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124 related items for PubMed ID: 38211948

  • 1. Numerical analysis of an obstacle motion in the human ureter using the dynamic mesh approach.
    Abbasian S, Maddahian R.
    Int J Numer Method Biomed Eng; 2024 Mar; 40(3):e3800. PubMed ID: 38211948
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  • 5. Computational flow analysis of a single peristaltic wave propagation in the ureter.
    Keni LG, Hayoz MJ, Khader SMA, Hegde P, Prakashini K, Tamagawa M, Satish Shenoy B, Hameed BMZ, Zuber M.
    Comput Methods Programs Biomed; 2021 Oct; 210():106378. PubMed ID: 34507083
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  • 7. A numerical simulation of peristaltic motion in the ureter using fluid structure interactions.
    Vahidi B, Fatouraee N.
    Annu Int Conf IEEE Eng Med Biol Soc; 2007 Oct; 2007():1168-71. PubMed ID: 18002170
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  • 8. Peristalsis prevents ureteral dilation.
    Kalayeh K, Fowlkes JB, Xie H, Schultz WW, Sack BS.
    Neurourol Urodyn; 2024 Jan; 43(1):258-266. PubMed ID: 37961019
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  • 9. Fluid-structure interaction simulation of ureter with vesicoureteral reflux and primary obstructed megaureter.
    Razavi SE, Jouybar M.
    Biomed Mater Eng; 2018 Jan; 29(6):821-837. PubMed ID: 30282337
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  • 10. A biomechanical simulation of ureteral flow during peristalsis using intraluminal morphometric data.
    Vahidi B, Fatouraee N.
    J Theor Biol; 2012 Apr 07; 298():42-50. PubMed ID: 22214750
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  • 11. A three-dimensional (3D) two-way coupled fluid-structure interaction (FSI) study of peristaltic flow in obstructed ureters.
    Takaddus AT, Chandy AJ.
    Int J Numer Method Biomed Eng; 2018 Oct 07; 34(10):e3122. PubMed ID: 29939493
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  • 12. Particle motion in unsteady two-dimensional peristaltic flow with application to the ureter.
    Jiménez-Lozano J, Sen M, Dunn PF.
    Phys Rev E Stat Nonlin Soft Matter Phys; 2009 Apr 07; 79(4 Pt 1):041901. PubMed ID: 19518250
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  • 13. CFD investigation of multiple peristaltic waves in a 3D unobstructed ureter.
    Keni LG, Satish Shenoy B, Chethan KN, Hegde P, Prakashini K, Tamagawa M, Zuber M.
    Biomed Phys Eng Express; 2024 Jan 24; 10(2):. PubMed ID: 38227968
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  • 14. Effects of artificial obstruction on the function of the upper urinary tract of Guinea pigs, rats and pigs.
    Tillig B, Mutschke O, Rolle U, Gaunitz U, Asmussen G, Constantinou CE.
    Eur J Pediatr Surg; 2004 Oct 24; 14(5):303-15. PubMed ID: 15543479
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  • 15. Dynamics of the upper urinary tract: II. The effect of variations of peristaltic frequency and bladder pressure on pyeloureteral pressure/flow relations.
    Griffiths DJ, Constantinou CE, Mortensen J, Djurhuus JC.
    Phys Med Biol; 1987 Jul 24; 32(7):823-33. PubMed ID: 3615581
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  • 16. The role of functional urodynamic disorders in the pathogenesis of urolithiasis.
    Mudraya IS, Khodyreva LA.
    Arch Ital Urol Androl; 2011 Mar 24; 83(1):31-6. PubMed ID: 21585167
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  • 17. Numerical simulation for peristalsis of Quemada fluid: A dynamic mesh approach.
    Ali S, Nadeem S, Akkurt N, Ali Ghazwani H, Eldin SM.
    J Adv Res; 2023 Dec 24; 54():77-88. PubMed ID: 36738988
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  • 18. Flow of urine through the ureter: a collapsible, muscular tube undergoing peristalsis.
    Griffiths DJ.
    J Biomech Eng; 1989 Aug 24; 111(3):206-11. PubMed ID: 2779185
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  • 19. The pelvis-kidney junction contains HCN3, a hyperpolarization-activated cation channel that triggers ureter peristalsis.
    Hurtado R, Bub G, Herzlinger D.
    Kidney Int; 2010 Mar 24; 77(6):500-8. PubMed ID: 20032965
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  • 20. An in vivo endoluminal ultrasonographic study of peristaltic activity in the distal porcine ureter.
    Roshani H, Dabhoiwala NF, Dijkhuis T, Kurth KH, Lamers WH.
    J Urol; 2000 Feb 24; 163(2):602-6. PubMed ID: 10647694
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