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Alicia Deng

Showing results (1-10 of 14) with videos related to

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Physiological Genomics|January 19, 2006
Proteomic profiles of serum inflammatory markers accurately predict atherosclerosis in miceRaymond Tabibiazar, Roger A Wagner, Alicia Deng, et al.
Plos Computational Biology|April 3, 2010
Using pre-existing microarray datasets to increase experimental power: application to insulin resistanceBernie J Daigle, Alicia Deng, Tracey McLaughlin, et al.
Cell|September 8, 2018
Decoding the Genomics of Abdominal Aortic AneurysmJingjing Li, Cuiping Pan, Sai Zhang, et al.
Physiological Genomics|June 30, 2011
Transcriptional profiling and network analysis of the murine angiotensin II-induced abdominal aortic aneurysmJoshua M Spin, Mark Hsu, Junya Azuma, et al.
Cardiovascular Research|November 22, 2022
E-cigarette exposure augments murine abdominal aortic aneurysm development: role of Chil1Joscha Mulorz, Joshua M Spin, Pireyatharsheny Mulorz, et al.
Cardiovascular Research|December 29, 2004
The endogenous peptide apelin potently improves cardiac contractility and reduces cardiac loading in vivoEuan A Ashley, Jennifer Powers, Mary Chen, et al.
Science Translational Medicine|February 24, 2012
MicroRNA-21 blocks abdominal aortic aneurysm development and nicotine-augmented expansionLars Maegdefessel, Junya Azuma, Ryuji Toh, et al.
The Journal of Clinical Investigation|January 25, 2012
Inhibition of microRNA-29b reduces murine abdominal aortic aneurysm developmentLars Maegdefessel, Junya Azuma, Ryuji Toh, et al.
Circulation|January 1, 2016
Response to Letters Regarding Article, "Segmental Aortic Stiffening Contributes to Experimental Abdominal Aortic Aneurysm Development"Uwe Raaz, Alexander M Zöllner, Isabel N Schellinger, et al.
Circulation|April 24, 2015
Segmental aortic stiffening contributes to experimental abdominal aortic aneurysm developmentUwe Raaz, Alexander M Zöllner, Isabel N Schellinger, et al.
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
Physiological Genomics|January 19, 2006
Proteomic profiles of serum inflammatory markers accurately predict atherosclerosis in miceRaymond Tabibiazar, Roger A Wagner, Alicia Deng, et al.
Plos Computational Biology|April 3, 2010
Using pre-existing microarray datasets to increase experimental power: application to insulin resistanceBernie J Daigle, Alicia Deng, Tracey McLaughlin, et al.
Cell|September 8, 2018
Decoding the Genomics of Abdominal Aortic AneurysmJingjing Li, Cuiping Pan, Sai Zhang, et al.
Physiological Genomics|June 30, 2011
Transcriptional profiling and network analysis of the murine angiotensin II-induced abdominal aortic aneurysmJoshua M Spin, Mark Hsu, Junya Azuma, et al.
Cardiovascular Research|November 22, 2022
E-cigarette exposure augments murine abdominal aortic aneurysm development: role of Chil1Joscha Mulorz, Joshua M Spin, Pireyatharsheny Mulorz, et al.
Cardiovascular Research|December 29, 2004
The endogenous peptide apelin potently improves cardiac contractility and reduces cardiac loading in vivoEuan A Ashley, Jennifer Powers, Mary Chen, et al.
Science Translational Medicine|February 24, 2012
MicroRNA-21 blocks abdominal aortic aneurysm development and nicotine-augmented expansionLars Maegdefessel, Junya Azuma, Ryuji Toh, et al.
The Journal of Clinical Investigation|January 25, 2012
Inhibition of microRNA-29b reduces murine abdominal aortic aneurysm developmentLars Maegdefessel, Junya Azuma, Ryuji Toh, et al.
Circulation|January 1, 2016
Response to Letters Regarding Article, "Segmental Aortic Stiffening Contributes to Experimental Abdominal Aortic Aneurysm Development"Uwe Raaz, Alexander M Zöllner, Isabel N Schellinger, et al.
Circulation|April 24, 2015
Segmental aortic stiffening contributes to experimental abdominal aortic aneurysm developmentUwe Raaz, Alexander M Zöllner, Isabel N Schellinger, et al.
Pageof 2