Anesthesia and analgesia
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Anesthesia and analgesia · Jan 2009
Meta AnalysisCardiovascular safety of the cyclooxygenase-2 selective inhibitors parecoxib and valdecoxib in the postoperative setting: an analysis of integrated data.
Studies of parecoxib, the inactive prodrug of the cyclooxygenase-2 selective inhibitor valdecoxib, and valdecoxib for postoperative pain relief in patients undergoing coronary artery bypass graft surgery revealed an increased risk of cardiovascular (CV) adverse events compared with placebo. We conducted this study to address whether parecoxib and valdecoxib increased CV risk in noncardiac surgery patients. ⋯ In the largest analysis of the CV risk of cyclooxygenase selective inhibitors or nonsteroidal antiinflammatory drugs for perioperative pain management, parecoxib and valdecoxib were not found to increase the risk of CV adverse events after noncardiac surgery.
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Anesthesia and analgesia · Jan 2009
ReviewIntraoperative Doppler tissue imaging is a valuable addition to cardiac anesthesiologists' armamentarium: a core review.
Endocardial motion and surface/volume changes during the cardiac cycle are echocardiographic methods for regional (analysis of wall motion) and global (fractional area change, stroke volume, and ejection fraction) evaluation of cardiac function. These conventional methods can be subjective, and/or time consuming and, depending upon circumstances, may divert the anesthesiologist's attention from intraoperative activities. Doppler tissue imaging (DTI) is a novel echocardiographic technique, which displays and measures systolic and diastolic velocity from a myocardial region. ⋯ The numeric information (velocity or time intervals) is easily obtained and measured. Assessment of systolic and diastolic function on regional (detection of ischemia) as well as global level (ejection fraction, grading of diastolic dysfunction) and evaluation of filling pressure can be derived from DTI signals and used by any practicing cardiac anesthesiologist. This review describes the principles, imaging modalities, and clinical applications of DTI.
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Anesthesia and analgesia · Jan 2009
A novel process for introducing a new intraoperative program: a multidisciplinary paradigm for mitigating hazards and improving patient safety.
Since the Institute of Medicine's report, To Err is Human, was published, numerous interventions have been designed and implemented to correct the defects that lead to medical errors and adverse events; however, most efforts were largely reactive. Safety, communication, team performance, and efficiency are areas of care that attract a great deal of attention, especially regarding the introduction of new technologies, techniques, and procedures. We describe a multidisciplinary process that was implemented at our hospital to identify and mitigate hazards before the introduction of a new technique: high-dose-rate intraoperative radiation therapy, (HDR-IORT). ⋯ Multiple benefits were derived from the use of this systematic process to introduce the HDR-IORT technique; namely, the safety and efficiency of care for this select patient population was optimized, and this process mitigated harmful or adverse events before the inclusion of actual patients. Further work is needed, but the process outlined in this paper can be universally applied to the introduction of any new technologies, treatments, or procedures.