PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29962216-4	2020	Our objective was to examine the relationship between dietary intake of antioxidants (carotenoids, vitamins A, C, E, and selenium) and serum CRP concentrations in mid-life and older AAs, while controlling for confounders.	Carotenoids	86-97	C-reactive protein	Homo sapiens	141-144	
23677577-6	2013	HRs for retinol and carotenoids were attenuated somewhat after adjustment for CRP.	Carotenoids	20-31	C-reactive protein	Homo sapiens	78-81	
30126098-8	2018	Multiple linear regression, controlling for age and body mass index (BMI), demonstrated an inverse association between serum carotenoid concentrations and pro-inflammatory sTNFR-II (beta = 0.404, p = 0.005) and IL-6 concentrations (beta = -0.35, p = 0.001), but not IL-1ra or CRP.	Carotenoids	125-135	C-reactive protein	Homo sapiens	276-279	
22486775-7	2012	RESULTS: Lower plasma levels of total and single carotenoids were associated with lower dietary intake of carotenoids, older age, male sex, lower physical activity, higher alcohol consumption, higher body mass index (BMI), higher systolic and diastolic blood pressures, lower levels of total cholesterol and HDL cholesterol and higher levels of CRP, IL-6 and MMP-9.	Carotenoids	49-60	C-reactive protein	Homo sapiens	345-348	
22486775-8	2012	After multivariate adjustments, plasma levels of total carotenoids and provitamin A carotenoids (beta-cryptoxanthine, alpha-carotene and beta-carotene) remained independently associated with sex, dietary intake of carotenoids, BMI, HDL cholesterol and MMP-9, whilst associations with CRP and IL-6 were not maintained.	Carotenoids	55-66	C-reactive protein	Homo sapiens	284-287	
20678906-10	2012	Both crude and lipid-adjusted carotenoids were inversely correlated with CRP and IL-6 in plasma but the change in carotenoid status during simvastatin therapy was not specifically related to any changes in inflammatory markers.	Carotenoids	30-41	C-reactive protein	Homo sapiens	73-76	
22810988-8	2012	Total carotenoids were also inversely related to HOMA-IR and CRP.	Carotenoids	6-17	C-reactive protein	Homo sapiens	49-64	
22810988-12	2012	In conclusion, among U.S. adolescents, serum carotenoid concentrations were inversely associated with MetS status, HOMA-IR, and CRP, whereas serum vitamin C was inversely related to MetS status and serum uric acid.	Carotenoids	45-55	C-reactive protein	Homo sapiens	128-131	
20678906-10	2012	Both crude and lipid-adjusted carotenoids were inversely correlated with CRP and IL-6 in plasma but the change in carotenoid status during simvastatin therapy was not specifically related to any changes in inflammatory markers.	Carotenoids	30-40	C-reactive protein	Homo sapiens	73-76	
17696726-10	2007	High intakes of carotenoids and vitamin C, but not of vitamin E, seem to decrease the level of circulating hs-CRP.	Carotenoids	16-27	C-reactive protein	Homo sapiens	110-113	
21414247-8	2011	Intakes of vitamins C and E and carotene were inversely associated with the probability of having serum CRP concentrations &gt;3 mg/l in multivariate logistic regression models.	Carotenoids	32-40	C-reactive protein	Homo sapiens	104-107	
18585897-3	2008	RESULTS: Total serum carotenoids, smoking, overweight (body mass index 25-29.9 kg/m(2)), and obesity (body mass index &gt; or = 30 mg/kg(2)) were significantly associated with the ox-LDL/LDL cholesterol ratio after adjusting for age, C-reactive protein, and chronic diseases.	Carotenoids	21-32	C-reactive protein	Homo sapiens	234-252	
18779292-8	2008	CONCLUSIONS: In middle-aged and older women free of CVD and cancer, plasma carotenoids were associated with smoking, obesity, LDL cholesterol, HDL cholesterol, Hb A(1c), and CRP.	Carotenoids	75-86	C-reactive protein	Homo sapiens	174-177	
16280438-0	2005	A 4-wk intervention with high intake of carotenoid-rich vegetables and fruit reduces plasma C-reactive protein in healthy, nonsmoking men.	Carotenoids	40-50	C-reactive protein	Homo sapiens	92-110	
11117616-4	2000	Adjusted concentrations of all five carotenoids were significantly lower in those with C-reactive protein levels above 0.88 mg/dl (p = 0.001).	Carotenoids	36-47	C-reactive protein	Homo sapiens	87-105	
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.	Carotenoids	166-177	C-reactive protein	Homo sapiens	78-96	
15575349-11	2004	CONCLUSION: The inverse relations between carotenoids, Vitamin C and sICAM-1, CRP and leukocytes may help to explain the possible protective effect of carotenoids and Vitamin C on atherosclerosis through an influence on inflammatory processes and endothelial function.	Carotenoids	151-162	C-reactive protein	Homo sapiens	78-81	
11117616-8	2000	These cross-sectional data do not clarify the biologic relation between carotenoids and C-reactive protein but, to the extent that the carotenoids are associated with C-reactive protein levels, a carotenoid-heart disease association may be, in part, an inflammation-heart disease association.	Carotenoids	135-146	C-reactive protein	Homo sapiens	167-185