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Journal Abstract Search

187 related items for PubMed ID: 8106044

  • 1. Validity and feasibility of nasopharyngeal end-tidal carbon dioxide tension monitorings: a novel approach in spontaneous breathing patients.
    Hou WY, Sun WZ, Susceto L, Huang HH, Cherng YG, Shi JJ, Lin CS, Lin SY.
    J Formos Med Assoc; 1993 Jun; 92(6):553-7. PubMed ID: 8106044
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  • 3. Correlation of arterial and end-tidal carbon dioxide in spontaneously breathing patients during ambulatory gynecologic laparoscopy.
    Cheng KI, Tang CS, Tsai EM, Wu CH, Lee JN.
    J Formos Med Assoc; 1999 Dec; 98(12):814-9. PubMed ID: 10634020
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  • 4. Arterial-to-end-tidal carbon dioxide tension difference in children with congenital heart disease.
    Choudhury M, Kiran U, Choudhary SK, Airan B.
    J Cardiothorac Vasc Anesth; 2006 Apr; 20(2):196-201. PubMed ID: 16616659
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  • 5. Variation in the arterial to end-tidal PCO2 difference during one-lung thoracic anaesthesia.
    Ip Yam PC, Innes PA, Jackson M, Snowdon SL, Russell GN.
    Br J Anaesth; 1994 Jan; 72(1):21-4. PubMed ID: 8110543
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  • 6. End tidal carbon dioxide monitoring in spontaneously breathing, nonintubated patients. A clinical comparison between conventional sidestream and microstream capnometers.
    Casati A, Gallioli G, Passaretta R, Scandroglio M, Bignami E, Torri G.
    Minerva Anestesiol; 2001 Apr; 67(4):161-4. PubMed ID: 11376503
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  • 7. Deadspace and the single breath test for carbon dioxide during anaesthesia and artificial ventilation. Effects of tidal volume and frequency of respiration.
    Fletcher R, Jonson B.
    Br J Anaesth; 1984 Feb; 56(2):109-19. PubMed ID: 6419753
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  • 9. Blood-gas equilibration of CO2 and O2 in lungs of awake dogs during prolonged rebreathing.
    Scotto P, Rieke H, Schmitt HJ, Meyer M, Piiper J.
    J Appl Physiol Respir Environ Exerc Physiol; 1984 Nov; 57(5):1354-9. PubMed ID: 6440882
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  • 11. Relationship between arterial carbon dioxide and end-tidal carbon dioxide in mechanically ventilated adults with severe head trauma.
    Kerr ME, Zempsky J, Sereika S, Orndoff P, Rudy EB.
    Crit Care Med; 1996 May; 24(5):785-90. PubMed ID: 8706454
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  • 13. Arterial to end-tidal carbon dioxide tension difference in children with congenital heart disease.
    Short JA, Paris ST, Booker PD, Fletcher R.
    Br J Anaesth; 2001 Mar; 86(3):349-53. PubMed ID: 11573523
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  • 14. Accuracy of end-tidal CO2 measurement through the nose and pharynx in nonintubated patients during digital subtraction cerebral angiography.
    Zhang C, Wang M, Wang R, Wang W.
    J Neurosurg Anesthesiol; 2013 Apr; 25(2):191-6. PubMed ID: 23269088
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  • 16. [Usefulness of NODSS (nasal/oral discriminate sampling system) in end-tidal carbon dioxide gas monitoring].
    Imai K, Chinzei M, Oguchi K, Tamai H, Sato Y, Umeyama T, Tagami M, Hanaoka K.
    Masui; 1996 Jul; 45(7):837-41. PubMed ID: 8741473
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  • 18. Comparison between mainstream (Capnostat 5) and a low-flow sidestream capnometer (Capnostream) in mechanically ventilated, sevoflurane-anesthetized rabbits using a Bain coaxial delivery system.
    Pelchat J, Desprez I, Beaufrère H, Beazley SG, Duke-Novakovski T.
    Vet Anaesth Analg; 2023 Jan; 50(1):81-90. PubMed ID: 36517354
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  • 19. An evaluation of rebreathing with the bain system during anaesthesia with spontaneous ventilation.
    Meakin G, Coates AL.
    Br J Anaesth; 1983 Jun; 55(6):487-96. PubMed ID: 6407494
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  • 20. The effect of increased apparatus dead space and tidal volumes on carbon dioxide elimination and oxygen saturations in a low-flow anesthesia system.
    Enekvist BJ, Luttropp HH, Johansson A.
    J Clin Anesth; 2008 May; 20(3):170-4. PubMed ID: 18502358
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