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Journal Abstract Search


124 related items for PubMed ID: 18782127

  • 21. In vivo direct monitoring of vagal acetylcholine release to the sinoatrial node.
    Shimizu S, Akiyama T, Kawada T, Shishido T, Yamazaki T, Kamiya A, Mizuno M, Sano S, Sugimachi M.
    Auton Neurosci; 2009 Jun 15; 148(1-2):44-9. PubMed ID: 19278905
    [Abstract] [Full Text] [Related]

  • 22. Effect of electrical stimulation of A and C fibres of the aortic nerves on arterial peripheral and cerebral blood pressure.
    Schoenborn R, Dmowska M, Unkiewicz A, Modrzejewski E.
    Folia Biol (Krakow); 1996 Jun 15; 44(3-4):123-9. PubMed ID: 9342937
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  • 23. Human nerve stimulation thresholds and selectivity using a multi-contact nerve cuff electrode.
    Polasek KH, Hoyen HA, Keith MW, Tyler DJ.
    IEEE Trans Neural Syst Rehabil Eng; 2007 Mar 15; 15(1):76-82. PubMed ID: 17436879
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  • 28. Neural control of breathing and central nervous system plasticity.
    Karczewski WA, Romaniuk JR.
    Acta Physiol Pol; 1980 Mar 15; 31 Suppl 20():1-10. PubMed ID: 7405599
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  • 30. [Role of the vagus nerves in the mechanism of the corrective effect of the traveling impulse magnetic field on arterial blood pressure in cats].
    Mikhailov SD, Orlov LL, Shatova NO, Alekseeva NP, Berlin IuV.
    Patol Fiziol Eksp Ter; 1986 Mar 15; (5):21-4. PubMed ID: 3797083
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  • 31. An improved method of crafting a multi-electrode spiral cuff for the selective.
    Rozman J, Pečlin P, Ribarič S, Godec M, Burja J.
    Sci Rep; 2018 Jan 17; 8(1):915. PubMed ID: 29343774
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  • 32. The basis of vagal efferent control of heart rate in a neotropical fish, the pacu, Piaractus mesopotamicus.
    Taylor EW, Leite CA, Florindo LH, Beläo T, Rantin FT.
    J Exp Biol; 2009 Apr 17; 212(Pt 7):906-13. PubMed ID: 19282487
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  • 33. A two-part model for determining the electromagnetic and physiologic behavior of cuff electrode nerve stimulators.
    Altman KW, Plonsey R.
    IEEE Trans Biomed Eng; 1986 Mar 17; 33(3):285-93. PubMed ID: 3957381
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  • 34. Model-based geometrical optimisation and in vivo validation of a spatially selective multielectrode cuff array for vagus nerve neuromodulation.
    Aristovich K, Donega M, Fjordbakk C, Tarotin I, Chapman CAR, Viscasillas J, Stathopoulou TR, Crawford A, Chew D, Perkins J, Holder D.
    J Neurosci Methods; 2021 Mar 15; 352():109079. PubMed ID: 33516735
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  • 35. Further studies on the response of the venous duct of the lamb to various stimuli.
    Arstila M, Hirvonen L, Peltonen T.
    Ann Paediatr Fenn; 1965 Mar 15; 11(2):65-70. PubMed ID: 5855431
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  • 36. Noninvasive monitoring of the autonomic nervous system and hemodynamics of patients with blunt and penetrating trauma.
    Colombo J, Shoemaker WC, Belzberg H, Hatzakis G, Fathizadeh P, Demetriades D.
    J Trauma; 2008 Dec 15; 65(6):1364-73. PubMed ID: 19077628
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  • 37. Animal model of the short-term cardiorespiratory effects of intermittent vagus nerve stimulation.
    Zaaimi B, Grebe R, Wallois F.
    Auton Neurosci; 2008 Dec 05; 143(1-2):20-6. PubMed ID: 18757249
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  • 38. The influence of apomorphine on the cardiovascular reactions induced by stimulation of the vagus nerve in the rabbit.
    Dyba S, Tychowska I, Klukowska L, Nadulska A.
    Ann Univ Mariae Curie Sklodowska Med; 2000 Dec 05; 55():253-9. PubMed ID: 11482083
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  • 39. A comparative study of three techniques for diameter selective fiber activation in the vagal nerve: anodal block, depolarizing prepulses and slowly rising pulses.
    Vuckovic A, Tosato M, Struijk JJ.
    J Neural Eng; 2008 Sep 05; 5(3):275-86. PubMed ID: 18566504
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  • 40. Quasi-trapezoidal pulses to selectively block the activation of intrinsic laryngeal muscles during vagal nerve stimulation.
    Tosato M, Yoshida K, Toft E, Struijk JJ.
    J Neural Eng; 2007 Sep 05; 4(3):205-12. PubMed ID: 17873422
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