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PUBMED FOR HANDHELDS

Journal Abstract Search


192 related items for PubMed ID: 8970927

  • 1. A triphasic analysis of negative osmotic flows through charged hydrated soft tissues.
    Gu WY, Lai WM, Mow VC.
    J Biomech; 1997 Jan; 30(1):71-8. PubMed ID: 8970927
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  • 6. Direct measurement of osmotic pressure of glycosaminoglycan solutions by membrane osmometry at room temperature.
    Chahine NO, Chen FH, Hung CT, Ateshian GA.
    Biophys J; 2005 Sep; 89(3):1543-50. PubMed ID: 15980166
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  • 7. The influence of the fixed negative charges on mechanical and electrical behaviors of articular cartilage under unconfined compression.
    Sun DD, Guo XE, Likhitpanichkul M, Lai WM, Mow VC.
    J Biomech Eng; 2004 Feb; 126(1):6-16. PubMed ID: 15171124
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  • 9. Multiphasic finite element framework for modeling hydrated mixtures with multiple neutral and charged solutes.
    Ateshian GA, Maas S, Weiss JA.
    J Biomech Eng; 2013 Nov; 135(11):111001. PubMed ID: 23775399
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  • 10. Physical signals and solute transport in cartilage under dynamic unconfined compression: finite element analysis.
    Yao H, Gu WY.
    Ann Biomed Eng; 2004 Mar; 32(3):380-90. PubMed ID: 15095812
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  • 11. Ultrasound elastomicroscopy using water jet and osmosis loading: potentials for assessment for articular cartilage.
    Zheng YP, Lu MH, Wang Q.
    Ultrasonics; 2006 Dec 22; 44 Suppl 1():e203-9. PubMed ID: 16842834
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  • 12. Biomechanics of articular cartilage and determination of material properties.
    Lu XL, Mow VC.
    Med Sci Sports Exerc; 2008 Feb 22; 40(2):193-9. PubMed ID: 18202585
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  • 13. Volume osmotic flows of non-homogeneous electrolyte solutions through horizontally mounted membrane.
    Slezak A, Jasik-Slezak J, Wasik J, Sieroń A, Pilis W.
    Gen Physiol Biophys; 2002 Jun 22; 21(2):115-46. PubMed ID: 12236542
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  • 14. Passive water flows driven across the isolated rabbit ileum by osmotic, hydrostatic and electrical gradients.
    Naftalin RJ, Tripathi S.
    J Physiol; 1985 Mar 22; 360():27-50. PubMed ID: 3989717
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  • 15. Changes in triphasic mechanical properties of proteoglycan-depleted articular cartilage extracted from osmotic swelling behavior monitored using high-frequency ultrasound.
    Wang Q, Zheng YP, Niu HJ.
    Mol Cell Biomech; 2010 Mar 22; 7(1):45-58. PubMed ID: 20806723
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  • 16. Dynamic depth-dependent osmotic swelling and solute diffusion in articular cartilage monitored using real-time ultrasound.
    Zheng YP, Shi J, Qin L, Patil SG, Mow VC, Zhou KY.
    Ultrasound Med Biol; 2004 Jun 22; 30(6):841-9. PubMed ID: 15219963
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  • 17. Discussion: "On the Thermodynamical Admissibility of the Triphasic Theory of Charged Hydrated Tissues" (Huyghe, J. M., Wilson, W., and Malakpoor, K., ASME J. Biomech. Eng., 2009, 131, p. 044504).
    Mow VC, Michael Lai W, Setton LA, Gu W, Yao H, Wan LQ, Lu XL.
    J Biomech Eng; 2009 Sep 22; 131(9):095501. PubMed ID: 19725705
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  • 18. Effects of tension-compression nonlinearity on solute transport in charged hydrated fibrous tissues under dynamic unconfined compression.
    Huang CY, Gu WY.
    J Biomech Eng; 2007 Jun 22; 129(3):423-9. PubMed ID: 17536910
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  • 19. Molecular mechanisms of osmosis.
    Kiil F.
    Am J Physiol; 1989 Apr 22; 256(4 Pt 2):R801-8. PubMed ID: 2705569
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  • 20. Analysis of the permeation of cryoprotectants in cartilage.
    Shaozhi Z, Pegg DE.
    Cryobiology; 2007 Apr 22; 54(2):146-53. PubMed ID: 17300774
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