机械通气患者反向触发研究进展_Chinese Journal of Respiratory and Critical Care Medicine

Authors：

张春艳 ¹ ,  XIA Jingen ² , TAO Cheng ² , SUN Fang ¹

1. ;
2. ;

Corresponding author：

XIA Jingen, Email: 13466396561@163.com

Keywords：

DOI：

10.7507/1671-6205.202108064

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Citation： XIA Jingen, TAO Cheng, SUN Fang. 机械通气患者反向触发研究进展. Chinese Journal of Respiratory and Critical Care Medicine, 2022, 21(4): 297-301. doi: 10.7507/1671-6205.202108064 Copy

1.	Su HK, Loring SH, Talmor D, et al. Reverse triggering with breath stacking during mechanical ventilation results in large tidal volumes and transpulmonary pressure swings. Intensive Care Med, 2019, 45(8): 1161-1162.
2.	Haro CD, López-Aguilar J, Magrans R, et al. Double cycling during mechanical ventilation: frequency, mechanisms, and physiologic implications. Crit Care Med, 2018, 46(9): 1385-1392.
3.	Bourenne J, Guervilly C, Malika M, et al. Variability of reverse triggering in deeply sedated ARDS patients. Intensive Care Med, 2019, 45(5): 725-726.
4.	Telias I, Beitler JR. Reverse triggering, the rhythm dyssynchrony: potential implications for lung and diaphragm protection. Am J Respir Crit Care Med, 2021, 203(1): 5-6.
5.	Mühlemann R, Fallert M. Der Hering-Breuer-Reflex bei künstlicher Beatmung des Kaninchens. II. Die RElfexunterbrechung durch schrittwiese Vaguskühlung [Hering-Breuer reflex during artificial respiration in the rabbit. II. Relfex blocking by stepwise vagal cooling]. Pflugers Arch, 1971, 330(2): 175-188.German.
6.	Simon PM, Habel AM, Daubenspeck JA, et al. Vagal feedback in the entrainment of respiration to mechanical ventilation in sleeping humans. J Appl Physiol, 2000, 89: 760-769.
7.	Akoumianaki E, Lyazidi A, Rey N, et al. Mechanical ventilation-induced reverse- triggered breaths: a frequently unrecognized form of neuromechanical coupling. Chest, 2013, 143(4): 927-938.
8.	Yonis H, Gobert F, Tapponnier R, et al. Reverse triggering in a patient with ARDS. Intensive Care Med, 2015, 41(9): 1711-1712.
9.	Rodriguez PO, Tiribelli N, Fredes S, et al. Prevalence of reverse triggering in early ARDS: results from a multicenter observational study. Chest, 2021, 159(1): 186-195.
10.	Kassis EB, Su HK, Graham AR, et al. Reverse trigger phenotypes in acute respiratory distress syndrome. Am J Respir Crit Care Med, 2021, 203(1): 67-77.
11.	Blokpoel RGT, Wolthuis DW, Koopman AA, et al. Reverse triggering: a novel type of patient-ventilator asynchrony in mechanically ventilated children. Am J Respir Crit Care Med, 2019, 200(2): e4-e5.
12.	Petrillo GA, Glass L, Trippenbach T. Phase locking of the respiratory rhythm in cats to a mechanical ventilator. Can J Physiol Pharmacol, 1983, 61(6): 599-607.
13.	de Vries HJ, Jonkman AH, Tuinman PR, et al. Respiratory entrainment and reverse triggering in a mechanically ventilated patient. Ann Am Thorac Soc, 2019, 16(4): 499-505.
14.	Delisle S, Charbonney E, Albert M, et al. Patient-Ventilator asynchrony due to reverse triggering occurring in brain-dead patients: clinical implications and physiological meaning. Am J Respir Crit Care Med, 2016, 194(9): 1166-1168.
15.	Muzzin S, Trippenbach T, Baconnier P, et al. Entrainment of the respiratory rhythm by periodic lung inflation during vagal cooling. Respir Physiol, 1989, 75(2): 157-172.
16.	Turbil E, Guérin C, Schwebel C, et al. Reverse triggering: sometimes is not only the diaphragm. Am J Respir Crit Care Med, 2020, 201(7): e24-e25.
17.	Reinoso MA, Sieck GC, Hubmayr RD. Respiratory muscle coordination in acute spinaldogs. Resp Physiol, 1996, 104(1): 29-37.
18.	Simon PM, Zurob AS, Wies WM, et al. Entrainment of respiration in humans by periodic lung inﬂations. Effect of state and CO₂. Am J Respir Crit Care Med, 1999, 160(3): 950-960.
19.	Dres M, Rittayamai N, Brochard L. Monitoring patient-ventilator asynchrony. Curr Opin Crit Care, 2016, 22(3): 246-253.
20.	Murias G, Haro CD, Blanch L. Does this ventilated patient have asynchronies? Recognizing reverse triggering and entrainment at the bedside. Intensive Care Med, 2016, 42: 1058-1061.
21.	Rodriguez PO, Tiribelli N, Gogniat E, et al; GRAAVEplus (Grupo Argentino de estudio de Asincronías en la VEntilación mecanica y temas relacionados a los cuidados críticos). Automatic detection of reverse-triggering related asynchronies during mechanical ventilation in ARDS patients using flow and pressure signals. J Clin Monit Comput, 2020, 34(6): 1239-1246.
22.	Yoshida T, Nakahashi S, Nakamura MAM, et al. Volume-controlled ventilation does not prevent injurious inﬂation during spontaneous effort. Am J Respir Crit Care Med, 2017, 196(5): 590-601.
23.	Takeshi Y, Miyuki NMA, Morais CCA, et al. Reverse triggering causes an injurious inflation pattern during mechanical ventilation. Am J Respir Crit Care Med, 2018, 198(8): 1096-1099.
24.	Yoshida T, Torsani V, Gomes S, et al. Spontaneous effort causes occult pendelluft during mechanical ventilation. Am J Respir Crit Care Med, 2013, 188: 1420-1427.
25.	Pellegrini M, Hedenstierna G, Roneus A, et al. The diaphragm acts as a brake during expiration to prevent lung collapse. Am J Respir Crit Care Med, 2017, 195(12): 1608-1616.
26.	Schreiber A, Bertoni M, Goligher EC. Avoiding respiratory and peripheral muscle injury during mechanical ventilation: diaphragm-protective ventilation and early mobilization. Crit Care Clin, 2018, 34(3): 357-381.
27.	Proske U, Morgan DL. Muscle damage from eccentric exercise: mechanism, mechanical signs, adaptation and clinical applications. J Physiol, 2001, 537(Pt 2): 333-345.
28.	Mellado Artigas R, Damiani LF, Piraino T, et al. Reverse triggering dyssynchrony 24 h after initiation of mechanical ventilation. Anesthesiology, 2021, 134(5): 760-769.
29.	Jochmans S, Mazerand S, Mercier des Rochettes E, et al. Reverse triggering with breath stacking in ARDS patients: the "optimum" can be the enemy of the "good". Minerva Anestesiol, 2018, 84(7): 871-872.
30.	He X, Luo XY, Chen GQ, et al. Detection of reverse triggering in a 55-year-old man under deep sedation and controlled mechanical ventilation. J Thorac Dis, 2018, 10(9): E682-E685.

1. Su HK, Loring SH, Talmor D, et al. Reverse triggering with breath stacking during mechanical ventilation results in large tidal volumes and transpulmonary pressure swings. Intensive Care Med, 2019, 45(8): 1161-1162.
2. Haro CD, López-Aguilar J, Magrans R, et al. Double cycling during mechanical ventilation: frequency, mechanisms, and physiologic implications. Crit Care Med, 2018, 46(9): 1385-1392.
3. Bourenne J, Guervilly C, Malika M, et al. Variability of reverse triggering in deeply sedated ARDS patients. Intensive Care Med, 2019, 45(5): 725-726.
4. Telias I, Beitler JR. Reverse triggering, the rhythm dyssynchrony: potential implications for lung and diaphragm protection. Am J Respir Crit Care Med, 2021, 203(1): 5-6.
5. Mühlemann R, Fallert M. Der Hering-Breuer-Reflex bei künstlicher Beatmung des Kaninchens. II. Die RElfexunterbrechung durch schrittwiese Vaguskühlung [Hering-Breuer reflex during artificial respiration in the rabbit. II. Relfex blocking by stepwise vagal cooling]. Pflugers Arch, 1971, 330(2): 175-188.German.
6. Simon PM, Habel AM, Daubenspeck JA, et al. Vagal feedback in the entrainment of respiration to mechanical ventilation in sleeping humans. J Appl Physiol, 2000, 89: 760-769.
7. Akoumianaki E, Lyazidi A, Rey N, et al. Mechanical ventilation-induced reverse- triggered breaths: a frequently unrecognized form of neuromechanical coupling. Chest, 2013, 143(4): 927-938.
8. Yonis H, Gobert F, Tapponnier R, et al. Reverse triggering in a patient with ARDS. Intensive Care Med, 2015, 41(9): 1711-1712.
9. Rodriguez PO, Tiribelli N, Fredes S, et al. Prevalence of reverse triggering in early ARDS: results from a multicenter observational study. Chest, 2021, 159(1): 186-195.
10. Kassis EB, Su HK, Graham AR, et al. Reverse trigger phenotypes in acute respiratory distress syndrome. Am J Respir Crit Care Med, 2021, 203(1): 67-77.
11. Blokpoel RGT, Wolthuis DW, Koopman AA, et al. Reverse triggering: a novel type of patient-ventilator asynchrony in mechanically ventilated children. Am J Respir Crit Care Med, 2019, 200(2): e4-e5.
12. Petrillo GA, Glass L, Trippenbach T. Phase locking of the respiratory rhythm in cats to a mechanical ventilator. Can J Physiol Pharmacol, 1983, 61(6): 599-607.
13. de Vries HJ, Jonkman AH, Tuinman PR, et al. Respiratory entrainment and reverse triggering in a mechanically ventilated patient. Ann Am Thorac Soc, 2019, 16(4): 499-505.
14. Delisle S, Charbonney E, Albert M, et al. Patient-Ventilator asynchrony due to reverse triggering occurring in brain-dead patients: clinical implications and physiological meaning. Am J Respir Crit Care Med, 2016, 194(9): 1166-1168.
15. Muzzin S, Trippenbach T, Baconnier P, et al. Entrainment of the respiratory rhythm by periodic lung inflation during vagal cooling. Respir Physiol, 1989, 75(2): 157-172.
16. Turbil E, Guérin C, Schwebel C, et al. Reverse triggering: sometimes is not only the diaphragm. Am J Respir Crit Care Med, 2020, 201(7): e24-e25.
17. Reinoso MA, Sieck GC, Hubmayr RD. Respiratory muscle coordination in acute spinaldogs. Resp Physiol, 1996, 104(1): 29-37.
18. Simon PM, Zurob AS, Wies WM, et al. Entrainment of respiration in humans by periodic lung inﬂations. Effect of state and CO₂. Am J Respir Crit Care Med, 1999, 160(3): 950-960.
19. Dres M, Rittayamai N, Brochard L. Monitoring patient-ventilator asynchrony. Curr Opin Crit Care, 2016, 22(3): 246-253.
20. Murias G, Haro CD, Blanch L. Does this ventilated patient have asynchronies? Recognizing reverse triggering and entrainment at the bedside. Intensive Care Med, 2016, 42: 1058-1061.
21. Rodriguez PO, Tiribelli N, Gogniat E, et al; GRAAVEplus (Grupo Argentino de estudio de Asincronías en la VEntilación mecanica y temas relacionados a los cuidados críticos). Automatic detection of reverse-triggering related asynchronies during mechanical ventilation in ARDS patients using flow and pressure signals. J Clin Monit Comput, 2020, 34(6): 1239-1246.
22. Yoshida T, Nakahashi S, Nakamura MAM, et al. Volume-controlled ventilation does not prevent injurious inﬂation during spontaneous effort. Am J Respir Crit Care Med, 2017, 196(5): 590-601.
23. Takeshi Y, Miyuki NMA, Morais CCA, et al. Reverse triggering causes an injurious inflation pattern during mechanical ventilation. Am J Respir Crit Care Med, 2018, 198(8): 1096-1099.
24. Yoshida T, Torsani V, Gomes S, et al. Spontaneous effort causes occult pendelluft during mechanical ventilation. Am J Respir Crit Care Med, 2013, 188: 1420-1427.
25. Pellegrini M, Hedenstierna G, Roneus A, et al. The diaphragm acts as a brake during expiration to prevent lung collapse. Am J Respir Crit Care Med, 2017, 195(12): 1608-1616.
26. Schreiber A, Bertoni M, Goligher EC. Avoiding respiratory and peripheral muscle injury during mechanical ventilation: diaphragm-protective ventilation and early mobilization. Crit Care Clin, 2018, 34(3): 357-381.
27. Proske U, Morgan DL. Muscle damage from eccentric exercise: mechanism, mechanical signs, adaptation and clinical applications. J Physiol, 2001, 537(Pt 2): 333-345.
28. Mellado Artigas R, Damiani LF, Piraino T, et al. Reverse triggering dyssynchrony 24 h after initiation of mechanical ventilation. Anesthesiology, 2021, 134(5): 760-769.
29. Jochmans S, Mazerand S, Mercier des Rochettes E, et al. Reverse triggering with breath stacking in ARDS patients: the "optimum" can be the enemy of the "good". Minerva Anestesiol, 2018, 84(7): 871-872.
30. He X, Luo XY, Chen GQ, et al. Detection of reverse triggering in a 55-year-old man under deep sedation and controlled mechanical ventilation. J Thorac Dis, 2018, 10(9): E682-E685.

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