Ventilación espontánea en ventilación mecánica invasiva

Autores:
Bravo Díaz, Andrés Gonzalo
Libreros Arciniegas, Marcela
Tipo de recurso:
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2019
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Corporación Universitaria Iberoamericana
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Repositorio Ibero
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spa
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oai:repositorio.ibero.edu.co:001/4531
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https://repositorio.ibero.edu.co/handle/001/4531
https://doi.org/10.33881/2011-7191.mct.13105
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id IBERO2_98d160f63fb94cd75b8f86980141d8a3
oai_identifier_str oai:repositorio.ibero.edu.co:001/4531
network_acronym_str IBERO2
network_name_str Repositorio Ibero
repository_id_str
dc.title.spa.fl_str_mv Ventilación espontánea en ventilación mecánica invasiva
dc.title.translated.eng.fl_str_mv Spontaneous ventilation in invasive mechanical ventilation
title Ventilación espontánea en ventilación mecánica invasiva
spellingShingle Ventilación espontánea en ventilación mecánica invasiva
title_short Ventilación espontánea en ventilación mecánica invasiva
title_full Ventilación espontánea en ventilación mecánica invasiva
title_fullStr Ventilación espontánea en ventilación mecánica invasiva
title_full_unstemmed Ventilación espontánea en ventilación mecánica invasiva
title_sort Ventilación espontánea en ventilación mecánica invasiva
dc.creator.fl_str_mv Bravo Díaz, Andrés Gonzalo
Libreros Arciniegas, Marcela
dc.contributor.author.spa.fl_str_mv Bravo Díaz, Andrés Gonzalo
Libreros Arciniegas, Marcela
publishDate 2019
dc.date.accessioned.none.fl_str_mv 2019-06-14 15:36:24
2022-06-14T21:52:38Z
dc.date.available.none.fl_str_mv 2019-06-14 15:36:24
2022-06-14T21:52:38Z
dc.date.issued.none.fl_str_mv 2019-06-14
dc.type.spa.fl_str_mv Artículo de revista
dc.type.coar.fl_str_mv http://purl.org/coar/resource_type/c_2df8fbb1
dc.type.coar.spa.fl_str_mv http://purl.org/coar/resource_type/c_6501
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dc.type.content.spa.fl_str_mv Text
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dc.identifier.doi.none.fl_str_mv 10.33881/2011-7191.mct.13105
dc.identifier.eissn.none.fl_str_mv 2463-2236
dc.identifier.issn.none.fl_str_mv 2011-7191
dc.identifier.uri.none.fl_str_mv https://repositorio.ibero.edu.co/handle/001/4531
dc.identifier.url.none.fl_str_mv https://doi.org/10.33881/2011-7191.mct.13105
identifier_str_mv 10.33881/2011-7191.mct.13105
2463-2236
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url https://repositorio.ibero.edu.co/handle/001/4531
https://doi.org/10.33881/2011-7191.mct.13105
dc.language.iso.spa.fl_str_mv spa
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dc.relation.bitstream.none.fl_str_mv https://revmovimientocientifico.ibero.edu.co/article/download/mct.13105/pdf_1
dc.relation.citationedition.spa.fl_str_mv Núm. 1 , Año 2019
dc.relation.citationendpage.none.fl_str_mv 52
dc.relation.citationissue.spa.fl_str_mv 1
dc.relation.citationstartpage.none.fl_str_mv 41
dc.relation.citationvolume.spa.fl_str_mv 13
dc.relation.ispartofjournal.spa.fl_str_mv Movimiento Científico
dc.relation.references.spa.fl_str_mv Dvorkin, M., Cardinali , D., & Iermoli, R. (2010). Bases fisiológicas de la práctica médica. Panamericana.
Akoumianaki E, Maggiore SM, , Valenza F, Bellani G, Jubran A, & Lorin. (2014). The application of esophageal pressure measurement in patients with respiratory failure. American journal of respiratory and critical care medicine, 189(5), 520-531.
Altemeier WA, McKinney S, & Glenny RW. (2000). Fractal nature of regional ventilation distribution. Journal of Applied Physiology, 88(5), 1551-1557.
Altemeier WA, Robertson HT, & Glenny RW. (1998). Pulmonary gas exchange analysis by using simultaneous deposition of aerosolized and injected microspheres. Journal of Applied Physiology, 85(6), 2344-2351.
Anzueto A, Peters JI, Tobin MJ, Martin J., De Los Santos, R., Seidenfeld, j., . . . Coalson, J. (1997). Effects of prolonged controlled mechanical ventilation on diaphragmatic function in healthy adult baboons. Critical Care Medicine, 25(7), 1187-1190.
Baedorf Kassis E1, Loring SH2, & Talmor D. (2016). Mortality and pulmonary mechanics in relation to respiratory system and transpulmonary driving pressures in ARDS. Intensive care medicine, 42(8), 1206-1213.
Bellani , G., Grasselli , G., Teggia, M., Mauri , T., Coppado, A., Brochard , L., & Pesenti , A. (2016). ¿Do spontaneous and mechanical breathing have similar effects on average transpulmonary and alveolar pressure? Critical Care, 20(1), 142.
Bernard , N., Matecki , S., Py , G., López , S., Mercier , J., & Capdevila , X. (2003). Effects of prolonged mechanical ventilation on respiratory muscle ultrastructure and mitochondrial respiration in rabbits. Intensive Care Med, 29, 111-118.
Boles, J.-M., Bion, J., Connors, A., Herridge, M., Marsh, B., Melot, C., . . . Welte, T. (2007). Weaning from mechanical ventilation. European Respiratory Journal, 29, 1033-1056.
Carney , D., DiRocco, J., & Nieman, G. (2005). Dynamic alveolar mechanics and ventilator-induced lung injury. Critical care medicine, 33(3), S122-S128.
Chanques, G., Kress, J. P., Pohlman, A., Patel, S., Poston, J., Jaber, S., & Hall, J. (2013). Impact of ventilator adjustment and sedation–analgesia practices on severe asynchrony in patients ventilated in assist-control mode. Critical care medicine, 41(9), 2177-2187.
Chastre, J., & Fagon, J. (2002). Ventilator-associated pneumonia. American journal of respiratory and critical care medicine, 165(7), 867-903.
Chiumello , D., Carlesso , E., Brioni , M., & Cressoni, M. (2016). Airway driving pressure and lung stress in ARDS patients. Crit Care, 20, 276.
Chu, E., Whitehead , T., & Slutsky, A. (2004). Effects of cyclic opening and closing at low- and high-volume ventilation on bronchoalveolar lavage cytokines. Critical care medicine, 32(1), 168-174.
Clark, F., & Von Euler, C. (1972). On the regulation of depth and rate of breathing. The Journal of Physiology, 222(2), 267-295.
Davis, R., Bruells, C., Stabley, J., McCullough, D., Powers, S., & Behnke, B. (2012). Mechanical ventilation reduces rat diaphragm blood flow and impairs O2 delivery and uptake. Critical care medicine, 40(10), 2858.
Doorduin , J., Sinderby, C., Beck, J., Van der Hoeven, J., & Heunks, L. (2015). Assisted Ventilation in Patients with Acute Respiratory Distress Syndrome: Lung-distending Pressure and Patient–Ventilator Interaction critical care medicine. Anesthesiology: The Journal of the American Society of Anesthesiologists, 123(1), 181-190.
Ebihara, S., Hussain, S., Danialou, G., Cho, W., Gottfried, S., & Petrof, B. (2002). Mechanical ventilation protects against diaphragm injury in sepsis: interaction of oxidative and mechanical stresses. American Journal of Respiratory and Critical Care Medicine, 165(2), 221-228.
Futier , E., Constantin, J.-M., & Paugam-Burtz , C. (2013). A trial of intraoperative low-tidal-volume ventilation in abdominal surgery. New England Journal of Medicine, 369(5), 428-437.
Futier, E., Constantin, J., Combaret, L., Mosoni, L., Roszyk, L., Sapin, V., . . . Bazin, J. (2008). Pressure support ventilation attenuates ventilator-induced protein modifications in the diaphragm. Critical Care, 12(5), R116.
Gama de Abreu, M., Güldner, A., & Pelosi, P. (2012). Spontaneous breathing activity in acute lung injury and acute respiratory distress syndrome. INTENSIVE CARE AND RESUSCITATION, 25(2), 148–155.
Gayan-Ramirez , G., de Paepe , K., Cadot , P., & Decramer, M. (2003). Detrimental effects of short-term mechanical ventilation on diaphragm function and IGF-I mRNA in rats. Intensive care medicine, 29(5), 825-833.
Gayan-Ramírez , G., Testelmans, D., Maes , K., Racz, G., Cadot, P., & Zador , E. (2005). Intermittent spontaneous breathing protects the rat diaphragm from mechanical ventilation effects. Critical care medicine, 33(12), 2804-2809.
Georgopoulos, D., Xirouchaki, N., Tzanakis, I., & Younes, M. (2016). Driving pressure during assisted mechanical ventilationIs it controlled by patient brain? Respiratory Physiology & Neurobiology, 228, 69–75.
Glenny , R., & Robertson , H. (1990). Fractal properties of pulmonary flow: characterization of spatial heterogeneity. Journal of Applied Physiology, 69(2), 532-545.
Goligher, E., Fan, E., Herridge, M., Murray, S., Vorona, S., Brace, D., & et al. (2015). Evolution of Diaphragm Thickness during Mechanical Ventilation. Impact of Inspiratory Effort. American journal of respiratory and critical care medicine, 192, 1080 - 1088.
Grasso, F., Engelberts, D., Helm, E., Frndova, S., Jarvis, S., Talakoub , O., & et al. (2008). Negative-pressure ventilation: better oxygenation and less lung injury. American journal of respiratory and critical care medicine, 177(4), 412-418.
Guldner, A., Braune, A., Carvalho, N., Beda, A., Zeidler, S., Wiedemann, B., . . . Gama, A. (2014). Higher Levels of Spontaneous Breathing Induce Lung Recruitment and Reduce Global Stress/Strain in Experimental Lung Injury. Anesthesiology: The Journal of the American Society of Anesthesiologists, 120(3), 673-682.
Guldner, N., Pelosi, P., & Gama de Abreu, M. (2014). Spontaneous breathing in mild and moderate versus severe acute respiratory distress síndrome. Current opinion in critical care, 20(1), 69-76.
Guyton, A., & Hall, J. (1996). Tratado de fisiología medica (9 ed.). Madrid: Interamericana – McGraw – Hill.
Hakim, T., Lisbona, R., & Dean, G. (1987). Gravity-independent inequality blood flow in humans. Journal of Applied Physiology, 63(3), 1114-1121.
Hakim, T., Lisbona, R., Michel, R., & Dean, G. (1993). Role of vasoconstriction in gravity- no dependent central-perpheral gradient in pulmonary blood flow. Journal of Applied Physiology, 74(2), 897-904.
Hedenstierna, G., & Edmark, L. (2012). The effects of anesthesia and muscle paralysis on the respiratory system. Applied Physiology in Intensive Care Medicine 1, 299-307.
Hermans, G., Agten, A., Testelmans, D., Decramer, M., & Gayan-Ramírez, G. (2010). Increased duration of mechanical ventilation is associated with decreased diaphragmatic force: a prospective observational study. Critical Care, 14, R127.
Hooijman, P., Beishuizen, A., Witt, C., de Waard, M., Girbes, A., Spoelstra-de Man, A., & et al. (2015). Diaphragm muscle fiber weakness and ubiquitin-proteasome activation in critically ill patients. American journal of respiratory and critical care medicine,, 191(10), 1126-1138.
Hooijman, P., Paul, M., Stienen, B., Beishuizen, A., Van Hees, H., Singhal, S., & et al. (2014). Unaffected contractility of diaphragm muscle fibers in humans on mechanical ventilation. American Journal of Physiology-Heart and Circulatory Physiology, 307(6), L460-L470.
Hudson, M., Smuder, A., Nelson, W., Bruells, C., Levine, S., & Powers, S. (2014). Both High Level Pressure Support Ventilation and Controlled Mechanical Ventilation Induce Diaphragm Dysfunction and Atrophy. Critical care medicine, 40(4), 1254.
Jaber, S., Petrof, B., Jung, B., Chanques, G., Berthet, J.-P., & Rabuel, C. (2011). Rapidly progressive diaphragmatic weakness and injury during mechanical ventilation in humans. American journal of respiratory and critical care medicine, 183(3), 364-371.
Jung, B., Constantin, J., Rossel, N., Le Goff, C., Sebbane, M., & Coisel, Y. (2010). Adaptive support ventilation prevents ventilator-induced diaphragmatic dysfunction in piglet: an in vivo and in vitro study. Anesthesiology: The Journal of the American Society of Anesthesiologists, 112(6), 1435-1443.
Kaplan, L., Bailey, H., & Formosa, V. (2001). Airway pressure release ventilation increases cardiac performance in patients with acute lung injury/adult respiratory distress syndrome. Critical Care, 5(4), 221.
Keenan, J., Formenti, P., & Marini, J. (2014). Lung recruitment in acute respiratory distress syndrome: ¿what is the best strategy? Current opinion in critical care, 20(1), 63-68.
Langer, T., Vecchi, V., Belenkiy, S., & et al. (2014). Extracorporeal gas exchange and spontaneous breathing for the treatment of acute respiratory distress syndrome: an alternative to mechanical ventilation. Critical care medicine, 42(3), e211-e220.
Le Bourdelles, G., Viires, N., Boczkowski, J., Seta, N., Pavlovic, D., & Aubier, M. (1994). Effects of mechanical ventilation on diaphragmatic contractile properties in rats. American journal of respiratory and critical care medicine, 149(6), 1539-1544.
Levine, S., Friscia, M., Kaiser, L., & Shrager, J. (2006). Ventilator-Induced atrophy in human diaphragm myofibers. In Proc Am Thorac Soc, 3, A27.
Levine, S., Nguyen, T., & Taylor, N. (2008). Rapid Disuse Atrophy of Diaphragm Fibers in Mechanically Ventilated Humans. New England Journal of Medicine, 358(13), 1327-1335.
Lisbona , R., Dean , G., & Hakim, T. (1978). Observations with SPECT on the normal regional distribution of pulmonary blood flow in gravity independent planes. J Nucl Med, 28, 1758-1762.
Mandelbrot, B. (1997). La geometría fractal de la naturaleza. BARCELONA: Tusquets.
Matamis, D., Soilemezi, E., Tsagourias, M., Akoumianaki, E., Dimassi, S., Boroli, F., . . . Brochard, L. (2013). Sonographic evaluation of the diaphragm in critically ill patients. Technique and clinical applications. Intensive Care Medicine, 39, 801–810.
Mauri, T., Yoshida , T., Bellani, G., & et al. (2016). Esophageal and transpulmonary pressure in the clinical setting: meaning, usefulness and perspectives. Intensive care medicine, 42(9), 1360-1373.
Michels, D., & West, J. (1978). Distribution of pulmonary ventilation and perfusión during short periods of weightlessness. Journal of Applied Physiology, 45(6), 987-998.
Neumann, P., Wrigge, H., Zinserling, J., Hinz, J., Maripuu, E., Andersson, L., . . . Hedenstierna, G. (2005). Spontaneous breathing affects the spatial ventilation and perfusion distribution during mechanical ventilatory support. Critical care medicine, 33(5), 1090-1095.
Papazian, L., Forel, J., Gacouin, A., Penot‐Ragon, C., Perrin, G., Loundou, A., & et al. (2010). Neuromuscular blockers and ARDS: Thou shalt not breathe, move, or die! N Engl J, 363(12), 1107-1116.
Pellegrini, M., Hedenstierna, G., Roneus, A., & et al. (2017). The Diaphragm Acts as a Brake During Expiration to Prevent Lung Collapse. American journal of respiratory and critical care medicine, 195(12), 1608-1616.
Petrof, B., Jaber, S., & Matecki, S. (2004). Ventilator-induced diaphragmatic dysfunction. American journal of respiratory and critical care medicine, 169(3), 336-341.
Poole, D., Sexton, W., Farkas, G., Powers, S., & Reid, M. (1997). Diaphragm structure and function in health and disease. Medicine and science in sports and exercise, 29(6), 738-754.
Prange, H. (2003). Laplace´s law and the alveolus: a misconception of anatomy and a misapplication of physics. Advances in physiology education, 27(1), 34-40.
Putensen, C., Mutz , N., Putensen-Himmer, G., & Zinserling, J. (1999). Spontaneous breathing during ventilatory support improves ventilation-perfusion distributions in patients with acute respiratory distress syndrome. American journal of respiratory and critical care medicine, 159(4), 1241-1248.
Putensen, C., Muders , T., Varelmann, D., & Wrigge, H. (2006). The impact of spontaneous breathing during mechanical ventilation. Current opinion in critical care, 12(1), 13-18.
Putensen, C., Zech, S., Wrigge, H., Zinserling, J., Stuber, F., Von Spiegel, T., & et al. (2001). Long-term effects of spontaneous breathing during ventilatory support in patients with acute lung injury. American journal of respiratory and critical care medicine, 161(1), 43-49.
Richard, J., Lyazidi, A., Akoumianaki, E., & et al. (2013). Potentially harmful effects of inspiratory synchronization during pressure preset ventilation. Intensive care medicine, 39(11), 2003-2010.
Saddy, F., Oliveira, G., Garcia, C., & et al. (2010). Assisted ventilation modes reduce the expression of lung inflammatory and fibrogenic mediators in a model of mild acute lung injury. Intensive care medicine, 36(8), 1417-1426.
Sassoon, C., Caoizzo, V., Manka, A., & Sieck, G. (2002). Altered diaphragm contractile properties with controlled mechanical ventilation. Journal of applied physiology, 92(6), 2585-2595.
Sassoon, C., Zhu, E., & Caiozzo, V. (2004). Assist‐control mechanical ventilation attenuates ventilator‐induced diaphragmatic dysfunction. American journal of respiratory and critical care medicine, 170(6), 626-632.
Schepens, T., Verbrugghe, W., Dams, K., Corthouts, B., Parizel, P., & Jorens, P. (2015). The course of diaphragm atrophy in ventilated patients assessed with ultrasound: a longitudinal cohort study. Critical care, 19(1), 422.
Serpa Neto, A., Cardoso, S., Manetta, J., & et al. (2012). Association between use of lungprotective ventilation with lower tidal volumes and clinical outcomes among patients without acute respiratory distress syndrome: a meta-analysis. JAMA, 1651-1659.
Shanely, R., Zergeroglu, M., Lennon, S., Sugiura, T., Yimlamai, T., Enns, D., . . . Powers, S. (2002). Mechanical ventilation-induced diaphragmatic atrophy is associated with oxidative injury and increased proteolytic activity. American journal of respiratory and critical care medicine, 166(10), 1369-1374.
Sinclair, S., Chi, E., Lin, H., & Altemeier, W. (2009). Positive end-expiratory pressure alters the severity and spatial heterogeneity of ventilator-induced lung injury: an argument for cyclical airway collapse. Journal of critical care, 24(2), 206-211.
Sinderby, C., Navalesi, P., Beck, J., & et al. (1999). Neural control of mechanical ventilation in respiratory failure. Nature medicine, 5(12), 1433.
Slutsky, A. (2005). Ventilator-induced lung injury: from barotrauma to biotrauma. Respiratory care, 50, 646-59.
Slutsky, A., & Ranieri, V. (2013). Ventilator-induced lung injury. New England Journal of Medicine, 369(22), 2126-2136.
Spieth, P., Carvalho, A., Guldner, A., Kasper, M., Schubert, R., Carvalho, N., . . . Gama De Abreu, M. (2011). Pressure support improves oxygenation and lung protection compared to pressure-controlled ventilation and is further improved by random variation of pressure support. Critical care medicine, 39(4), 746-755.
Valenzuela, J., Pinochet, R., Escobar, M., Marquez, J., Riquelme, R., & Cruces, P. (2014). Disfunción diafragmática inducida por ventilación mecánica. Revista chilena de pediatría, 85(4), 491-498.
Van den Berg, M., Hooijman, P., Beishuizen, A., de Waard, M., Paul, M., Hartemink, K., . . . Ottenheijm, C. (2017). Diaphragm Atrophy and Weakness in the Absence of Mitochondrial Dysfunction in the Critically Ill. American journal of respiratory and critical care medicine, 196(12), 1544-1558.
Van Hees, H., Schellekens, W., Andrade Acuna, G., Linkels, M., Hafmans, T., Ottenheijm, C., & et al. (2012). Titin and diaphragm dysfunction in mechanically ventilated rats. Intensive Care Med, 38, 702 - 709.
Vaporidi, K., Xirouchaki, N., & Georgopoulos, D. (2016). Driving pressure during assisted mechanical ventilation: is it controlled by patient brain? Respiratory physiology & neurobiology, 228, 69-75.
Vassilakopoulos, T. (2013). Ventilator‐induced diaphragmatic dysfunction. En M. Tobin, Principles and Practice of Mechanical Ventilation (3 ed.). New York: McGraw Hill.
Vassilakopoulos, T., & Petrof, B. (2004). Ventilator-induced diaphragmatic dysfunction. American journal of respiratory and critical care medicine, 169(3), 336-341.
Vassilakopoulus, T., Zakynthinos, S., & Roussos , C. (2005). Bench-to-bedside review: ¿Weaning failure-should we rest the respiratory muscles with controlled mechanical ventilation? Critical Care, 10(1), 204.
West, J. (1962). Regional differences in gas Exchange in the lung of erect man. Journal of Applied Physiology, 17, 693-995.
West, J. (1979). Ventilación/ Perfusión Alveolar e intercambio gaseoso. Buenos Aires: Editorial Médica Panamericana.
West, J. (2005). Fisiología respiratoria. Buenos Aires: Editorial Médica Panamericana.
West, J. (2012). Respiratory physiology: The essentials (9 ed.). Lippincott Williams & Wilkins.
Wrigge, H., Zinserling, J., Neumann, P., & et al. (2005). Spontaneous breathing with airway pressure release ventilation favors ventilation in dependent lung regions and counters cyclic alveolar collapse in oleic-acid-induced lung injury: a randomized controlled computed tomography trial. Critical care, 9(6), R780.
Wrigge, H., Zinserling, J., Neumann, P., Defosse, J., Magnusson, A., Putensen, C., & Hedenstierna, G. (2003). Spontaneous breathing improves lung aeration in oleic acid-induced lung injury. Anesthesiology: The Journal of the American Society of Anesthesiologists, 99(2), 376-384.
Xia , J., Zhang , H., Sun , B., Yang , R., He , H., & Zhan , Q. (2014). Spontaneous breathing with biphasic positive airway pressure attenuates lung injury in hydrochloric acid–induced acute respiratory distress syndrome. Anesthesiology: The Journal of the American Society of Anesthesiologists, 120(6), 1441-1449.
Xia, J., Sun, B., He , H., Zhang , H., Wang , C., & Zhan, Q. (2011). Effect of spontaneous breathing on ventilator-induced lung injury in mechanically ventilated healthy rabbits: a randomized, controlled, experimental study. Critical Care, 15(5), R244.
Yang, L., Luo, J., Bourdon, J., Lin, M., Gottfried, S., & Petrof, B. (2002). Controlled mechanical ventilation leads to remodeling of the rat diaphragm. American Journal of Respiratory and Critical Care Medicine, 166(8), 1135-1140.
Yoshida, T., Roldan, R., Beraldo, M., Torsani, V., Gomes, S., De Santis, R., . . . Amato, M. (2016). Spontaneous Effort During Mechanical Ventilation: Maximal Injury With Less Positive End-Expiratory Pressure. Critical Care Medicine, 44(8), 678 – 688.
Yoshida, T., Nakahashi, S., Nakamura, M., Koyama, Y., Roldan, R., Torsani, V., . . . Fujino, Y. (2017). Volume-controlled Ventilation Does Not Prevent Injurious Inflation during Spontaneous Effort. American journal of respiratory and critical care medicine, 196(5), 590-601.
Yoshida, T., Torsani, V., Gomes, S., & et al. (2013). Spontaneous effort causes occult pendelluft during mechanical ventilation. American journal of respiratory and critical care medicine, 188, 1420–1427.
Yoshida, T., Uchiyama, A., & Fujino, Y. (2015). The role of spontaneous effort during mechanical ventilation: normal lung versus injured lung. Journal of intensive care, 31(1), 18.
Yoshida, T., Uchiyama, A., Matsuura, N., & et al. (2012). Spontaneous breathing during lung-protective ventilation in an experimental acute lung injury model: high transpulmonary pressure associated with strong spontaneous breathing effort may worsen lung injury. Critical care medicine, 40(5), 1578-1585.
Yoshida, T., Uchiyama, A., Matsuura, N., & et al. (2013). The comparison of spontaneous breathing and muscle paralysis in two different severities of experimental lung injury. Critical care medicine, 41(2), 536-545.
Zambon, M., Greco, M., Bocchino, S., Cabrini, L., Beccaria, P., & Zangrillo, A. (2017). Assessment of diaphragmatic dysfunction in the critically ill patient with ultrasound: a systematic review. Intensive care medicine, 43(1), 29-38.
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spelling Bravo Díaz, Andrés Gonzalo474abaf9992b410f657020357cde6530500Libreros Arciniegas, Marcelae575d540a01957eda3baa5a356194d965002019-06-14 15:36:242022-06-14T21:52:38Z2019-06-14 15:36:242022-06-14T21:52:38Z2019-06-14application/pdf10.33881/2011-7191.mct.131052463-22362011-7191https://repositorio.ibero.edu.co/handle/001/4531https://doi.org/10.33881/2011-7191.mct.13105spaCorporación Universitaria Iberoamericanahttps://revmovimientocientifico.ibero.edu.co/article/download/mct.13105/pdf_1Núm. 1 , Año 20195214113Movimiento CientíficoDvorkin, M., Cardinali , D., & Iermoli, R. (2010). Bases fisiológicas de la práctica médica. Panamericana.Akoumianaki E, Maggiore SM, , Valenza F, Bellani G, Jubran A, & Lorin. (2014). The application of esophageal pressure measurement in patients with respiratory failure. American journal of respiratory and critical care medicine, 189(5), 520-531.Altemeier WA, McKinney S, & Glenny RW. (2000). Fractal nature of regional ventilation distribution. Journal of Applied Physiology, 88(5), 1551-1557.Altemeier WA, Robertson HT, & Glenny RW. (1998). Pulmonary gas exchange analysis by using simultaneous deposition of aerosolized and injected microspheres. Journal of Applied Physiology, 85(6), 2344-2351.Anzueto A, Peters JI, Tobin MJ, Martin J., De Los Santos, R., Seidenfeld, j., . . . Coalson, J. (1997). Effects of prolonged controlled mechanical ventilation on diaphragmatic function in healthy adult baboons. Critical Care Medicine, 25(7), 1187-1190.Baedorf Kassis E1, Loring SH2, & Talmor D. (2016). Mortality and pulmonary mechanics in relation to respiratory system and transpulmonary driving pressures in ARDS. Intensive care medicine, 42(8), 1206-1213.Bellani , G., Grasselli , G., Teggia, M., Mauri , T., Coppado, A., Brochard , L., & Pesenti , A. (2016). ¿Do spontaneous and mechanical breathing have similar effects on average transpulmonary and alveolar pressure? Critical Care, 20(1), 142.Bernard , N., Matecki , S., Py , G., López , S., Mercier , J., & Capdevila , X. (2003). Effects of prolonged mechanical ventilation on respiratory muscle ultrastructure and mitochondrial respiration in rabbits. Intensive Care Med, 29, 111-118.Boles, J.-M., Bion, J., Connors, A., Herridge, M., Marsh, B., Melot, C., . . . Welte, T. (2007). Weaning from mechanical ventilation. European Respiratory Journal, 29, 1033-1056.Carney , D., DiRocco, J., & Nieman, G. (2005). Dynamic alveolar mechanics and ventilator-induced lung injury. Critical care medicine, 33(3), S122-S128.Chanques, G., Kress, J. P., Pohlman, A., Patel, S., Poston, J., Jaber, S., & Hall, J. (2013). Impact of ventilator adjustment and sedation–analgesia practices on severe asynchrony in patients ventilated in assist-control mode. Critical care medicine, 41(9), 2177-2187.Chastre, J., & Fagon, J. (2002). Ventilator-associated pneumonia. American journal of respiratory and critical care medicine, 165(7), 867-903.Chiumello , D., Carlesso , E., Brioni , M., & Cressoni, M. (2016). Airway driving pressure and lung stress in ARDS patients. Crit Care, 20, 276.Chu, E., Whitehead , T., & Slutsky, A. (2004). Effects of cyclic opening and closing at low- and high-volume ventilation on bronchoalveolar lavage cytokines. Critical care medicine, 32(1), 168-174.Clark, F., & Von Euler, C. (1972). On the regulation of depth and rate of breathing. The Journal of Physiology, 222(2), 267-295.Davis, R., Bruells, C., Stabley, J., McCullough, D., Powers, S., & Behnke, B. (2012). Mechanical ventilation reduces rat diaphragm blood flow and impairs O2 delivery and uptake. Critical care medicine, 40(10), 2858.Doorduin , J., Sinderby, C., Beck, J., Van der Hoeven, J., & Heunks, L. (2015). Assisted Ventilation in Patients with Acute Respiratory Distress Syndrome: Lung-distending Pressure and Patient–Ventilator Interaction critical care medicine. Anesthesiology: The Journal of the American Society of Anesthesiologists, 123(1), 181-190.Ebihara, S., Hussain, S., Danialou, G., Cho, W., Gottfried, S., & Petrof, B. (2002). Mechanical ventilation protects against diaphragm injury in sepsis: interaction of oxidative and mechanical stresses. American Journal of Respiratory and Critical Care Medicine, 165(2), 221-228.Futier , E., Constantin, J.-M., & Paugam-Burtz , C. (2013). A trial of intraoperative low-tidal-volume ventilation in abdominal surgery. New England Journal of Medicine, 369(5), 428-437.Futier, E., Constantin, J., Combaret, L., Mosoni, L., Roszyk, L., Sapin, V., . . . Bazin, J. (2008). Pressure support ventilation attenuates ventilator-induced protein modifications in the diaphragm. Critical Care, 12(5), R116.Gama de Abreu, M., Güldner, A., & Pelosi, P. (2012). Spontaneous breathing activity in acute lung injury and acute respiratory distress syndrome. INTENSIVE CARE AND RESUSCITATION, 25(2), 148–155.Gayan-Ramirez , G., de Paepe , K., Cadot , P., & Decramer, M. (2003). Detrimental effects of short-term mechanical ventilation on diaphragm function and IGF-I mRNA in rats. Intensive care medicine, 29(5), 825-833.Gayan-Ramírez , G., Testelmans, D., Maes , K., Racz, G., Cadot, P., & Zador , E. (2005). Intermittent spontaneous breathing protects the rat diaphragm from mechanical ventilation effects. Critical care medicine, 33(12), 2804-2809.Georgopoulos, D., Xirouchaki, N., Tzanakis, I., & Younes, M. (2016). Driving pressure during assisted mechanical ventilationIs it controlled by patient brain? Respiratory Physiology & Neurobiology, 228, 69–75.Glenny , R., & Robertson , H. (1990). Fractal properties of pulmonary flow: characterization of spatial heterogeneity. Journal of Applied Physiology, 69(2), 532-545.Goligher, E., Fan, E., Herridge, M., Murray, S., Vorona, S., Brace, D., & et al. (2015). Evolution of Diaphragm Thickness during Mechanical Ventilation. Impact of Inspiratory Effort. American journal of respiratory and critical care medicine, 192, 1080 - 1088.Grasso, F., Engelberts, D., Helm, E., Frndova, S., Jarvis, S., Talakoub , O., & et al. (2008). Negative-pressure ventilation: better oxygenation and less lung injury. American journal of respiratory and critical care medicine, 177(4), 412-418.Guldner, A., Braune, A., Carvalho, N., Beda, A., Zeidler, S., Wiedemann, B., . . . Gama, A. (2014). Higher Levels of Spontaneous Breathing Induce Lung Recruitment and Reduce Global Stress/Strain in Experimental Lung Injury. Anesthesiology: The Journal of the American Society of Anesthesiologists, 120(3), 673-682.Guldner, N., Pelosi, P., & Gama de Abreu, M. (2014). Spontaneous breathing in mild and moderate versus severe acute respiratory distress síndrome. Current opinion in critical care, 20(1), 69-76.Guyton, A., & Hall, J. (1996). Tratado de fisiología medica (9 ed.). Madrid: Interamericana – McGraw – Hill.Hakim, T., Lisbona, R., & Dean, G. (1987). Gravity-independent inequality blood flow in humans. Journal of Applied Physiology, 63(3), 1114-1121.Hakim, T., Lisbona, R., Michel, R., & Dean, G. (1993). Role of vasoconstriction in gravity- no dependent central-perpheral gradient in pulmonary blood flow. Journal of Applied Physiology, 74(2), 897-904.Hedenstierna, G., & Edmark, L. (2012). The effects of anesthesia and muscle paralysis on the respiratory system. Applied Physiology in Intensive Care Medicine 1, 299-307.Hermans, G., Agten, A., Testelmans, D., Decramer, M., & Gayan-Ramírez, G. (2010). Increased duration of mechanical ventilation is associated with decreased diaphragmatic force: a prospective observational study. Critical Care, 14, R127.Hooijman, P., Beishuizen, A., Witt, C., de Waard, M., Girbes, A., Spoelstra-de Man, A., & et al. (2015). Diaphragm muscle fiber weakness and ubiquitin-proteasome activation in critically ill patients. American journal of respiratory and critical care medicine,, 191(10), 1126-1138.Hooijman, P., Paul, M., Stienen, B., Beishuizen, A., Van Hees, H., Singhal, S., & et al. (2014). Unaffected contractility of diaphragm muscle fibers in humans on mechanical ventilation. American Journal of Physiology-Heart and Circulatory Physiology, 307(6), L460-L470.Hudson, M., Smuder, A., Nelson, W., Bruells, C., Levine, S., & Powers, S. (2014). Both High Level Pressure Support Ventilation and Controlled Mechanical Ventilation Induce Diaphragm Dysfunction and Atrophy. Critical care medicine, 40(4), 1254.Jaber, S., Petrof, B., Jung, B., Chanques, G., Berthet, J.-P., & Rabuel, C. (2011). Rapidly progressive diaphragmatic weakness and injury during mechanical ventilation in humans. American journal of respiratory and critical care medicine, 183(3), 364-371.Jung, B., Constantin, J., Rossel, N., Le Goff, C., Sebbane, M., & Coisel, Y. (2010). Adaptive support ventilation prevents ventilator-induced diaphragmatic dysfunction in piglet: an in vivo and in vitro study. Anesthesiology: The Journal of the American Society of Anesthesiologists, 112(6), 1435-1443.Kaplan, L., Bailey, H., & Formosa, V. (2001). Airway pressure release ventilation increases cardiac performance in patients with acute lung injury/adult respiratory distress syndrome. Critical Care, 5(4), 221.Keenan, J., Formenti, P., & Marini, J. (2014). Lung recruitment in acute respiratory distress syndrome: ¿what is the best strategy? Current opinion in critical care, 20(1), 63-68.Langer, T., Vecchi, V., Belenkiy, S., & et al. (2014). Extracorporeal gas exchange and spontaneous breathing for the treatment of acute respiratory distress syndrome: an alternative to mechanical ventilation. Critical care medicine, 42(3), e211-e220.Le Bourdelles, G., Viires, N., Boczkowski, J., Seta, N., Pavlovic, D., & Aubier, M. (1994). Effects of mechanical ventilation on diaphragmatic contractile properties in rats. American journal of respiratory and critical care medicine, 149(6), 1539-1544.Levine, S., Friscia, M., Kaiser, L., & Shrager, J. (2006). Ventilator-Induced atrophy in human diaphragm myofibers. In Proc Am Thorac Soc, 3, A27.Levine, S., Nguyen, T., & Taylor, N. (2008). Rapid Disuse Atrophy of Diaphragm Fibers in Mechanically Ventilated Humans. New England Journal of Medicine, 358(13), 1327-1335.Lisbona , R., Dean , G., & Hakim, T. (1978). Observations with SPECT on the normal regional distribution of pulmonary blood flow in gravity independent planes. J Nucl Med, 28, 1758-1762.Mandelbrot, B. (1997). La geometría fractal de la naturaleza. BARCELONA: Tusquets.Matamis, D., Soilemezi, E., Tsagourias, M., Akoumianaki, E., Dimassi, S., Boroli, F., . . . Brochard, L. (2013). Sonographic evaluation of the diaphragm in critically ill patients. Technique and clinical applications. Intensive Care Medicine, 39, 801–810.Mauri, T., Yoshida , T., Bellani, G., & et al. (2016). Esophageal and transpulmonary pressure in the clinical setting: meaning, usefulness and perspectives. Intensive care medicine, 42(9), 1360-1373.Michels, D., & West, J. (1978). Distribution of pulmonary ventilation and perfusión during short periods of weightlessness. Journal of Applied Physiology, 45(6), 987-998.Neumann, P., Wrigge, H., Zinserling, J., Hinz, J., Maripuu, E., Andersson, L., . . . Hedenstierna, G. (2005). Spontaneous breathing affects the spatial ventilation and perfusion distribution during mechanical ventilatory support. Critical care medicine, 33(5), 1090-1095.Papazian, L., Forel, J., Gacouin, A., Penot‐Ragon, C., Perrin, G., Loundou, A., & et al. (2010). Neuromuscular blockers and ARDS: Thou shalt not breathe, move, or die! N Engl J, 363(12), 1107-1116.Pellegrini, M., Hedenstierna, G., Roneus, A., & et al. (2017). The Diaphragm Acts as a Brake During Expiration to Prevent Lung Collapse. American journal of respiratory and critical care medicine, 195(12), 1608-1616.Petrof, B., Jaber, S., & Matecki, S. (2004). Ventilator-induced diaphragmatic dysfunction. American journal of respiratory and critical care medicine, 169(3), 336-341.Poole, D., Sexton, W., Farkas, G., Powers, S., & Reid, M. (1997). Diaphragm structure and function in health and disease. Medicine and science in sports and exercise, 29(6), 738-754.Prange, H. (2003). Laplace´s law and the alveolus: a misconception of anatomy and a misapplication of physics. Advances in physiology education, 27(1), 34-40.Putensen, C., Mutz , N., Putensen-Himmer, G., & Zinserling, J. (1999). Spontaneous breathing during ventilatory support improves ventilation-perfusion distributions in patients with acute respiratory distress syndrome. American journal of respiratory and critical care medicine, 159(4), 1241-1248.Putensen, C., Muders , T., Varelmann, D., & Wrigge, H. (2006). The impact of spontaneous breathing during mechanical ventilation. Current opinion in critical care, 12(1), 13-18.Putensen, C., Zech, S., Wrigge, H., Zinserling, J., Stuber, F., Von Spiegel, T., & et al. (2001). Long-term effects of spontaneous breathing during ventilatory support in patients with acute lung injury. American journal of respiratory and critical care medicine, 161(1), 43-49.Richard, J., Lyazidi, A., Akoumianaki, E., & et al. (2013). Potentially harmful effects of inspiratory synchronization during pressure preset ventilation. Intensive care medicine, 39(11), 2003-2010.Saddy, F., Oliveira, G., Garcia, C., & et al. (2010). Assisted ventilation modes reduce the expression of lung inflammatory and fibrogenic mediators in a model of mild acute lung injury. Intensive care medicine, 36(8), 1417-1426.Sassoon, C., Caoizzo, V., Manka, A., & Sieck, G. (2002). Altered diaphragm contractile properties with controlled mechanical ventilation. Journal of applied physiology, 92(6), 2585-2595.Sassoon, C., Zhu, E., & Caiozzo, V. (2004). Assist‐control mechanical ventilation attenuates ventilator‐induced diaphragmatic dysfunction. American journal of respiratory and critical care medicine, 170(6), 626-632.Schepens, T., Verbrugghe, W., Dams, K., Corthouts, B., Parizel, P., & Jorens, P. (2015). The course of diaphragm atrophy in ventilated patients assessed with ultrasound: a longitudinal cohort study. Critical care, 19(1), 422.Serpa Neto, A., Cardoso, S., Manetta, J., & et al. (2012). Association between use of lungprotective ventilation with lower tidal volumes and clinical outcomes among patients without acute respiratory distress syndrome: a meta-analysis. JAMA, 1651-1659.Shanely, R., Zergeroglu, M., Lennon, S., Sugiura, T., Yimlamai, T., Enns, D., . . . Powers, S. (2002). Mechanical ventilation-induced diaphragmatic atrophy is associated with oxidative injury and increased proteolytic activity. American journal of respiratory and critical care medicine, 166(10), 1369-1374.Sinclair, S., Chi, E., Lin, H., & Altemeier, W. (2009). Positive end-expiratory pressure alters the severity and spatial heterogeneity of ventilator-induced lung injury: an argument for cyclical airway collapse. Journal of critical care, 24(2), 206-211.Sinderby, C., Navalesi, P., Beck, J., & et al. (1999). Neural control of mechanical ventilation in respiratory failure. Nature medicine, 5(12), 1433.Slutsky, A. (2005). Ventilator-induced lung injury: from barotrauma to biotrauma. Respiratory care, 50, 646-59.Slutsky, A., & Ranieri, V. (2013). Ventilator-induced lung injury. New England Journal of Medicine, 369(22), 2126-2136.Spieth, P., Carvalho, A., Guldner, A., Kasper, M., Schubert, R., Carvalho, N., . . . Gama De Abreu, M. (2011). Pressure support improves oxygenation and lung protection compared to pressure-controlled ventilation and is further improved by random variation of pressure support. Critical care medicine, 39(4), 746-755.Valenzuela, J., Pinochet, R., Escobar, M., Marquez, J., Riquelme, R., & Cruces, P. (2014). Disfunción diafragmática inducida por ventilación mecánica. Revista chilena de pediatría, 85(4), 491-498.Van den Berg, M., Hooijman, P., Beishuizen, A., de Waard, M., Paul, M., Hartemink, K., . . . Ottenheijm, C. (2017). Diaphragm Atrophy and Weakness in the Absence of Mitochondrial Dysfunction in the Critically Ill. American journal of respiratory and critical care medicine, 196(12), 1544-1558.Van Hees, H., Schellekens, W., Andrade Acuna, G., Linkels, M., Hafmans, T., Ottenheijm, C., & et al. (2012). Titin and diaphragm dysfunction in mechanically ventilated rats. Intensive Care Med, 38, 702 - 709.Vaporidi, K., Xirouchaki, N., & Georgopoulos, D. (2016). Driving pressure during assisted mechanical ventilation: is it controlled by patient brain? Respiratory physiology & neurobiology, 228, 69-75.Vassilakopoulos, T. (2013). Ventilator‐induced diaphragmatic dysfunction. En M. Tobin, Principles and Practice of Mechanical Ventilation (3 ed.). New York: McGraw Hill.Vassilakopoulos, T., & Petrof, B. (2004). Ventilator-induced diaphragmatic dysfunction. American journal of respiratory and critical care medicine, 169(3), 336-341.Vassilakopoulus, T., Zakynthinos, S., & Roussos , C. (2005). Bench-to-bedside review: ¿Weaning failure-should we rest the respiratory muscles with controlled mechanical ventilation? Critical Care, 10(1), 204.West, J. (1962). Regional differences in gas Exchange in the lung of erect man. Journal of Applied Physiology, 17, 693-995.West, J. (1979). Ventilación/ Perfusión Alveolar e intercambio gaseoso. Buenos Aires: Editorial Médica Panamericana.West, J. (2005). Fisiología respiratoria. Buenos Aires: Editorial Médica Panamericana.West, J. (2012). Respiratory physiology: The essentials (9 ed.). Lippincott Williams & Wilkins.Wrigge, H., Zinserling, J., Neumann, P., & et al. (2005). Spontaneous breathing with airway pressure release ventilation favors ventilation in dependent lung regions and counters cyclic alveolar collapse in oleic-acid-induced lung injury: a randomized controlled computed tomography trial. Critical care, 9(6), R780.Wrigge, H., Zinserling, J., Neumann, P., Defosse, J., Magnusson, A., Putensen, C., & Hedenstierna, G. (2003). Spontaneous breathing improves lung aeration in oleic acid-induced lung injury. Anesthesiology: The Journal of the American Society of Anesthesiologists, 99(2), 376-384.Xia , J., Zhang , H., Sun , B., Yang , R., He , H., & Zhan , Q. (2014). Spontaneous breathing with biphasic positive airway pressure attenuates lung injury in hydrochloric acid–induced acute respiratory distress syndrome. Anesthesiology: The Journal of the American Society of Anesthesiologists, 120(6), 1441-1449.Xia, J., Sun, B., He , H., Zhang , H., Wang , C., & Zhan, Q. (2011). Effect of spontaneous breathing on ventilator-induced lung injury in mechanically ventilated healthy rabbits: a randomized, controlled, experimental study. Critical Care, 15(5), R244.Yang, L., Luo, J., Bourdon, J., Lin, M., Gottfried, S., & Petrof, B. (2002). Controlled mechanical ventilation leads to remodeling of the rat diaphragm. American Journal of Respiratory and Critical Care Medicine, 166(8), 1135-1140.Yoshida, T., Roldan, R., Beraldo, M., Torsani, V., Gomes, S., De Santis, R., . . . Amato, M. (2016). Spontaneous Effort During Mechanical Ventilation: Maximal Injury With Less Positive End-Expiratory Pressure. Critical Care Medicine, 44(8), 678 – 688.Yoshida, T., Nakahashi, S., Nakamura, M., Koyama, Y., Roldan, R., Torsani, V., . . . Fujino, Y. (2017). Volume-controlled Ventilation Does Not Prevent Injurious Inflation during Spontaneous Effort. American journal of respiratory and critical care medicine, 196(5), 590-601.Yoshida, T., Torsani, V., Gomes, S., & et al. (2013). Spontaneous effort causes occult pendelluft during mechanical ventilation. American journal of respiratory and critical care medicine, 188, 1420–1427.Yoshida, T., Uchiyama, A., & Fujino, Y. (2015). The role of spontaneous effort during mechanical ventilation: normal lung versus injured lung. Journal of intensive care, 31(1), 18.Yoshida, T., Uchiyama, A., Matsuura, N., & et al. (2012). Spontaneous breathing during lung-protective ventilation in an experimental acute lung injury model: high transpulmonary pressure associated with strong spontaneous breathing effort may worsen lung injury. Critical care medicine, 40(5), 1578-1585.Yoshida, T., Uchiyama, A., Matsuura, N., & et al. (2013). The comparison of spontaneous breathing and muscle paralysis in two different severities of experimental lung injury. Critical care medicine, 41(2), 536-545.Zambon, M., Greco, M., Bocchino, S., Cabrini, L., Beccaria, P., & Zangrillo, A. (2017). Assessment of diaphragmatic dysfunction in the critically ill patient with ultrasound: a systematic review. Intensive care medicine, 43(1), 29-38.info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2https://creativecommons.org/licenses/by-nc-sa/4.0/https://revmovimientocientifico.ibero.edu.co/article/view/mct.13105Ventilación espontánea en ventilación mecánica invasivaSpontaneous ventilation in invasive mechanical ventilationArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85Textinfo:eu-repo/semantics/articleArtículosArticleshttp://purl.org/redcol/resource_type/ARTREFinfo:eu-repo/semantics/publishedVersionPublicationOREORE.xmltext/xml2568https://repositorio.ibero.edu.co/bitstreams/d88ccb0c-ff28-4df7-9a4b-2e81a6a0556c/downloaddd1a7def1913d3d17f9c7c600fb45c45MD51001/4531oai:repositorio.ibero.edu.co:001/45312023-03-10 12:51:33.066https://creativecommons.org/licenses/by-nc-sa/4.0/https://repositorio.ibero.edu.coRepositorio Institucional - IBERO.bdigital@metabiblioteca.com