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      응급센터 안 심폐소생술 중 가슴압박 중단시간에 대한 분석 = Factors Affecting Cardiopul-monary Resuscitation Hands-off Time in an Emergency Room

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      https://www.riss.kr/link?id=A104608985

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      Purpose: The importance of minimizing hands-off time (HOT) during the performance of cardiopulmonary resuscitation (CPR) is emphasized in the new guidelines. This study analyzes the proportion and effects of each HOT result as observed in an Emergency room (ER).
      Methods: We prospectively reviewed 45 video records of CPR performed in an ER resuscitation room from October 2007 to September 2008. We measured the total CPR time, the time to first chest compression (initial assessment time; IAT) and the time required to perform each step of the CPR procedure including pulse check and switchig compressors,echocardiography, defibrillation, X-ray, endotracheal intubation, central venous catheter insertion and needle thoracostomy.
      Results: The median values recorded included the following:total CPR time was 15.7 min (Interquartile range:7.51~27.8 min), fractions of HOT (HOTF) in CPR was 11.0% (Interquartile range: 6.9~15.1%), the ratio of IAT in total HOT was 16.8% (Interquartile range: 6.4~34%), pulse check and switching compressors in total HOT were 64.4%(Interquartile range: 52~78%), echocardiography was 13.5% (Interquartile range: 7.7~21.2%), defibrillation was 18.1% (Interquartile range: 8.9~24.6%), endotracheal intubation was 12.2% (Interquartile range: 4.2~17.2%) and Xray was 15.1% (Interquartile range: 12.7~21.0%). We found that the duration of CPR didn't increase HOTF (HOTF within 15 min of the total CPR time is 7.2% and after 15 min HOFT was counted 6.3%).
      Conclusion: During the year of in-hospital CPR data we observed, the pulse check and switch compressor procedure followed the CPR guideline, but the echocardiography,defibrillation and endotracheal intubation resulted in increased HOT. In order to reduce HOT during the performance of CPR, it is necessary to follow the guideline of each step of the procedure.
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      Purpose: The importance of minimizing hands-off time (HOT) during the performance of cardiopulmonary resuscitation (CPR) is emphasized in the new guidelines. This study analyzes the proportion and effects of each HOT result as observed in an Emergency...

      Purpose: The importance of minimizing hands-off time (HOT) during the performance of cardiopulmonary resuscitation (CPR) is emphasized in the new guidelines. This study analyzes the proportion and effects of each HOT result as observed in an Emergency room (ER).
      Methods: We prospectively reviewed 45 video records of CPR performed in an ER resuscitation room from October 2007 to September 2008. We measured the total CPR time, the time to first chest compression (initial assessment time; IAT) and the time required to perform each step of the CPR procedure including pulse check and switchig compressors,echocardiography, defibrillation, X-ray, endotracheal intubation, central venous catheter insertion and needle thoracostomy.
      Results: The median values recorded included the following:total CPR time was 15.7 min (Interquartile range:7.51~27.8 min), fractions of HOT (HOTF) in CPR was 11.0% (Interquartile range: 6.9~15.1%), the ratio of IAT in total HOT was 16.8% (Interquartile range: 6.4~34%), pulse check and switching compressors in total HOT were 64.4%(Interquartile range: 52~78%), echocardiography was 13.5% (Interquartile range: 7.7~21.2%), defibrillation was 18.1% (Interquartile range: 8.9~24.6%), endotracheal intubation was 12.2% (Interquartile range: 4.2~17.2%) and Xray was 15.1% (Interquartile range: 12.7~21.0%). We found that the duration of CPR didn't increase HOTF (HOTF within 15 min of the total CPR time is 7.2% and after 15 min HOFT was counted 6.3%).
      Conclusion: During the year of in-hospital CPR data we observed, the pulse check and switch compressor procedure followed the CPR guideline, but the echocardiography,defibrillation and endotracheal intubation resulted in increased HOT. In order to reduce HOT during the performance of CPR, it is necessary to follow the guideline of each step of the procedure.

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      참고문헌 (Reference)

      1 "http://circ.ahajournals.org/content/112/24_suppl/IV-19.full.pdf+html/"

      2 Sugerman NT, "Rescuer fatigue during actual in-hospital cardiopulmonary resuscitation with audiovisual feedback: a prospective multicenter study" 80 : 981-984, 2009

      3 Kramer-Johansen J, "Quality of out-of-hospital cardiopulmonary resuscitation with real time automated feedback: a prospective interventional study" 71 : 283-292, 2006

      4 Wik L, "Quality of cardiopulmonary resuscitation during out-of-hospital cardiac arrest" 293 : 299-304, 2005

      5 Abella BS, "Quality of cardiopulmonary resuscitation during in-hospital cardiac arrest" 293 : 305-310, 2005

      6 Wik L, "Quality of bystander cardiopulmonary resuscitation influences outcome after prehospital cardiac arrest" 28 : 195-203, 1994

      7 Van Hoeyweghen RJ, "Quality and efficiency of bystander CPR. Belgian Cerebral Resuscitation Study Group" 26 : 47-52, 1993

      8 Neumar RW, "Part 8: adult advanced cardiovascular life support: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care" 122 (122): S729-S767, 2010

      9 Berg RA, "Part 5: adult basic life support: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care" 122 : S685-S705, 2010

      10 Kuilman M, "Long-term survival after out-of-hospital cardiac arrest: an 8-year follow-up" 41 : 25-31, 1999

      1 "http://circ.ahajournals.org/content/112/24_suppl/IV-19.full.pdf+html/"

      2 Sugerman NT, "Rescuer fatigue during actual in-hospital cardiopulmonary resuscitation with audiovisual feedback: a prospective multicenter study" 80 : 981-984, 2009

      3 Kramer-Johansen J, "Quality of out-of-hospital cardiopulmonary resuscitation with real time automated feedback: a prospective interventional study" 71 : 283-292, 2006

      4 Wik L, "Quality of cardiopulmonary resuscitation during out-of-hospital cardiac arrest" 293 : 299-304, 2005

      5 Abella BS, "Quality of cardiopulmonary resuscitation during in-hospital cardiac arrest" 293 : 305-310, 2005

      6 Wik L, "Quality of bystander cardiopulmonary resuscitation influences outcome after prehospital cardiac arrest" 28 : 195-203, 1994

      7 Van Hoeyweghen RJ, "Quality and efficiency of bystander CPR. Belgian Cerebral Resuscitation Study Group" 26 : 47-52, 1993

      8 Neumar RW, "Part 8: adult advanced cardiovascular life support: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care" 122 (122): S729-S767, 2010

      9 Berg RA, "Part 5: adult basic life support: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care" 122 : S685-S705, 2010

      10 Kuilman M, "Long-term survival after out-of-hospital cardiac arrest: an 8-year follow-up" 41 : 25-31, 1999

      11 Koster RW, "Limiting‘ hands-off’ periods during resuscitation" 58 : 275-276, 2003

      12 Valenzuela TD, "Interruptions of chest compressions during emergency medical systems resuscitation" 112 : 1259-1265, 2005

      13 Edelson DP, "Improving in-hospital cardiac arrest process and outcomes with performance debriefing" 168 : 1063-1069, 2008

      14 Breitkreutz R, "Focused echocardiographic evaluation in resuscitation management: concept of an advanced life support-conformed algorithm" 35 : S150-S161, 2007

      15 Ehlenbach WJ, "Epidemiologic study of inhospital cardiopulmonary resuscitation in the elderly" 361 : 22-31, 2009

      16 Robson R, "Echocardiography during CPR: More studies needed" 81 : 1453-1454, 2010

      17 Abella BS, "Chest compression rates during cardiopulmonary resuscitation are suboptimal: a prospective study during in-hospital cardiac arrest" 111 : 428-434, 2005

      18 Peberdy MA, "Cardiopulmonary resuscitation of adults in the hospital: a report of 14720 cardiac arrests from the National Registry of Cardiopulmonary Resuscitation" 58 : 297-308, 2003

      19 Yu T, "Adverse outcomes of interrupted precordial compression during automated defibrillation" 106 : 368-372, 2002

      20 Berg RA, "Adverse hemodynamic effects of interrupting chest compressions for rescue breathing during cardiopulmonary resuscitation for ventricular fibrillation cardiac arrest" 104 : 2465-2470, 2001

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