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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

163 related items for PubMed ID: 26043417

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  • 3. Role of ventilator and nasal interface in pressure transmission during neonatal intermittent positive pressure ventilation: A bench study.
    Rigotti C, Zannin E, Dognini G, Dellacà R, Ventura ML.
    Pediatr Pulmonol; 2021 Aug; 56(8):2561-2569. PubMed ID: 34002956
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  • 4. Flow-synchronized NIPPV with double-inspiratory loop cannula: An in vitro study.
    Moretti C, Lista G, Carnielli V, Gizzi C.
    Pediatr Pulmonol; 2021 Feb; 56(2):400-408. PubMed ID: 33169945
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  • 5. Evaluation of a nasal cannula in noninvasive ventilation using a lung simulator.
    Iyer NP, Chatburn R.
    Respir Care; 2015 Apr; 60(4):508-12. PubMed ID: 25492958
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  • 6. Effects of non-synchronised nasal intermittent positive pressure ventilation on spontaneous breathing in preterm infants.
    Owen LS, Morley CJ, Dawson JA, Davis PG.
    Arch Dis Child Fetal Neonatal Ed; 2011 Nov; 96(6):F422-8. PubMed ID: 21335623
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  • 7. Lung aeration during ventilation after recruitment guided by tidal elimination of carbon dioxide and dynamic compliance was better than after end-tidal carbon dioxide targeted ventilation: a computed tomography study in surfactant-depleted piglets.
    Hanson A, Göthberg S, Nilsson K, Hedenstierna G.
    Pediatr Crit Care Med; 2011 Nov; 12(6):e362-8. PubMed ID: 21263364
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  • 8. Tidal volume transmission during non-synchronized nasal intermittent positive pressure ventilation via RAM® cannula.
    Matlock DN, Bai S, Weisner MD, Comtois N, Beck J, Sinderby C, Courtney SE.
    J Perinatol; 2019 May; 39(5):723-729. PubMed ID: 30755718
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  • 10. Extubation success in premature infants with respiratory distress syndrome treated with bi-level nasal continuous positive airway pressure versus nasal intermittent positive pressure ventilation.
    Thomas PE, LeFlore J.
    J Perinat Neonatal Nurs; 2013 May; 27(4):328-34; quiz E3-4. PubMed ID: 24164815
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  • 13. Comparison of nasal intermittent positive pressure ventilation and bubble CPAP with an in-line high-frequency interrupter in a premature infant lung model.
    Rub DM, Sivieri EM, Abbasi S, Sieberlich W, Eichenwald EC.
    Pediatr Pulmonol; 2022 Oct; 57(10):2356-2362. PubMed ID: 35722805
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  • 14. Effects of synchronisation during SiPAP-generated nasal intermittent positive pressure ventilation (NIPPV) in preterm infants.
    Owen LS, Morley CJ, Davis PG.
    Arch Dis Child Fetal Neonatal Ed; 2015 Jan; 100(1):F24-30. PubMed ID: 24942746
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  • 16. Evaluating the Effect of Flow and Interface Type on Pressures Delivered With Bubble CPAP in a Simulated Model.
    Bailes SA, Firestone KS, Dunn DK, McNinch NL, Brown MF, Volsko TA.
    Respir Care; 2016 Mar; 61(3):333-9. PubMed ID: 26534997
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  • 18. Performance Evaluation of Nasal Prong Interface for CPAP Delivery on a Critical Care Ventilator: A Bench Experiment.
    Napolitano N, Roberts T, Nickel AJ, McDonough J, Sun H, Feng R, Jensen EA, Dysart K, Lin R.
    Respir Care; 2021 Oct; 66(10):1514-1520. PubMed ID: 34230212
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  • 20. Reduction of Endotracheal Tube Connector Dead Space Improves Ventilation: A Bench Test on a Model Lung Simulating an Extremely Low Birth Weight Neonate.
    Ivanov VA.
    Respir Care; 2016 Feb; 61(2):155-61. PubMed ID: 26577200
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