Adrián Angel Inchauspe1. 1. Adrián Angel Inchauspe, Scientific Department, Argentina Acupuncture Society, Medical Sciences Faculty, La Plata University, La Plata, 1884 Buenos Aires, Argentina.
Abstract
AIM: To introduce new applications into the ILCOR-cardiopulmonary resuscitation (CPR) "chain" sequence. METHODS: Stages of the CPR sequence ("chain"): prior to the application of chest massage: assess the victim's state of consciousness and lung-heart failure; seek help (call 911), or in situations in which it is impossible to start the ILCOR protocol: (1) if the victim is trapped in car crash, overturned car, landslide, massive number of victims or catastrophe; or (2) delayed CPR. During chest compression: Yongquan is simultane- ously stimulated by a third rescuer. During defibrillator application: activate K-1 Yongquan through needles before defibrillation. Unsuccessful CPR: "gold standard" for legal clinical death. RESULTS: Implies comparing two hypotheses: Ho (null hypothesis) demonstrates no association between the two variables studied; Ha (alternative hypothesis) implies some degree of relation between them. Difference between the two treatments is observed. If it is greater than the standard error multiplied by a coefficient of security, the difference is significant: Ha will be accepted and Ho rejected. First we will compare CPR without defibrillator (method "A") and K-1 Yongquan method (method "B"), using percentages of representative samples (treatment "A": 6.4% response, treatment "B": 85% response). If │PA - PB│ is greater than the product of 1.96 times the standard error, the difference is significant. Because │PA - PB│ = 0.786 is greater than 0.098, the difference between 0.064 and 0.85 is statistically significant. Thus, we reject Ho and accept Ha as correct. Thus, it is improbable that chance was responsible for this association. This analysis shows that K-1 Yongquan method has a "quality guarantee". Second, we compare defibrillators ("A") with K-1 Yongquan method ("B") (treatment "A": 48%, treatment "B": 84%, │PA - PB│= 0.36; │PA - PB│ = 0.36 is greater than SE × 1.96 = 0.0148 and also statistically significant, demonstrating again the comparative value of the Yongquan method. CONCLUSION: The Yongquan resuscitation manoeuver is a non-invasive, non-tiring, costless, and easy-to-apply procedure that provides a second chance when other options fail.
AIM: To introduce new applications into the ILCOR-cardiopulmonary resuscitation (CPR) "chain" sequence. METHODS: Stages of the CPR sequence ("chain"): prior to the application of chest massage: assess the victim's state of consciousness and lung-heart failure; seek help (call 911), or in situations in which it is impossible to start the ILCOR protocol: (1) if the victim is trapped in car crash, overturned car, landslide, massive number of victims or catastrophe; or (2) delayed CPR. During chest compression: Yongquan is simultane- ously stimulated by a third rescuer. During defibrillator application: activate K-1 Yongquan through needles before defibrillation. Unsuccessful CPR: "gold standard" for legal clinical death. RESULTS: Implies comparing two hypotheses: Ho (null hypothesis) demonstrates no association between the two variables studied; Ha (alternative hypothesis) implies some degree of relation between them. Difference between the two treatments is observed. If it is greater than the standard error multiplied by a coefficient of security, the difference is significant: Ha will be accepted and Ho rejected. First we will compare CPR without defibrillator (method "A") and K-1 Yongquan method (method "B"), using percentages of representative samples (treatment "A": 6.4% response, treatment "B": 85% response). If │PA - PB│ is greater than the product of 1.96 times the standard error, the difference is significant. Because │PA - PB│ = 0.786 is greater than 0.098, the difference between 0.064 and 0.85 is statistically significant. Thus, we reject Ho and accept Ha as correct. Thus, it is improbable that chance was responsible for this association. This analysis shows that K-1 Yongquan method has a "quality guarantee". Second, we compare defibrillators ("A") with K-1 Yongquan method ("B") (treatment "A": 48%, treatment "B": 84%, │PA - PB│= 0.36; │PA - PB│ = 0.36 is greater than SE × 1.96 = 0.0148 and also statistically significant, demonstrating again the comparative value of the Yongquan method. CONCLUSION: The Yongquan resuscitation manoeuver is a non-invasive, non-tiring, costless, and easy-to-apply procedure that provides a second chance when other options fail.
Authors: Ian Jacobs; Vinay Nadkarni; Jan Bahr; Robert A Berg; John E Billi; Leo Bossaert; Pascal Cassan; Ashraf Coovadia; Kate D'Este; Judith Finn; Henry Halperin; Anthony Handley; Johan Herlitz; Robert Hickey; Ahamed Idris; Walter Kloeck; Gregory Luke Larkin; Mary Elizabeth Mancini; Pip Mason; Gregory Mears; Koenraad Monsieurs; William Montgomery; Peter Morley; Graham Nichol; Jerry Nolan; Kazuo Okada; Jeffrey Perlman; Michael Shuster; Petter Andreas Steen; Fritz Sterz; James Tibballs; Sergio Timerman; Tanya Truitt; David Zideman Journal: Circulation Date: 2004-11-23 Impact factor: 29.690
Authors: Marc D Berg; Stephen M Schexnayder; Leon Chameides; Mark Terry; Aaron Donoghue; Robert W Hickey; Robert A Berg; Robert M Sutton; Mary Fran Hazinski Journal: Circulation Date: 2010-11-02 Impact factor: 29.690