covid
Buscar en
Revista Colombiana de Cardiología
Toda la web
Inicio Revista Colombiana de Cardiología Reanimación cardiopulmonar avanzada (segunda parte) los cambios que deben efect...
Información de la revista
Vol. 18. Núm. 2.
Páginas 65-79 (marzo - abril 2011)
Compartir
Compartir
Descargar PDF
Más opciones de artículo
Vol. 18. Núm. 2.
Páginas 65-79 (marzo - abril 2011)
Open Access
Reanimación cardiopulmonar avanzada (segunda parte) los cambios que deben efectuarse para la reanimación cardiovascular avanzada según las guías 2010 presentadas en chicago
Advanced cardiopulmonary life support (second part) changes to be made for advanced cardiopulmonary life support according to the 2010 guidelines presented in chicago
Visitas
5209
Hernando Matiz Camacho
Autor para correspondencia
hmatiz@cardioinfantil.org

Correspondencia: Dr. Hernando Matiz Camacho. Fundación Cardioinfantil. Calle 163 A No. 13B-60. Bogotá, DC., Colombia. Teléfono: (57-1) 66672727 ext. 6112.
Director Centro de Simulación y Habilidades Clínicas, «Valentín Fuster» Fundación Cardioinfantil-Instituto de Cardiología. Expresidente Sociedad Colombiana de Cardiología
Este artículo ha recibido

Under a Creative Commons license
Información del artículo
El Texto completo está disponible en PDF
Bibliografía y material consultado
[1.]
American Heart Association Guidelines for CPR and EEG 2010.
[2.]
2010 Handbook of Emergency Cardiovascular Care for health providers, American Heart Association.
[3.]
Guidelines CPR-ECC 2010, Noviembre. American Heart Association.
[4.]
Aspectos destacados de las Guías de la American Heart Association 2010 para RCP y ECC. Sciencie Update.
[5.]
M. Castren, S. Silfvast, S. Rubertsson, M. Niskanen, F. Valsson, M. Wanscher.
Scandinavian clinical practice guidelines for therapeutic hypothermia and post-resuscitation care after cardiac arrest.
Acta Anaesthesiol Scand, 53 (2009), pp. 280-288
[6.]
P.E. Pepe, L.P. Roppolo, R.L. Fowler.
The detrimental effects of ventilation during low-blood-flow states.
Curr Opin Crit Care, 11 (2005), pp. 212-218
[7.]
B.J. Bobrow, G.A. Ewy.
Ventilation during resuscitation efforts for out-of-hospital primary cardiac arrest.
Curr Opin Crit Care, 15 (2009), pp. 228-233
[8.]
M.J. Kellum, K.W. Kennedy, R. Barney, et al.
Cardiocerebral resuscitation improves neurologically intact survival of patients with out-of-hospital cardiac arrest.
Ann Emerg Med, 52 (2008), pp. 244-252
[9.]
T.P. Aufderheide, K.G. Lurie.
Death by hyperventilation: a common and life threatening problem during cardiopulmonary resuscitation.
Crit Care Med, 32 (2004), pp. S345-S351
[10.]
K.G. Lurie, W.G. Voelckel, T. Zielinski, et al.
lmproving standard cardiopulmonary resuscitation with and inspiratory impedance threshold valve in a porcine model of cardiac arrest.
Anesth Analg, 93 (2001), pp. 649-655
[11.]
T.P. Aufderheide, G. Sigurdsson, R.G. Pirrallo, et al.
Hyperventilation - induced hypotension during CPR.
Circulation, 109 (2004), pp. 1960-1970
[12.]
T.P. Aufderheide, K.G. Lurie.
Death by hyperventilation: a common and life threatening problem during cardiopulmonary resuscitation.
Crit Care Med, 32 (2004), pp. S345-S351
[13.]
G. Sigurdsson, D. Yannopoulus, S.H. Mcknite, K.G. Lurie.
Cardiopulmonary interactions and blood flow generation during cardiac arrest and other states of low blood flow.
Curr Opin Crit Care, 9 (2003), pp. 183-188
[14.]
M.L. Weisfeldt, L.B. Becker.
Resuscitation after cardiac arrest: a 3-phase time-sensitive model.
JAMA, 288 (2002), pp. 3035-3040
[15.]
T.D. Valenzuela, D.J. Roe, G. Nichol, L.L. Clark, D.W. Spaite, Hardman R.G..
Outcomes of rapid defibrillation by security officers after cardiac arrest in casinos.
N Engl J Med, 343 (2000), pp. 1206-1210
[16.]
L.A. Cobb, C.F. Fahrenbuch, T.R. Walsh, et al.
lnfluence of cardiopulmonary resuscitation prior to defibrillation in patients with out-of-hospital ventricular defibrillation.
JAMA, 281 (1999), pp. 1182-1190
[17.]
Cardiopulmonary resuscitation by bystanders with chest compression only (SOS-KANTO): an observational, study.
[18.]
K. Bohm, M. Rosenquvist, J. Herlitz.
Survival is similar after standard treatment and chest compression only in out of-hospital bystander cardiopulmonary resuscitation.
Circulation, 116 (2007), pp. 2908-2912
[19.]
A. Hallstrom, L. Cobb, E. Johnson.
Cardiopulmonary resuscitation by chest compression alone or with mouth ventilation.
N Engl J Med, 342 (2000), pp. 1546-1553
[20.]
K. Nagao.
Chest compression-only cardiocerebral resuscitation.
Curr Opin Crit Care, 15 (2009), pp. 189-197
[21.]
R.A. Berg, K.B. Kern, R.W. Hilwig.
Assisted ventilation does not improve outcome in a porcine model of single-rescuer bystander cardiopulmonary resuscitation.
Circulation, 95 (1997), pp. 1635-1641
[22.]
R.A. Berg, A.B. Sanders, K.B. Kern.
Adverse hemodynamic effects of interrupting chest compressions for rescue breathing during cardiopulmonary resuscitation for ventricular fibrillation cardiac arrest.
Circulation, 104 (2001), pp. 2465-2470
[23.]
J.W. Heidenreich, R.A. Berg, T.A. Higdon, G.A. Ewy, K.B. Kern, A.B. Sanders.
Rescuer fatigue: standard versus continuous chest-compression cardiopulmonary resuscitation.
Academic Emerg Med, 13 (2006), pp. 1020-1030
[24.]
K. Nagao, on behalf SOS-KANTO study group.
Cardiopulmonary resuscitation by bystanders with chest compression only (SOS-KANTO): an observational study.
[25.]
I. Jacobs, K. Sunde, C.D. Deakin, M.F. Hazinski, R.E. Kerber, R.W. Koster, L.J. Morrison, J.P. Nolan, M.R. Sayre, on behalf of Defibrillation Chapter Collaborators.
Part 6: defibrillation: 2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science with Treatment Recommendations.
Circulation, 122 (2010), pp. S325-S337
[26.]
C.T. Leng, N.A. Paradis, H. Calkins, R.D. Berger, A.C. Lardo, K.C. Rent, H.R. Halperin.
Resuscitation after prolonged ventricular fibrillation with use of monophasic and biphasic waveform pulses for external defibrillation.
Circulation, 101 (2000), pp. 2968-2970
[27.]
B.S. Abella, J.P. Alvarado, H. Myklebust, D.P. Edelson, A. Barry, N. O’Hearn, et al.
Quality of cardiopulmonary resuscitation during in-hospital cardiac arrest.
JAMA, 293 (2005), pp. 305-310
[28.]
A.A. Adgey.
Efficacy of distinct energy delivery protocols comparing two biphasic defibrillators for cardiac arrest.
Am J Cardiol, 94 (2004), pp. 378-380
[29.]
K. Freeman, G.W. Hendey, M. Shalit, G. Stroh.
Biphasic defibrillation does not improve outcomes compared to monophasic defibrillation in out-of hospital cardiac arrest.
Prehosp Emerg Care, 12 (2008), pp. 152-156
[30.]
C.F. Babbs.
Interposed abdominal compression CPR: a comprehensive evidence based review.
Resuscitation, 59 (2003), pp. 71-82
[31.]
M.J. Girsky, J.M. Criley.
Images in cardiovascular medicine.
Cough cardiopulmonary resuscitation revisited. Circulation, 114 (2006),
[32.]
M. Shuster, S.H. Lim, C.D. Deakin, M.E. Kleinman, R.W. Koster, L.J. Morrison, on behalf of the CPR Techniques and Devices Collaborators, et al.
Part 7: CPR techniques and devices: 2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science with Treatment Recommendations.
Circulation, 122 (2010), pp. S338-S344
[33.]
O. Amir, J.E. Schliamser, S. Nemer, M. Arie.
Ineffectiveness of precordial thump for cardioversion of malignant ventricular tachyarrhythmias.
Pacing Clin Electrophysiol, 30 (2007), pp. 153-156
[34.]
U. McNelis, A. Syndercombe, I. Harper, J. Duggan.
The effect of cricoids pressure on intubation facilitated by the gum elastic bougie.
Anaesthesia, 62 (2007), pp. 456-459
[35.]
E.L. Hartsilver, R.G. Vanner.
Airway obstruction with cricoid pressure.
Anaesthesia, 55 (2000), pp. 208-211
[36.]
A.I. Larsen, A.S. Hjornevik, C.L. Ellingsen, D.W. Nilsen.
Cardiac arrest with continuous mechanical chest compression during percutaneous coronary intervention. A report on the use of the LUCAS device.
Resuscitation, 75 (2007), pp. 454-459
[37.]
C. Bruel, J.J. Parienti, W. Marie, X. Arrot, C. Daubin, D. Du Cheyron, et al.
Mild hypothermia during advanced life support: a preliminary study in out-ofhospital cardiac arrest.
Crit Care, 12 (2008), pp. R31
[38.]
A. Kamarainen, I. Virkkunen, J. Tenhunen, A. Yli-Hankala, T. Silfvast.
Prehospital induction of therapeutic hypothermia during CPR: a pilot study.
Resuscitation, 76 (2008), pp. 360-363
[39.]
K. Sunde, M. Pytte, D. Jacobsen, A. Mangschau, L.P. Jensen, C. Smedsrud, et al.
Implementation of a standardised treatment protocol for post resuscitation care after out-of-hospital cardiac arrest.
[40.]
P. Carli.
Immediate coronary angiography in survivors of out-of hospital cardiac arrest.
N Engl J Med, 336 (1997), pp. 1629-1633
[41.]
Z.A. Anyfantakis, G. Baron, P. Aubry, D. Himbert, L.J. Feldman, J.M. Juliard, et al.
Acute coronary angiographic findings in survivors of out-of-hospital cardiac arrest.
Am Heart J, 157 (2009), pp. 312-318
[42.]
G. Belliard, E. Catez, C. Charron, V. Caille, P. Aegerter, O. Dubourg, et al.
Efficacy of therapeutic hypothermia after out-of hospital cardiac arrest due to ventricular fibrillation.
Resuscitation, 75 (2007), pp. 252-259
[43.]
J. Bro-Jeppesen, J. Kjaergaard, T.I. Horsted, M.C. Wanscher, S.L. Nielsen, L.S. Rasmussen, et al.
The impact of therapeutic hypothermia on neurological function and quality of life after cardiac arrest.
Resuscitation, 80 (2009), pp. 171-176
[44.]
R. Knafelj, P. Radsel, T. Ploj, M. Noc.
Primary percutaneous coronary intervention and mild induced hypothermia in comatose survivors of ventricular fibrillation with ST-elevation acute myocardial infarction.
Resuscitation, 74 (2007), pp. 227-234
[45.]
I.M. Larsson, E. Wallin, S. Rubertsson.
Cold saline infusion and ice packs alone are effective in inducing and maintaining therapeutic hypothermia after cardiac arrest.
[46.]
V. Vereczki, E. Martin, R.E. Rosenthal, P.R. Hof, G.E. Hoffman, G. Fiskum.
Normoxic resuscitation after cardiac arrest protects against hippocampal oxidative stress, metabolic dysfunction, and neuronal death.
J Cereb Blood Flow Metab, 26 (2006), pp. 821-835
[47.]
K.R. Evenson, A.S. Go, M.M. Hand, R.U. Kothari, G.A. Mensah, D.L. Morris, et al.
Reducing delay in seeking treatment by patients with acute coronary syndrome and stroke: a scientific statement from the American Heart Association Council on cardiovascular nursing and stroke council.
Circulation, 114 (2006), pp. 168-182
[48.]
T.J. Meine, M.T. Roe, A.Y. Chen, M.R. Patel, J.B. Washam, E.M. Ohman, et al.
Association of intravenous morphine use and outcomes in acute coronary syndromes: results from the CRUSADE Quality Improvement Initiative.
Am Heart J, 149 (2005), pp. 1043-1049
[49.]
L.J. Morrison, S. Brooks, B. Sawadsky, A. McDonald, P.R. Verbeek.
Prehospital 12-lead electrocardiography impact on acute myocardial infarction treatment times and mortality: a systematic review.
Acad Emerg Med, 13 (2006), pp. 84-89
[50.]
M. Sekulic, B. Hassunizadeh, S. McGraw, S. David.
Feasibility of early emergency room notification to improve door-to-balloon times for patients with acute ST segment elevation myocardial infarction.
Catheter Cardiovasc Interv, 66 (2005), pp. 316-319
[51.]
A.W. van’t Hof, S. Rasoul, H. van de Wetering, N. Ernst, H. Suryapranata, J.C. Hoorntje, et al.
Feasibility and benefit of prehospital diagnosis, triage, and therapy by paramedics only in patients who are candidates for primary angioplasty for acute myocardial infarction.
[52.]
Matiz, H. Gómez. H., Gómez A. La reanimación Intrahospitalaria = Código azul. Anexo 2. Soporte Vital Básico y Avanzado. Análisis crítico de las nuevas Guías 2005. E.B.M. Colombia. Edit. Distribuna 2007.
[53.]
Nolan, JP. et al. European Resuscitation Council Guidelines for resuscitation 2010. Section 1. Executive summary Vol 81, No. 10. October 2010.
Copyright © 2011. Sociedad Colombiana de Cardiología y Cirugía Cardiovascular
Descargar PDF
Opciones de artículo