ABSTRACT
Objective To explore the timeliness value of cardiopulmonary resuscitation quality index (CQI) in patients' prognostic evaluation during cardiopulmonary resuscitation (CPR).Methods A prospective descriptive study was conducted.According to whether they got return of spontaneously circulation (ROSC) or not,45 patients receiving CPR were divided into the ROSC group and non-ROSC group.The changes of CQI and partial pressure of end-tidal carbon dioxide (PETCO2) during CPR were collected,and were analyzed to valuate the prognosis of patients.Results The initial,end,and average PETCO2 were statistically different between the ROSC group and the non-ROSC group [7.0(3.6,14.6) vs 7.0(3.6,14.6) mmHg;29.5(19.8,35.9) vs 4.0(2.3,10.2)mmHg;and 22.2(11.8,36.3) vs 4.0(2.5,9.0) mmHg,respectively;P<0.05],and the end CQI was statistically different between the two groups (59.6±8.9 vs 34.8±5.2,P<0.05).The CQI differences between the two groups initiated at 11 min after CPR,and stopped at 29 min after CPR.The optimal cut-offpoint of terminal CQI and PETCO2 for prognostic was 33.2 and 16.1 mmHg respectively,and there was a statistically difference in the area under the curve between them (P<0.05).Conclusions During CPR,both CQI and PETCO2 can be used to evaluate the prognosis,and CQI is more capable of predicting in the late stage of CPR.
ABSTRACT
Objective To investigate the physiological responses of healthy youth to doing chest compression as a feedback of quality of CPR after their rapid ascent to high altitude and to evaluate the feedback in the intervention effects of CPR.Methods Prospective,single sample,before-after comparison method was used in this study.Fifteen young adults from plains natives were enrolled as trial subjects in this study.All of them received basic life support training course in advance.In Chongqing (259 m above sea level),subjects performed empiric chest compressions on the model body for 4 minutes followed by feedback compressions for 4 minutes after at least 30 minutes rest.Compression depth,rate and other compression quality parameters were measured and recorded at each turn of compressions with an AED PLUS device.Subjects performed empiric compressions based on their knowledge and experiences,and practiced feedback compressions according to the audiovisual guidance of AED PLUS device.Blood pressure,heart rate and SpO2 were taken before and after each turn of compressions.One week after arrival to Lhasa (3658 m above sea level) by flight,all subjects were asked to do the same procedure as did in Chongqing to see their physiological response to.Paired t tests or Wilcoxon matched pair rank test were used for comparisons of measurements before and after trials.Results Systolic pressures,diastolic pressures,heart rates at baseline in Lhasa were significant different from those in Chongqing,including systolic pressure (125.9 ±9.5) mmHg vs.(112.7 ±13.4) mmHg,diastolic pressure (75.3 ±7.7) mmHg vs.(64.2 ±7.3) mmHg,heart rate (86.3 ± 13.0) beat/min vs.(72.7 ± 11.6) beat/min,SpO2 (90.4 ± 1.7)% vs.(97.8 ±0.9)%,all P < 0.01.In Lhasa,empiric compressions only caused an increase in heart rate (91.1 ± 14.9) beat/min vs.(86.3 ± 13.0) beat/min,P < 0.01.However,feedback compressions resulted in a significant decrease in SpO2 [(88.3 ± 3.4) % vs.(90.6 ± 1.9) %,P < 0.01] as well as change of systolic pressure [(130.9 ± 11.7) mmHg vs.(120.1 ± 11.9) mmHg,P <0.05] and heart rate [(87.9 ± 17.5) beat/min vs.(80.9 ± 11.7) beat/min,P <0.05].In Lhasa,the compression quality during feedback compressions was closer to guideline recommendation than that during empiric compressions.The median (interquartile range) of composite qualification rate was 43.6% (55.9%) vs.0.6% (5.3%) during feedback compressions and empiric compressions respectively,P < 0.01.Conclusions Compression quality decreased significantly among youth after rapid ascent to high altitude.Feedback techniques for CPR could effectively guide the rescuer to improve their CPR quality,but it may be at the expense of more physical consumption.
ABSTRACT
Objective To effectually record cardiopulmonary resuscitation (CPR) procedure, analyze and compare the CPR performance of all medical and nursing staffs to find out the existed information for the improvement of the quality of CPR and its survival rate. Methods The medical data were collected according to the Utstein Criteria and CPR event was automatically recorded by a digital video-recording system, by which hands-off times within 10 minutes of CPR and times for installation of chest compression machine, establishment of endotracheal intubation and establishment of the venous channel were analyzed. Multiple regression analysis was conducted to analyze the factors affecting CPR effect. Results ① During the period from December 2009 to December 2015, a total of 376 patients with cardiac arrest (CA) was registered, including 248 males and 128 females, with a median age of 68 (53, 78) years. Estimated median time interval from CA to CPR initiation was 5.0 (0.1, 20.0) minutes and there were 189 cases less than or equal to 5 minutes. The acute myocardial infarction (AMI) with 145 cases (38.6%) was the main etiology of CA. Initial shockable rhythm was found in 16 patients (7.0%) out of 230 out-of-hospital cardiac arrest (OHCA) patients, of whom 13 underwent ventricular fibrillation (5.7%), 3 underwent ventricular tachycardia (1.3%). Initial shockable rhythm was found in 47 patients (32.2%) out of 146 in-hospital cardiac arrest (IHCA) patients, of whom 40 underwent ventricular fibrillation (27.4%), and 7 underwent ventricular tachycardia (4.8%). CPR by a mechanical device (Thumper) was performed in 219 patients (58.2%). In 376 patients, 186 patients had return of spontaneous circulation (ROSC, 49.5%), a successful CPR (ROSC ≥ 24 hours) was found in 110 patients (29.3%), 99 patients was hospitalized alive (26.3%) and 40 patients were discharged alive (10.6%). In 146 cases of IHCA, 89 patients had ROSC (61.0%), a successful CPR was found in 63 patients (43.2%), 56 patients were hospitalized alive (38.4%), and 29 patients were discharged alive (19.9%). In 230 patients of OHCA, 89 patients had ROSC (38.7%), 65 patients received pre-hospital CPR (28.3%), a successful CPR was found in 47 patients (20.4%), 43 patients were hospitalized alive (18.7%), and 11 patients were discharged alive (4.8%). There were 37 patients had a successful CPR (69.8%), and 25 patients were discharged alive (47.2%) in 53 patients with ventricular fibrillation. ② There were 77 patients with valid video information for analysis of CPR performance, with 48 patients of OHCA, and 29 patients of IHCA. Delay median time from the patients presence in the resuscitation room to be placed in rescue bed was 22 (0, 33) seconds. Hands-off median times during 10 minutes of CPR was 41 (18, 90) seconds. Thumper installment median times was 43 (31, 69) seconds. Median time for endotracheal intubation was 59 (35, 109) seconds. Median time of venous catheter placement was 112 (70, 165) seconds. It was shown by multivariate regression analysis that there was a significant correlation between estimated time interval from CA to CPR performed, hands-off time and success rate of CPR (t1 = -3.452, t2 = -2.729), rate of discharge alive (t1 = -2.328, t2 = -2.736, all P < 0.05). In 48 OHCA patients, success rate of CPR was significantly correlated with estimated time interval from collapse to CPR performed (t = -2.409, P = 0.021). In 29 IHCA patients, success rate of CPR and rate of discharge alive was significantly correlated with hands-off times (t1 = -3.412, t2 = -2.536, both P < 0.05). Conclusions Survival to hospital discharge following CA is significantly correlated with the time interval from collapse to CPR performed and hands-off times in CPR. Installment and usage of Thumper should be postponed in order to reduce hands-off times during CPR in IHCA.