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Journal Abstract Search

140 related items for PubMed ID: 8241028

  • 1. Time course changes in cytoskeletal structures of cultured endothelial cells exposed to shear stress.
    Ookawa K, Sato M, Ohshima N.
    Front Med Biol Eng; 1993; 5(2):121-5. PubMed ID: 8241028
    [Abstract] [Full Text] [Related]

  • 2. Disruption of cytoskeletal structures mediates shear stress-induced endothelin-1 gene expression in cultured porcine aortic endothelial cells.
    Morita T, Kurihara H, Maemura K, Yoshizumi M, Yazaki Y.
    J Clin Invest; 1993 Oct; 92(4):1706-12. PubMed ID: 8408624
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  • 3. Fibronectin and F-actin redistribution in cultured endothelial cells exposed to shear stress.
    Wechezak AR, Viggers RF, Sauvage LR.
    Lab Invest; 1985 Dec; 53(6):639-47. PubMed ID: 4068668
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  • 4. Changes in the microstructure of cultured porcine aortic endothelial cells in the early stage after applying a fluid-imposed shear stress.
    Ookawa K, Sato M, Ohshima N.
    J Biomech; 1992 Nov; 25(11):1321-8. PubMed ID: 1400533
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  • 5. Monocyte adhesion and changes in endothelial cell number, morphology, and F-actin distribution elicited by low shear stress in vivo.
    Walpola PL, Gotlieb AI, Langille BL.
    Am J Pathol; 1993 May; 142(5):1392-400. PubMed ID: 8494043
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  • 6. Endothelial adherence under shear stress is dependent upon microfilament reorganization.
    Wechezak AR, Wight TN, Viggers RF, Sauvage LR.
    J Cell Physiol; 1989 Apr; 139(1):136-46. PubMed ID: 2708451
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  • 10. [Changes in the VASP expression feature of endothelial cells under steady laminar flow].
    Wei L, Liu X, Ouyang J, Li K, Muller S, Stoltz JF, Wang X.
    Sheng Wu Yi Xue Gong Cheng Xue Za Zhi; 2003 Jun; 20(2):193-6, 201. PubMed ID: 12856577
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  • 12. Endothelial cell signaling and cytoskeletal changes in response to shear stress.
    Girard PR, Nerem RM.
    Front Med Biol Eng; 1993 Jun; 5(1):31-6. PubMed ID: 8323880
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  • 13. Potential relation between cytoskeleton reorganization and e-NOS activity in sheared endothelial cells (Effect of rate and time of exposure).
    Kadi A, de Isla N, Lacolley P, Stoltz JF, Menu P.
    Clin Hemorheol Microcirc; 2007 Jun; 37(1-2):131-40. PubMed ID: 17641403
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  • 14. Regulation of von willebrand factor of human endothelial cells exposed to laminar flows: an in vitro study.
    Sun RJ, Muller S, Wang X, Zhuang FY, Stoltz JF.
    Clin Hemorheol Microcirc; 2000 Jun; 23(1):1-11. PubMed ID: 11214708
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  • 15. Morphological responses of single endothelial cells exposed to physiological levels of fluid shear stress.
    Masuda M, Fujiwara K.
    Front Med Biol Eng; 1993 Jun; 5(2):79-87. PubMed ID: 8241033
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  • 16. Patterns of living beta-actin movement in wounded human coronary artery endothelial cells exposed to shear stress.
    Albuquerque ML, Flozak AS.
    Exp Cell Res; 2001 Nov 01; 270(2):223-34. PubMed ID: 11640886
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  • 17. The effects of delta-9-tetrahydrocannabinol on actin microfilaments.
    Kiosses BW, Tahir SK, Kalnins VI, Zimmerman AM.
    Cytobios; 1990 Nov 01; 63(252):23-9. PubMed ID: 2175259
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  • 19. Shear stress regulates occludin and VEGF expression in porcine arterial endothelial cells.
    Conklin BS, Zhong DS, Zhao W, Lin PH, Chen C.
    J Surg Res; 2002 Jan 01; 102(1):13-21. PubMed ID: 11792146
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  • 20. Leukotrienes and tyrosine phosphorylation mediate stretching-induced actin cytoskeletal remodeling in endothelial cells.
    Wang JH, Goldschmidt-Clermont P, Moldovan N, Yin FC.
    Cell Motil Cytoskeleton; 2000 Jun 01; 46(2):137-45. PubMed ID: 10891859
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