1Papanikolaou J, Makris D, Saranteas T, et al. New insights into weaning from mechanical ventilation: left ventricular diastolic dys- function is a key player [J]. Intensive Care Medicine, 2011, 37(12): 1976-1985.
2Gerbaud E, Erickson M, Grenonillet-Delacre M, et al. Eehocardio- graphic evaluation and N-terminal pro-brain natriuretie peptide mea- surement of patients hospitalized for heart failure during weaning from mechanical ventilation [J]. Minerva Anestesiologica, 2012, 78 (4): 415-425.
3Jakob SM, Ruokonen E, Grounds RM, et al. Dexmedetomidine vs midazolam or propofol for sedation during prolonged mechanical ventilation: two randomized controlled trials [J]. JAMA, 2012, 307 (11): 1151-1160.
4Shirakab A, Ham N, Yokoyama S, ct al. Predicting the success of noninvasivc positive pressure ventilation in mergcncy room for pa- tients with acute heart failure [J]. Journal of Cardiology, 2011, 57 (1): 107-114.
5Domico MB, Ridout DA, Bronicki R, et al. The impact of mechani- cal ventilation time before initiation of extraeorporeal life support on survival in pediatric respiratory failure: A review of the extracor- poreal life support registry [J]. Pediatric Critical Care Medicine, 2012, 13(1): 16-21.
6Wong DTH, George K, Wilson J, et al. Effectiveness of serial in- creases in amino-terminal pro-B-type natrinretic peptide levels to in- dicate the need for mechanical circulatory support in children with acute decompensated heart failure [J]. The American Journal of Car- diology, 2011,107(4): 573-578.
7Reignier J, Mercier E, Le Gouge A, et al. Effect of not monitoring residual gastric volume on risk of ventilator-associated pneumonia in adults receiving mechanical ventilation and early enteral feeding: a randomized controlled trial [J]. JAMA, 2013, 309(3): 249-256.
8Huang CT, Tsai YJ, Lin JW, et al. Application of heart rate variabili- ty in patients undergoing weaning from mechanical ventilation [J]. Crit Care, 2014, 18: R21-R24.
