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Items: 1 to 20 of 110

1.

Elevated serum bilirubin levels are inversely associated with coronary artery atherosclerosis.

Kang SJ, Kim D, Park HE, Chung GE, Choi SH, Choi SY, Lee W, Kim JS, Cho SH.

Atherosclerosis. 2013 Oct;230(2):242-8. doi: 10.1016/j.atherosclerosis.2013.06.021.

PMID:
24075751
2.

Clinical significance of serum bilirubin and gamma-glutamyltransferase levels on coronary atherosclerosis assessed by multidetector computed tomography.

Cho HS, Lee SW, Kim ES, Mo EY, Shin JY, Moon SD, Han JH.

Nutr Metab Cardiovasc Dis. 2015 Jul;25(7):677-85. doi: 10.1016/j.numecd.2015.03.014.

PMID:
26026212
3.

Association of serum total bilirubin levels with the severity, extent and subtypes of coronary atherosclerotic plaques detected by coronary CT angiography.

Canpolat U, Aytemir K, Yorgun H, Hazırolan T, Kaya EB, Şahiner L, Sunman H, Tokgözoğlu L, Kabakcı G, Oto A.

Int J Cardiovasc Imaging. 2013 Aug;29(6):1371-9. doi: 10.1007/s10554-013-0209-7.

PMID:
23546648
4.

Serum cystatin C is associated with early stage coronary atherosclerotic plaque morphology on multidetector computed tomography.

Imai A, Komatsu S, Ohara T, Kamata T, Yoshida J, Miyaji K, Shimizu Y, Takewa M, Hirayama A, Deshpande GA, Takahashi O, Kodama K.

Atherosclerosis. 2011 Oct;218(2):350-5. doi: 10.1016/j.atherosclerosis.2011.06.046.

PMID:
21782177
5.

Visceral adipose tissue area is associated with coronary stenosis and noncalcified plaques.

Kang SJ, Kim D, Park HE, Choi SH, Choi SY, Lee W, Kim JS, Cho SH.

Int J Obes (Lond). 2014 Feb;38(2):272-8. doi: 10.1038/ijo.2013.105.

PMID:
23748189
6.

Inverse relation of total serum bilirubin to coronary artery calcification score detected by multidetector computed tomography in males.

Zhang ZY, Bian LQ, Kim SJ, Zhou CC, Choi YH.

Clin Cardiol. 2012 May;35(5):301-6. doi: 10.1002/clc.21964.

7.

The relationship between gamma-glutamyl transferase levels and coronary plaque burdens and plaque structures in young adults with coronary atherosclerosis.

Celik O, Cakmak HA, Satilmis S, Gungor B, Akin F, Ozturk D, Yalcin AA, Ayca B, Erturk M, Atasoy MM, Uslu N.

Clin Cardiol. 2014 Sep;37(9):552-7. doi: 10.1002/clc.22307.

8.

Serum magnesium is inversely associated with coronary artery calcification in the Genetics of Atherosclerotic Disease (GEA) study.

Posadas-Sánchez R, Posadas-Romero C, Cardoso-Saldaña G, Vargas-Alarcón G, Villarreal-Molina MT, Pérez-Hernández N, Rodríguez-Pérez JM, Medina-Urrutia A, Jorge-Galarza E, Juárez-Rojas JG, Torres-Tamayo M.

Nutr J. 2016 Mar 1;15:22. doi: 10.1186/s12937-016-0143-3.

9.

Normal-weight obesity is associated with increased risk of subclinical atherosclerosis.

Kim S, Kyung C, Park JS, Lee SP, Kim HK, Ahn CW, Kim KR, Kang S.

Cardiovasc Diabetol. 2015 May 21;14:58. doi: 10.1186/s12933-015-0220-5.

10.
11.

Inverse association between circulating levels of soluble receptor for advanced glycation end-products and coronary plaque burden.

Basta G, Del Turco S, Navarra T, Mazzarisi A, Cocci F, Coceani M, Bianchi M, Schlueter M, Marraccini P.

J Atheroscler Thromb. 2012;19(10):941-8.

12.

Relationship between serum IgG4 concentrations and atherosclerotic coronary plaques assessed by computed tomographic angiography.

Sakamoto A, Ishizaka N, Imai Y, Uehara M, Ando J, Nagai R, Komuro I.

J Cardiol. 2016 Mar;67(3):254-61. doi: 10.1016/j.jjcc.2015.05.012.

PMID:
26164687
13.
14.

Nonalcoholic Fatty Liver Disease Is Associated with the Presence and Morphology of Subclinical Coronary Atherosclerosis.

Kang MK, Kang BH, Kim JH.

Yonsei Med J. 2015 Sep;56(5):1288-95. doi: 10.3349/ymj.2015.56.5.1288.

15.

The perimenopausal atherosclerosis transition: relationships between calcified and noncalcified coronary, aortic, and carotid atherosclerosis and risk factors and hormone levels.

Munir JA, Wu H, Bauer K, Bindeman J, Byrd C, Feuerstein IM, Villines TC, Taylor AJ.

Menopause. 2012 Jan;19(1):10-5. doi: 10.1097/gme.0b013e318221bc8d.

PMID:
21900851
16.

Higher serum bilirubin level as a protective factor for the development of diabetes in healthy Korean men: a 4 year retrospective longitudinal study.

Jung CH, Lee MJ, Kang YM, Hwang JY, Jang JE, Leem J, Park JY, Kim HK, Lee WJ.

Metabolism. 2014 Jan;63(1):87-93. doi: 10.1016/j.metabol.2013.09.011.

PMID:
24140099
17.

A novel biomarker of coronary atherosclerosis: serum DKK1 concentration correlates with coronary artery calcification and atherosclerotic plaques.

Kim KI, Park KU, Chun EJ, Choi SI, Cho YS, Youn TJ, Cho GY, Chae IH, Song J, Choi DJ, Kim CH.

J Korean Med Sci. 2011 Sep;26(9):1178-84. doi: 10.3346/jkms.2011.26.9.1178.

18.

Correlations between aortic root calcification and coronary artery atherosclerotic markers assessed using multidetector computed tomography.

Nafakhi H, Al-Nafakh HA, Al-Mosawi AA, Al Garaty F.

Acad Radiol. 2015 Mar;22(3):357-62. doi: 10.1016/j.acra.2014.09.017.

PMID:
25491736
19.

Elevated Serum Gamma-glutamyl Transpeptidase Levels and Fatty Liver Strongly Predict the Presence of Carotid Plaque.

Toshikuni N, Asaji T, Nakanishi Y, Nagasawa SY, Uenishi H, Tsutsumi M.

J Atheroscler Thromb. 2015;22(10):1051-60. doi: 10.5551/jat.28274.

20.

Serum uric acid levels predict the severity and morphology of coronary atherosclerosis detected by multidetector computed tomography.

Kaya EB, Yorgun H, Canpolat U, Hazırolan T, Sunman H, Ülgen A, Ates AH, Aytemir K, Tokgözoğlu L, Kabakcı G, Akata D, Oto A.

Atherosclerosis. 2010 Nov;213(1):178-83. doi: 10.1016/j.atherosclerosis.2010.08.077.

PMID:
20863499

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