|
|
|
|
|
| A clinical study about D-RSBI directed weaning in the ICU patients undergoing mechanical ventilation |
| Feng Hui, Chen Bing, Tian Jing, Liu Yi |
| Department of Critical Care Medicine, the Second Hospital of Tianjin Medical University, Tianjin 300211, China |
|
|
|
|
Abstract Objective To compare the ability of the traditional rapid shallow breathing index (RSBI) and diaphragmatic-RSBI (D-RSBI) to predict weaning failure in ready-to-wean patients. Methods We performed a prospective observational study. The patients undergoing mechanical ventilation admitted to Department of Critical Care Medicine of the Second Hospital of Tianjin Medical University from June 2017 to March 2018 were enrolled. All patients underwent spontaneous breathing test (SBT), and rapid shallow breathing index (RSBI) was recorded. The indicators of right diaphragmatic displacement (DD) were determined by M-mode ultrasonography at the end of SBT, and D-RSBI (RR/DD) was calculated. The patients were divided into successful weaning group andfailure weaning group, and the differences in above indexes were compared between the two groups. Receiver operating characteristic(ROC) curve was used to evaluate the predictive value of RSBI and D-RSBI at 60 minutes of SBT. Results A total of 31 patients were enrolled in the study. Most of the patients, 25 (81%), were successfully weaned from mechanical ventilation, 6 patients failed (19%). The area under the ROC curves for D-RSBI was 0.87. A cut of D-RSBI >1.8 breaths/(min·mm) yielded 66.7% sensitivity, 96.2% specificity, 88.3% PPV and 87.1% NPV.On the other hand, the area under the ROC curves for RSBI was 0.80 (P<0.05). A cut of RSBI>92.3 breaths/(min·L) yielded 100% sensitivity, 68% specificity, 57.2% PPV and 100%NPV. Conclusion A lot of indexes can be used to predict outcome of weaning from mechanical ventilation. D-RSBI (RR/DD) was more accurate than traditional RSBI (RR/VT) in predicting the weaning outcome.
|
|
|
|
Corresponding Authors:
Chen Bing,E-mail: tisheng2008@163.com
|
|
|
|
| [1]Thille AW, Harrois A, Schortgen F, et al. Outcomes of extubation failure in medical intensive care unit patients[J]. Crit Care Med, 2011, 39(12): 2612-2618.
[2]Heunks LM, van der Hoeven JG. Clinical review: the ABC of weaning failure-a structured approach[J]. Crit Care, 2010, 14(6): 245.
[3]Bien Udos S, Souza GF, Campos ES, et al. Maximum inspiratory pressure and rapid shallow breathing index as predictors of successful ventilator weaning[J]. J Phys Ther Sci, 2015, 27(12):3723-3727.
[4]Hooijman PE, Beishuizen A, Witt CC, et al. Diaphragm muscle fiber weakness and ubiquitin-proteasome activation in critically ill patients[J]. Am J Respir Crit Care Med, 2015, 191(10): 1126-1138.
[5]Karthika M, Al Enezi FA, Pillai LV, et al. Rapid shallow breathing index[J]. Ann Thorac Med, 2016, 11(3): 167-176.
[6]Seely AJ, Bravi A, Herry C, et al. Do heart and respiratory rate variability improve prediction of extubation outcomes in critically ill patients[J]. Crit Care, 2014, 18(2): R65.
[7]Pirompanich P, Romsaiyut S. Use of diaphragm thickening fraction combined with rapid shallow breathing index for predicting success of weaning from mechanical ventilator in medical patients[J]. J Intensive Care, 2018, 6: 6.
[8]Spadaro S, Grasso S, Mauri T, et al. Can diaphragmatic ultrasonography performed during the T-tube trial predict weaning failure The role of diaphragmatic rapid shallow breathing index[J]. Crit Care, 2016, 20(1): 305.
[9]Jeong BH, Ko MG, Nam J, et al. Differences in clinical outcomes according to weaning classifications in medical intensive care units[J]. PLoS One, 2015, 10(4): e0122 810.
[10]Kriner EJ, Shafazand S, Colice GL. The endotracheal tube cuff-leak test as a predictor for postextubation stridor[J]. Respir Care, 2005, 50(12): 1632-1638.
[11]Umbrello M, Formenti P, Longhi D, et al. Diaphragm ultrasound as indicator of respiratory effort in critically ill patients undergoing assisted mechanical ventilation: a pilot clinical study[J]. Crit Care, 2015, 19: 161.
[12]Macintyre NR. Evidence-based assessments in the ventilator discontinuation process[J]. Respir Care, 2012, 57(10): 1611-1618.
[13]MacIntyre NR, Cook DJ, Ely EW Jr, et al. Evidence-based guidelines for weaning and discontinuing ventilatory support: a collective task force facilitated by the American College of Chest Physicians; the American Association for Respiratory Care; and the American College of Critical Care Medicine[J]. Chest, 2001, 120(6 Suppl): 375S-395S.
[14]Yan S, Lichros I, Zakynthinos S, et al. Effect of diaphragmatic fatigue on control of respiratory muscles and ventilation during CO2 rebreathing[J]. J Appl Physiol, 1993, 75(3): 1364-1370.
[15]Yan S, Sliwinski P, Gauthier AP, et al. Effect of global inspiratory muscle fatigue on ventilatory and respiratory muscle responses to CO2[J]. J Appl Physiol, 1993, 75(3): 1371-1377.
[16]Jaber S, Petrof BJ, Jung B, et al. Rapidly progressive diaphragmatic weakness and injury during mechanical ventilation in humans[J]. Am J Respir Crit Care Med, 2011, 183(3): 364-371.
[17]Kress JP, Hall JB. ICU-acquired weakness and recovery from critical illness[J]. N Engl J Med, 2014, 371(3): 287-288.
[18]Levine S, Nguyen T, Taylor N, et al. Rapid disuse atrophy of diaphragm fibers in mechanically ventilated humans[J]. N Engl J Med, 2008, 358(13): 1327-1335.
[19]Reynolds SC, Meyyappan R, Thakkar V, et al. Mitigation of Ventilator-induced Diaphragm Atrophy by Transvenous Phrenic Nerve Stimulation[J]. Am J Respir Crit Care Med, 2017, 195(3): 339-348. |
|
|
|
Address: 1 North 2nd Street,
Zhongguancun, 
