of vitamins A, C, E, and β-carotene to metabolic and inflammatory biomarkers.C-reactive protein independently predicts HIV-related outcomes among women and children in a resource-poor setting.Marine bioactives: pharmacological properties and potential applications against inflammatory diseases.Second-hand tobacco smoke and children.Carotenoids in Adipose Tissue Biology and Obesity.Obesity, cardiovascular disease, and role of vitamin C on inflammation: a review of facts and underlying mechanisms.Dietary carotenoids are associated with cardiovascular disease risk biomarkers mediated by serum carotenoid concentrations.Correlation between two markers of inflammation, serum C-reactive protein and interleukin 6, and indices of oxidative stress in patients with high risk of cardiovascular disease.Effect of high-dose intravenous vitamin C on inflammation in cancer patients.Improvement of vitamin D status resulted in amelioration of biomarkers of systemic inflammation in the subjects with type 2 diabetes.The association of fruits, vegetables, antioxidant vitamins and fibre intake with high-sensitivity C-reactive protein: sex and body mass index interactions.Vitamin C deficiency in a population of young Canadian adults.Tangerine tomatoes increase total and tetra-cis-lycopene isomer concentrations more than red tomatoes in healthy adult humans.Low dietary intake of beta-carotene, alpha-tocopherol and ascorbic acid is associated with increased inflammatory and oxidative stress status in a Swedish cohort.Total antioxidant capacity of the diet is inversely and independently related to plasma concentration of high-sensitivity C-reactive protein in adult Italian subjects.High-normal C-reactive protein levels do not affect the vitamin A transport complex in serum of children and adolescents with type 1 diabetes.Dietary diversity score is a useful indicator of vitamin A status of adult women in Northern Kenya.Dietary antioxidant capacity is associated with improved serum antioxidant status and decreased serum C-reactive protein and plasma homocysteine concentrations.
P2860
Q28067891-7260C3A0-0A2B-4F6D-9D18-96363DE30F85Q33800978-7F04DF3C-9F8B-4A51-8337-4188A9C22FA9Q33880908-1868CFE5-E8E9-488A-A3B2-CC5981A39DC1Q34165533-64BA6EA7-C04E-4A70-A6C8-48F669723648Q34325527-03271B93-B490-4F96-9985-9967905A266DQ34578091-2E196BD7-E2A3-4BA5-8CE4-F44A888C58C9Q34605273-8943E5F5-1704-4624-9F3C-85A884BC3AA6Q34637321-EC94F0D9-1BBE-411B-A700-73D1094F9443Q34767372-196502C3-CEC3-4B72-A934-4B607E0A3BCCQ35230617-DE831EA3-9C51-4A66-811C-EB289143206DQ35678566-CB242468-95B5-491E-B37D-4453F6B84DA8Q35821961-2BCD9D9F-174D-4549-A7FF-3254853DDD83Q35975559-46A70E34-5B43-4CF0-B31E-F4642B7000D1Q36231542-63F81BAC-A264-422E-BCE9-045DD4B43772Q36365087-9AB72D10-D4F7-4781-847C-91013C1C46C6Q36654575-04C9842B-598F-4D93-89C0-E248A321D815Q36738420-582325F4-DE46-4670-9583-6C978FD25647Q36897456-653499AA-4D8F-4F27-AE19-48902C7CD26BQ37156140-A150874C-7830-4581-B9E3-953C21B0131AQ37199413-A33BCB3D-08F7-4C9D-B2B9-D6B72B903D6AQ37282017-AD4A9E90-33DD-4F65-8484-9EDAE0F0FECBQ37453261-EB7954AF-FCE7-49A4-80FD-A8241A609F3FQ37489310-AFF7B365-A311-4D0D-BE23-9CD6CFB50B7AQ37734639-B23E3186-E676-446E-B9FA-9BC5E0F088AFQ38018055-B7876B2C-C587-4A34-A9B4-6DF3338D68E5Q38050094-69FF6751-B508-4EA4-9A37-29F268A815C5Q38916615-8A786F14-5249-4550-A324-CEAAB238CE9CQ39123665-006B94F9-EEEC-4705-B0D6-B581D1DAC729Q39207684-286FEF5C-2BEE-4FE5-8E54-4FEFF55A5ADDQ40174724-199BFE21-C341-4A13-AA20-FED42D126B67Q42405766-057FFBE4-8433-41DA-8735-4F0E60610F3BQ44312736-2602FFC3-4786-4E51-BC33-F8F9F05B62CEQ45923593-EF768189-A0F3-4D1A-BAA7-4B86FF0188E5Q45930203-27F68E15-2039-4A44-A5A5-064C54AE70CDQ46193098-20CFAEC9-2B77-4B8E-AB4C-7A7E2832881FQ46200022-11262038-C4F3-429F-9FAB-6EDA6FB1AC44Q46563642-9BD8DC12-AAA9-432B-AAEA-083D5081E7A4Q46934889-8CB1F2A5-519F-44D1-9178-3BE520B1954AQ47829362-BA9A76B0-FB2F-4DE2-AE0E-F53F8A6530D9Q54769319-F9820E4E-1CB9-416F-8882-D71F802D29A1
P2860
C-reactive protein concentration and concentrations of blood vitamins, carotenoids, and selenium among United States adults
description
2003 nî lūn-bûn
@nan
2003 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
C-reactive protein concentrati ...... ium among United States adults
@ast
C-reactive protein concentrati ...... ium among United States adults
@en
C-reactive protein concentrati ...... ium among United States adults
@nl
type
label
C-reactive protein concentrati ...... ium among United States adults
@ast
C-reactive protein concentrati ...... ium among United States adults
@en
C-reactive protein concentrati ...... ium among United States adults
@nl
prefLabel
C-reactive protein concentrati ...... ium among United States adults
@ast
C-reactive protein concentrati ...... ium among United States adults
@en
C-reactive protein concentrati ...... ium among United States adults
@nl
P2093
P2860
P3181
P356
P1476
C-reactive protein concentrati ...... ium among United States adults
@en
P2093
P2860
P2888
P304
P3181
P356
10.1038/SJ.EJCN.1601667
P407
P577
2003-09-01T00:00:00Z
P5875
P6179
1004977065