Anaesthesia and intensive care
-
Anaesth Intensive Care · Jan 2008
The pulmonary artery catheter in Australasia: a survey investigating intensive care physicians' knowledge and perception of future trends in use.
A survey was conducted to assess the knowledge and trends of use of the pulmonary artery catheter amongst intensive care practitioners in Australasia. A 31-item multiple choice questionnaire, identical to one previously trialled in studies in the United States and Europe, was distributed to all registered intensive care specialists and trainees working in intensive care units in Australasia. Five-hundred-and-forty-one questionnaires were distributed and 151 (27.9%) were returned, with an average mark of 82.7% +/- 9.3% and a range of 53.3 to 100%. ⋯ Sixty-one percent of respondents indicated they either agreed or strongly agreed with the statement that the use of echocardiography should supersede the use of the pulmonary artery catheter by intensive care specialists in the future. We concluded that in this study, knowledge of the pulmonary artery catheter and its use is better in Australasia than in previous studies in North America and Europe. The majority of respondents in Australasia believe that echocardiography will supersede the use of the pulmonary artery catheter in the future.
-
Anaesth Intensive Care · Jan 2008
Prediction of successful defibrillation in human victims of out-of-hospital cardiac arrest: a retrospective electrocardiographic analysis.
In the present study we sought to examine the efficacy of an electrocardiographic parameter, 'amplitude spectrum area' (AMSA), to predict the likelihood that any one electrical shock would restore a perfusing rhythm during cardiopulmonary resuscitation in human victims of out-of-hospital cardiac arrest. AMSA analysis is not invalidated by artefacts produced by chest compression and thus it can be performed during CPR, avoiding detrimental interruptions of chest compression and ventilation. We hypothesised that a threshold value of AMSA could be identified as an indicator of successful defibrillation in human victims of cardiac arrest. ⋯ An AMSA value of 12 mV-Hz was able to predict the success of each defibrillation attempt with a sensitivity of 0.91 and a specificity of 0.97. In conclusion, AMSA analysis represents a clinically applicable method, which provides a real-time prediction of the success of defibrillation attempts. AMSA may minimise the delivery of futile and detrimental electrical shocks, reducing thereby post-resuscitation myocardial injury.
-
Anaesth Intensive Care · Jan 2008
Attitudes towards and evaluation of medical emergency teams: a survey of trainees in intensive care medicine.
A survey was conducted to explore the perception of intensive care registrars on the impact of activities outside the intensive care unit (ICU), particularly in medical emergency teams, on their training and the care of patients. An anonymous mail-out survey was sent to 356 trainees registered with the Joint Faculty of Intensive Care Medicine, half of whom were determined to be involved in ICU duties. No patients were involved and respondents participated voluntarily. ⋯ Sixty-six percent of respondents reported that medical emergency team involvement had a positive effect on training but 77% reported little or no supervision of team duties. While trainees did not believe they spent too much time performing medical emergency team duties, the time spent on medical emergency teams at night, when ICU staffing levels are at their lowest, was the same as during the day. Serious concern was expressed about the negative impact of medical emergency team activities on their ability to care for ICU patients and the additional stress on ICU medical and nursing staff Overall, ICU trainees regarded participation in a medical emergency team as positive on training and on patient care in wards, but other results have resource implications for the provision of clinical emergency response systems, care of patients in ICUs and the training of the future intensive care workforce.
-
Anaesth Intensive Care · Jan 2008
Bayesian approach to predict hospital mortality of intensive care readmissions during the same hospitalisation.
No specific prognostic model has been developed for patients readmitted to the intensive care unit (ICU) during the same hospitalisation. This study assesses the performance of the Acute Physiology and Chronic Health Evaluation (APACHE) II predicted mortality measured at the time of ICU readmission and whether incorporating information prior to the readmission will improve its performance to predict hospital mortality of patients readmitted to ICU during the same hospitalisation. A total of 602 readmissions during the same hospitalisation between 1987 and 2002 were identified. ⋯ In the subgroups of patients readmitted within seven days of discharge, the readmission APACHE II predicted mortality was also significantly better than the first admission APACHE II predicted mortality in discriminating between survivors and non-survivors (area under the receiver operating characteristic curve: 0.785 vs. 0.676, z statistic = 2.93; P = 0.003). Incorporating the first admission APACHE II predicted mortality to the readmission APACHE II predicted mortality, either by multilevel likelihood ratios or logistic regression, did not significantly improve its discrimination (area under the receiver operating characteristic curve: 0.792 vs. 0.785, z statistic = 0.52; P = 0.603). Our results suggested that information on prior ICU admission during the same hospitalisation is not as important as the severity of illness measured at the time of readmission in determining the mortality of intensive care readmissions during the same hospitalisation.