1Edelson DP. Effects of compression depth and pre-shock pauses predict defibrillation failure during cardiac arrest [ J ]. Resuscitation, 2006, 71 (2) : 137-145.
2Babbs CF. Relationship of blood pressure and flow during CPR to chest compression amplitude: Evidence for an effective compression threshold [J]. Annals of Emergency Medicine, 1983, 12 (9) : 527-532.
3Johansen Jk. Quality of out-of-hospital cardiopulmonaryresuscitation with real time automated feedback: A prospective interventional study [J]. Resuscitation, 2006, 71 (3) : 283-92.
4Wik L. Quality of Cardiopulmonary ResuscitationDuring Out-of- Hospital Cardiac Arrest [J]. JAMA, 2005, 293 (3) : 299-304.
5Mirza M, Brown TB, Saini D, et al. Instructions to "push as hard as you can" improve average chestcompression depth in dispatcher- assisted cardiopulmonary resuscitation [ J ]. Resuscitation, 2008, 79 (1) : 97-102.
7Kern KB. A study of chest compression rotes during cardiopulrnonary resnscitafion in hunans: the importance of rate-directed chest compressions [J]. Arch Intern Med, 1992, 152 (1): 145-149.
8Abella BS, Sandbo N, Vassilatos P, et al. Chest compression rates during cardiopulmonary resuscitation are suboptimal: a prospective study during in-hospital cardiac arrest [ J ]. Circulation, 2005, 111 (4) : 428-34.
9Christenson J, Andrusiek D, Everson - Stewart S, et al. Chest compression fraction determines survival in patients with out-of- hospital ventricular fibrillation [ J ]. Circulation, 2009, 120 (13): 1241-7.
10Halperin HR, Tsitlik JE, Guerci AD, et al. Determinants of blood flow to vital organs during cardiopulmonary resuscitation in dogs [J]. Circulation, 1986, 73 (3): 539-50.
