PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 25130535-6 2014 RESULTS: Models showed that energy intake (Kcal) and age were positive predictors of CRP elevation while folate intake, total vitamin A intake, and serum retinol concentration were protective against CRP elevation. Vitamin A 154-161 C-reactive protein Homo sapiens 200-203 27272805-6 2016 C-reactive protein (CRP) and interleukin-6 (IL-6) correlated with each other and exhibited positive correlation with age, body-mass index (BMI), leukocyte count, platelet count, kynurenine, kynurenine/tryptophan ratio and urinary neopterin and a negative correlation with vitamin D and retinol. Vitamin A 286-293 C-reactive protein Homo sapiens 0-18 24335710-8 2013 Interaction analysis showed that children who were overweight and obese who also had low concentrations of vitamin A had higher CRP and lower triglycerides (p < 0.1), children with low vitamin E had significantly lower glucose and triglycerides (p < 0.1) and higher low-density lipoprotein (LDL) concentrations (p < 0.05), and children with low zinc concentrations had higher insulin resistance compared with children with adequate weight (p < 0.05). Vitamin A 107-116 C-reactive protein Homo sapiens 128-131 23677577-6 2013 HRs for retinol and carotenoids were attenuated somewhat after adjustment for CRP. Vitamin A 8-15 C-reactive protein Homo sapiens 78-81 23930336-7 2013 Advanced gestational age and elevated C-reactive protein (CRP > or = 5 mg/dL) were negatively associated with retinol concentration (p < 0.05). Vitamin A 113-120 C-reactive protein Homo sapiens 38-56 23930336-7 2013 Advanced gestational age and elevated C-reactive protein (CRP > or = 5 mg/dL) were negatively associated with retinol concentration (p < 0.05). Vitamin A 113-120 C-reactive protein Homo sapiens 58-61 23148279-10 2013 CONCLUSIONS: Treatment with 25,000 IU/d vitamin A induced a mild elevation in serum lipids, CRP and liver enzymes in obese and non-obese women. Vitamin A 40-49 C-reactive protein Homo sapiens 92-95 20924143-6 2010 Significant correlation was observed between baseline concentrations of retinol and C-reactive protein (r(s)=-0.54, p<0.01). Vitamin A 72-79 C-reactive protein Homo sapiens 84-102 22810988-10 2012 Retinol+retinyl esters exhibited an inverse relationship with CRP and a positive relationship with uric acid and HOMA-IR as well as MetS binary outcome. Vitamin A 0-7 C-reactive protein Homo sapiens 62-65 22810988-13 2012 Vitamin E had no consistent association with MetS, whereas retinol+retinyl esters had a positive relationship with HOMA-IR, uric acid, and MetS, while being inversely related to CRP. Vitamin A 59-66 C-reactive protein Homo sapiens 178-181 21804135-7 2012 Compared with patients in lower quartiles, patients in the highest CRP quartile had lower intakes (p < 0.05) of sodium (241 mg vs 404 mg), calcium (453 mg vs 702 mg), vitamin B2 (0.88 mg vs 1.20 mg), and particularly vitamin A (207 mug vs 522 mug). Vitamin A 220-229 C-reactive protein Homo sapiens 67-70 23763034-11 2011 The median plasma retinol concentration of the children with normal plasma CRP was 1.19 micromol/l and the interquartile range 0.93-1.50 micromol/l. Vitamin A 18-25 C-reactive protein Homo sapiens 75-78 20924143-10 2010 In conclusion, a significant correlation was observed between serum retinol and C-reactive protein. Vitamin A 68-75 C-reactive protein Homo sapiens 80-98 19775037-9 2009 Vitamin A concentration was weakly associated with the C-reactive protein concentrations on days one and five (Spearman"s r = -0.5 [P = 0.001], -0.4 [P = 0.03], respectively). Vitamin A 0-9 C-reactive protein Homo sapiens 55-73 20032440-10 2009 A significant correlation was observed between CRP and high-density lipoprotein cholesterol, retinol, ferritin, and CEA. Vitamin A 93-100 C-reactive protein Homo sapiens 47-50 19721904-10 2009 Among the patients who presented lower concentrations of CRP it was found higher beta-carotene inadequacy (64.8%) and 50% of retinol inadequacy. Vitamin A 125-132 C-reactive protein Homo sapiens 57-60 19471295-9 2009 In a multiple regression analysis, after adjustment for CRP, low vitamin A (beta=3.2, 95%CI (confidence interval) 1.6-4.9, P=0.000) but not zinc, correlated with the severity of TB. Vitamin A 65-74 C-reactive protein Homo sapiens 56-59 19689088-9 2009 Both vitamin A and iron deficiencies were independently associated with lower z-scores for body-mass-index-for-age, after adjustment for sociodemographic factors and C-reactive protein concentrations. Vitamin A 5-14 C-reactive protein Homo sapiens 166-184 16175781-10 2005 Retinol levels were significantly lower among children with high C-reactive protein (P < 0.001). Vitamin A 0-7 C-reactive protein Homo sapiens 65-83 19215278-7 2009 RBP-to-retinol ratio correlated positively with glucose 2 h after an oral glucose tolerance test (p < 0.0001) and with C-reactive protein (p < 0.001). Vitamin A 7-14 C-reactive protein Homo sapiens 122-140 19164258-12 2009 Retinol concentrations decreased with PD therapy and were inversely related to interleukin-6 and CRP concentrations. Vitamin A 0-7 C-reactive protein Homo sapiens 97-100 16087986-8 2005 Vitamin A reduced CRP (by 9.6 mg/L; P = 0.011), serum ferritin (by 18.1 microg/L; P = 0.042), and erythropoietin (by 194.7 mIU/mL; P = 0.011) concentrations and increased the reticulocyte production index (by 0.40; P = 0.041). Vitamin A 0-9 C-reactive protein Homo sapiens 18-21 17957146-6 2007 Healthy children with CRP levels above 0.6 mg/L had significant lower levels of retinol (p = 0.03). Vitamin A 80-87 C-reactive protein Homo sapiens 22-25 17717133-8 2007 In multivariate Cox regression analysis, decreased retinol concentration remained a statistically significant predictor of all-cause mortality after adjustment for traditional cardiovascular risk factors, high-sensitivity C-reactive protein, and estimated glomerular filtration rate. Vitamin A 51-58 C-reactive protein Homo sapiens 222-240 15133321-8 2004 There were significant negative correlations between CRP levels and serum beta-carotene and retinol concentrations. Vitamin A 92-99 C-reactive protein Homo sapiens 53-56 15671217-5 2005 In multiple linear regression models adjusting for age, parity, education, BMI, and days postpartum, plasma retinol concentrations were associated with plasma AGP and CRP concentrations (P < 0.0001 and P = 0.01, respectively), whereas breast milk retinol concentrations were unaffected by plasma AGP and CRP concentrations (P = 0.22 and P = 0.86, respectively). Vitamin A 108-115 C-reactive protein Homo sapiens 167-170 15671217-5 2005 In multiple linear regression models adjusting for age, parity, education, BMI, and days postpartum, plasma retinol concentrations were associated with plasma AGP and CRP concentrations (P < 0.0001 and P = 0.01, respectively), whereas breast milk retinol concentrations were unaffected by plasma AGP and CRP concentrations (P = 0.22 and P = 0.86, respectively). Vitamin A 108-115 C-reactive protein Homo sapiens 307-310 15228720-5 2004 The PTB cases who had >50 mg CRP/ litre (a concentration indicative of an APR) had lower serum concentrations of retinol and zinc than the cases with lower CRP concentrations. Vitamin A 116-123 C-reactive protein Homo sapiens 32-35 15463900-6 2004 RESULTS: Serum vitamin A level was lower in CF subjects than in controls (mean, 95% CI: 1.29, 1.0-1.37 vs. 1.80, 1.7-1.87 micromol/l, p < 0.0001), and inversely correlated with CRP (r(s) = -0.37, p < 0.0001). Vitamin A 15-24 C-reactive protein Homo sapiens 180-183 15463900-7 2004 CF subjects with low vitamin A (45%) level had poorer FEV(1), weight z-score, LSBMD z-score, and higher CRP compared with those with normal levels. Vitamin A 21-30 C-reactive protein Homo sapiens 104-107 15463900-8 2004 In the CF group CRP, vitamin E, 1,25(OH)(2)D, presence of CFLD, admissions, and age were associated with vitamin A level. Vitamin A 105-114 C-reactive protein Homo sapiens 16-19 15463900-9 2004 CONCLUSIONS: Serum vitamin A is negatively associated with CRP in subjects with CF, consistent with normal population studies. Vitamin A 19-28 C-reactive protein Homo sapiens 59-62 15133321-11 2004 The inverse correlations between CRP and beta-carotene or retinol indicate either decreased synthesis or increased utilization of these antioxidants. Vitamin A 58-65 C-reactive protein Homo sapiens 33-36 12741936-7 2003 There were significant inverse linear relationships between concentrations of CRP and plasma concentrations of the antioxidants lycopene, beta-carotene, cryptoxanthin and retinol. Vitamin A 171-178 C-reactive protein Homo sapiens 78-81 14743546-7 2003 Using a limit of 0.6 mg/L (75th percentile), significantly lower levels were observed for transthyretin, iron, retinol, and beta-carotene in the group with the higher CRP levels. Vitamin A 111-118 C-reactive protein Homo sapiens 167-170 12947436-1 2003 OBJECTIVE: To examine the relationships between circulating concentrations of C-reactive protein and concentrations of retinol, retinyl esters, vitamin C, vitamin E, carotenoids, and selenium. Vitamin A 119-126 C-reactive protein Homo sapiens 78-96 12947436-5 2003 RESULTS: C-reactive protein concentration (dichotomized at the sex-specific 85th percentile) was inversely and significantly associated with concentrations of retinol, retinyl esters, vitamin C, alpha-carotene, beta-carotene, cryptoxanthin, lutein/zeaxanthin, lycopene, and selenium after adjustment for age, sex, race or ethnicity, education, cotinine concentration, body mass index, leisure-time physical activity, and aspirin use. Vitamin A 159-166 C-reactive protein Homo sapiens 9-27 11063445-8 2000 An elevated CRP concentration was 2.4-fold greater in females than in males aged 20-59 y. Serum retinol was lower in subjects with elevated CRP concentrations. Vitamin A 96-103 C-reactive protein Homo sapiens 12-15 12368396-5 2002 In contrast, plasma concentrations of retinol were lower by 0.07 (P < 0.05, raised AGP) to 0.12 (P < 0.01, raised CRP) micro mol/L, and of zinc lower by 1.49 (P < 0.01, raised AGP) to 1.89 (P < 0.05, raised CRP and AGP) micro mol/L. Vitamin A 38-45 C-reactive protein Homo sapiens 120-123 12056790-7 2002 In normal subjects and cancer patients, C-reactive protein concentrations were inversely correlated with circulating concentrations of retinol (r(2)=0.162), alpha-tocopherol (r(2)=0.297), lutein (r(2)=0.256), lycopene (r(2)=-0.171), alpha-(r(2)=0.140) and beta-carotene (r(2)=0.254): (all P<0.001). Vitamin A 135-142 C-reactive protein Homo sapiens 40-58 12450903-5 2002 Serum CRP had a significant, inverse association with retinol at both admission and discharge. Vitamin A 54-61 C-reactive protein Homo sapiens 6-9 12450903-7 2002 Among subjects with CRP > or =10 mg/L, 21% in the vitamin A group and 20% in the placebo groups (P = 0.83) had a positive RDR test result. Vitamin A 53-62 C-reactive protein Homo sapiens 20-23 12450903-9 2002 CONCLUSION: The RDR test was useful in assessing the vitamin A status of children recovering from pneumonia when CRP concentrations were <10 mg/L but not when CRP concentrations were higher. Vitamin A 53-62 C-reactive protein Homo sapiens 113-116 11214351-6 2000 Women with elevated acute phase protein (AGP > 1 gm/L and/or CRP > 5 mg/L) at baseline who received vitamin A had significantly higher plasma and breast milk vitamin A at follow-up compared with placebo. Vitamin A 106-115 C-reactive protein Homo sapiens 64-67 11214351-6 2000 Women with elevated acute phase protein (AGP > 1 gm/L and/or CRP > 5 mg/L) at baseline who received vitamin A had significantly higher plasma and breast milk vitamin A at follow-up compared with placebo. Vitamin A 164-173 C-reactive protein Homo sapiens 64-67 11063445-8 2000 An elevated CRP concentration was 2.4-fold greater in females than in males aged 20-59 y. Serum retinol was lower in subjects with elevated CRP concentrations. Vitamin A 96-103 C-reactive protein Homo sapiens 140-143 9990573-7 1999 Plasma retinol and C-reactive protein levels are inversely correlated (r = -0.15, P < 0.001), indicating that vitamin A status and inflammatory response may be related but the causal direction is unknown. Vitamin A 113-122 C-reactive protein Homo sapiens 19-37 10720170-6 2000 Seasonal differences were evident for most of the indicators of micronutrient status, and elevated C-reactive protein levels (indicative of recent infection) were related to lower hemoglobin, retinol and zinc concentrations but higher ferritin and erythrocyte riboflavin concentrations. Vitamin A 192-199 C-reactive protein Homo sapiens 99-117 9625099-2 1998 Serum alpha1-acid glycoprotein (AGP) and C-reactive protein (CRP) were inversely associated with serum retinol concentrations. Vitamin A 103-110 C-reactive protein Homo sapiens 41-59 9808227-8 1998 Low serum retinol was independently associated with S. dysenteriae type 1, high serum C-reactive protein concentrations, and low weight-forage in multiple regression analysis. Vitamin A 10-17 C-reactive protein Homo sapiens 86-104 9625099-2 1998 Serum alpha1-acid glycoprotein (AGP) and C-reactive protein (CRP) were inversely associated with serum retinol concentrations. Vitamin A 103-110 C-reactive protein Homo sapiens 61-64 9625099-3 1998 Elevations in the concentration of CRP in both cases and controls and of AGP in cases were associated with significant reductions (approximately 0.2-0.3 micromol/L) in serum retinol. Vitamin A 174-181 C-reactive protein Homo sapiens 35-38 9625099-4 1998 The risk of a low serum retinol concentration (< 0.7 micromol/L) with elevated AGP (> or = 1 g/L) and CRP (> or = 5 mg/L) concentrations was significantly higher in cases (odds ratios = 8.6 and 4.3, respectively) than in controls (odd ratios = 1.9 and 2.4, respectively). Vitamin A 24-31 C-reactive protein Homo sapiens 108-111 9625099-7 1998 Illness in the previous week and elevated CRP or AGP concentrations were synergistically associated with lower serum retinol. Vitamin A 117-124 C-reactive protein Homo sapiens 42-45 9280190-5 1997 Among preschool children, sex, elevated serum concentrations of C-reactive protein, and malarial parasitemia were significant predictors of serum retinol. Vitamin A 146-153 C-reactive protein Homo sapiens 64-82 9857266-6 1998 Serum retinol was negatively correlated with malaria parasite count and to serum levels of CRP and AGP. Vitamin A 6-13 C-reactive protein Homo sapiens 91-94 9857266-7 1998 Increased malaria parasite density resulted in raised CRP and AGP levels, which were negatively associated with serum retinol. Vitamin A 118-125 C-reactive protein Homo sapiens 54-57 9356549-7 1997 In the cancer group there were significant negative correlations between concentrations of C-reactive protein and retinol (r = -0.682, P < 0.01), alpha-tocopherol (r = -0.464, P < 0.05), and lutein (r = -0.599, P < 0.01). Vitamin A 114-121 C-reactive protein Homo sapiens 91-109 34495261-11 2021 Vitamin A levels were highly associated with the level of hemoglobin and C-reactive protein (CRP) in multivariate analysis. Vitamin A 0-9 C-reactive protein Homo sapiens 73-91 34495261-11 2021 Vitamin A levels were highly associated with the level of hemoglobin and C-reactive protein (CRP) in multivariate analysis. Vitamin A 0-9 C-reactive protein Homo sapiens 93-96 34202697-7 2021 Reduced vitamin A plasma levels correlated significantly with increased levels of inflammatory markers (CRP, ferritin) and with markers of acute SARS-CoV-2 infection (reduced lymphocyte count, LDH). Vitamin A 8-17 C-reactive protein Homo sapiens 104-107 30307307-8 2018 CRP was found to be associated with retinol (x2 = 3.95/p = 0.04). Vitamin A 36-43 C-reactive protein Homo sapiens 0-3 26564246-5 2017 Raised CRP was found in 59.9% of mothers, with a significant negative correlation between serum retinol and CRP (r = -0.273; p < 0.0001). Vitamin A 96-103 C-reactive protein Homo sapiens 7-10 26564246-5 2017 Raised CRP was found in 59.9% of mothers, with a significant negative correlation between serum retinol and CRP (r = -0.273; p < 0.0001). Vitamin A 96-103 C-reactive protein Homo sapiens 108-111 26564246-9 2017 Serum retinol may be influenced by factors other than vitamin A status, e.g. the haemodilution of pregnancy, as well as the acute phase response induced by the birth process, as suggested by raised CRP in 60% of mothers. Vitamin A 6-13 C-reactive protein Homo sapiens 198-201 8839511-12 1996 At admission, plasma retinol concentrations were negatively correlated with maximum body temperature and CRP concentrations, which indicated that the body"s acute-phase response was associated with the depression in retinol concentrations. Vitamin A 21-28 C-reactive protein Homo sapiens 105-108 34380588-11 2021 The incidence of a low VA level increases significantly with a raised CRP. Vitamin A 23-25 C-reactive protein Homo sapiens 70-73 34628277-8 2021 Accordingly, serum retinol levels were inversely associated with CRP levels (beta = -0.025 and P < 0.001). Vitamin A 19-26 C-reactive protein Homo sapiens 65-68 33154657-5 2020 Results: There was a negative correlation between serum retinol and hs-CRP in alcohol drinking men. Vitamin A 56-63 C-reactive protein Homo sapiens 71-74 33154657-6 2020 There was a negative correlation between serum retinol and hs-CRP in the alcohol-nonsmoking female group. Vitamin A 47-54 C-reactive protein Homo sapiens 62-65 33154657-11 2020 Conclusion: There was a negative correlation between serum retinol and hs-CRP and positive correlation between alpha-tocopherol and hs-CRP. Vitamin A 59-66 C-reactive protein Homo sapiens 74-77 32731898-6 2020 RESULTS: Vitamin A concentrations in RMPP group were significantly lower than those in GMPP patients (P < 0.05), vitamin A (OR = 0.795, 95% C. I 0.669-0.946) and CRP (OR = 1.050, 95% C. I 1.014-1.087) were independently associated with RMPP incidence. Vitamin A 9-18 C-reactive protein Homo sapiens 162-165 31504095-11 2019 In mixed models, CRP was associated with ferritin (positive) and serum iron and retinol (negative, P < 0.05). Vitamin A 80-87 C-reactive protein Homo sapiens 17-20 30205424-6 2018 Pearson correlation analysis showed significant correlations between plasma hs-CRP and alpha-carotene and retinol concentrations. Vitamin A 106-113 C-reactive protein Homo sapiens 79-82 30205424-7 2018 After adjusting by sex, body mass index (BMI) and lipid levels, only the association with retinol remains significant, with children in the highest hs-CRP tertile group (hs-CRP >= 0.60 mg/dL) showing significantly lower levels of retinol than those from the tertiles 1 and 2. Vitamin A 90-97 C-reactive protein Homo sapiens 151-154 30205424-8 2018 A stepwise linear regression selected retinol, BMI, apo A-I and sex as predictors of hs-CRP levels, in a model explaining 19.2% of the variability of hs-CRP. Vitamin A 38-45 C-reactive protein Homo sapiens 88-91 30205424-9 2018 In conclusion, in healthy prepubertal children, after adjusting by sex, BMI and lipid levels, hs-CRP concentrations were highly associated with plasma retinol, which is transported in blood bound to retinol-binding protein but were not associated with the lipoprotein-bound antioxidants. Vitamin A 151-158 C-reactive protein Homo sapiens 97-100 30205424-9 2018 In conclusion, in healthy prepubertal children, after adjusting by sex, BMI and lipid levels, hs-CRP concentrations were highly associated with plasma retinol, which is transported in blood bound to retinol-binding protein but were not associated with the lipoprotein-bound antioxidants. Vitamin A 199-206 C-reactive protein Homo sapiens 97-100 30189611-11 2018 A significant negative correlation was found between plasma all-trans retinol and CRP level at the end of treatment (p = 0.03). Vitamin A 70-77 C-reactive protein Homo sapiens 82-85 29165226-0 2018 Comparability of Inflammation-Adjusted Vitamin A Deficiency Estimates and Variance in Retinol Explained by C-Reactive Protein and alpha1-Acid Glycoprotein during Low and High Malaria Transmission Seasons in Rural Zambian Children. Vitamin A 86-93 C-reactive protein Homo sapiens 107-125 30559614-7 2018 Children with vitamin A deficiency had slightly lower height (P = 0.09) and weight mean percentiles, lymphocyte proliferative responses, and IL-2 activity (P > 0.1), but higher means of C-reactive protein (P = 0.05), pain crisis episodes and inflammation (P = 0.1), and health scores (P > 0.1) than children who were not vitamin A-deficient. Vitamin A 14-23 C-reactive protein Homo sapiens 189-207 27395328-10 2017 A plant-sourced pattern (beta-carotene, vitamin A, lutein and zeaxanthin) was inversely associated with CRP (p for trend across quartiles 0.005). Vitamin A 40-49 C-reactive protein Homo sapiens 104-107