SEARCH

SEARCH BY CITATION

References

  • 1
    Cummins RO, Ornato JP, Thies WH, Pepe PE. Improving survival from sudden cardiac arrest: the “chain of survival” concept. A statement for health professionals from the Advanced Cardiac Life Support Subcommittee and the Emergency Cardiac Care Committee, American Heart Association. Circulation. 1991; 83:183247.
  • 2
    Eisenberg MS, Mengert TJ. Cardiac resuscitation. N Engl J Med. 2001; 344:130413.
  • 3
    Rea TD, Crouthamel M, Eisenberg MS, Becker LJ, Lima AR. Temporal patterns in long-term survival after resuscitation from out-of-hospital cardiac arrest. Circulation. 2003; 108:1196201.
  • 4
    Gallagher EJ, Lombardi G, Gennis P. Effectiveness of bystander cardiopulmonary resuscitation and survival following out-of-hospital cardiac arrest. JAMA. 1995; 274:19225.
  • 5
    Feneley MP, Maier GW, Kern KB, et al. Influence of compression rate on initial success of resuscitation and 24 hour survival after prolonged manual cardiopulmonary resuscitation in dogs. Circulation. 1988; 77:24050.
  • 6
    Steen S, Liao Q, Pierre L, Paskevicius A, Sjoberg T. The critical importance of minimal delay between chest compressions and subsequent defibrillation: a haemodynamic explanation. Resuscitation. 2003; 58:24958.
  • 7
    Lucia A, de las Heras JF, Perez M, et al. The importance of physical fitness in the performance of adequate cardiopulmonary resuscitation. Chest. 1999; 115:15864.
  • 8
    Havel C, Schreiber W, Riedmuller E, et al. Quality of closed chest compression in ambulance vehicles, flying helicopters and at the scene. Resuscitation. 2007; 73:26470.
  • 9
    Sugerman NT, Edelson DP, Leary M, et al. Rescuer fatigue during actual in-hospital cardiopulmonary resuscitation with audiovisual feedback: a prospective multicenter study. Resuscitation. 2009; 80:9814.
  • 10
    Wik L, Kramer-Johansen J, Myklebust H, et al. Quality of cardiopulmonary resuscitation during out-of-hospital cardiac arrest. JAMA. 2005; 293:299304.
  • 11
    Steen S, Liao Q, Pierre L, Paskevicius A, Sjoberg T. Evaluation of LUCAS, a new device for automatic mechanical compression and active decompression resuscitation. Resuscitation. 2002; 55:28599.
  • 12
    Krep H, Mamier M, Breil M, Heister U, Fischer M, Hoeft A. Out-of-hospital cardiopulmonary resuscitation with the AutoPulse system: a prospective observational study with a new load-distributing band chest compression device. Resuscitation. 2007; 73:8695.
  • 13
    Gaxiola A, Varon J. Evolution and new perspective of chest compression mechanical devices. Am J Emerg Med. 2008; 26:92331.
  • 14
    Fischer H, Neuhold S, Zapletal B, et al. A manually powered mechanical resuscitation device used by a single rescuer: a randomised controlled manikin study. Resuscitation. 2011; 82:9139.
  • 15
    Havel C, Herkner H, Haugk M, et al. Physical strain on advanced life support providers in different out of hospital environments. Resuscitation. 2008; 77:816.
  • 16
    Havel C, van Tulder R, Schreiber W, et al. Randomized crossover trial comparing physical strain on advanced life support providers during transportation using real-time automated feedback. Acad Emerg Med. 2011; 18:8607.
  • 17
    Handley AJ, Koster R, Monsieurs K, Perkins GD, Davies S, Bossaert L. European Resuscitation Council guidelines for resuscitation 2005. Section 2. Adult basic life support and use of automated external defibrillators. Resuscitation. 2005; 67(Suppl 1):S723.
  • 18
    Bullock I. Skill acquisition in resuscitation. Resuscitation. 2000; 45:13943.
  • 19
    Plappert T, Behrendt I, Schmitt C, Greim C. Mechanical Device Enables Single First-responders to be as Effective as Trained First-responders BLS-Teams. Available at: http://www.pozary.cz/storage/soubor/2010/08/4c5527058ea3d/4c817d6c58b4d.pdf. Accessed Aug 24, 2012. EuSEM 2008.
  • 20
    Genzwuerker H, Peiffer T, Hinkelbein J. Quality of chest compressions is improved with a man-powered mechanical chest compression device [abstract]. Resuscitation. 2008; 77(Suppl):S48.
  • 21
    Grant S, Aitchison T, Henderson E, et al. A comparison of the reproducibility and the sensitivity to change of visual analogue scales, Borg scales, and Likert scales in normal subjects during submaximal exercise. Chest. 1999; 116:120817.
  • 22
    Bridgewater FH, Bridgewater KJ, Zeitz CJ. Using the ability to perform CPR as a standard of fitness: a consideration of the influence of aging on the physiological responses of a select group of first aiders performing cardiopulmonary resuscitation. Resuscitation. 2000; 45:97103.
  • 23
    Oxford Grice K, Vogel KA, Le V, Mitchell A, Muniz S, Vollmer MA. Adult norms for a commercially available Nine Hole Peg Test for finger dexterity. Am J Occup Ther. 2003; 57:5703.
  • 24
    Herkner H, Eisenburger P, Havel C, Laggner AN. Dashing with scooters to in-hospital emergencies: a randomised cross-over experiment. Resuscitation. 2002; 52:2936.
  • 25
    Schaefer W, Meyer PT, Rossaint R, et al. Myocardial blood flow during general anesthesia with xenon in humans: a positron emission tomography study. Anesthesiology. 2011; 114:13739.
  • 26
    Gobel FL, Norstrom LA, Nelson RR, Jorgensen CR, Wang Y. The rate-pressure product as an index of myocardial oxygen consumption during exercise in patients with angina pectoris. Circulation. 1978; 57:54956.
  • 27
    Corben LA, Tai G, Wilson C, Collins V, Churchyard AJ, Delatycki MB. A comparison of three measures of upper limb function in Friedreich ataxia. J Neurol. 2010; 257:51823.
  • 28
    Schwid SR, Goodman AD, McDermott MP, Bever CF, Cook SD. Quantitative functional measures in MS: what is a reliable change? Neurology. 2002; 58:12946.