Infectious Disease Risk Associated with Contaminated Propofol Anesthesia, 1989–2014

Administration of propofol, the most frequently used intravenous anesthetic worldwide, has been associated with several iatrogenic infections despite its relative safety. Little is known regarding the global epidemiology of propofol-related outbreaks and the effectiveness of existing preventive strategies. In this overview of the evidence of propofol as a source of infection and appraisal of preventive strategies, we identified 58 studies through a literature search in PubMed, Embase, and Lilacs for propofol-related infections during 1989–2014. Twenty propofol-related outbreaks have been reported, affecting 144 patients and resulting in 10 deaths. Related factors included reuse of syringes for multiple patients and prolonged exposure to the environment when vials were left open. The addition of antimicrobial drugs to the emulsion has been instituted in some countries, but outbreaks have still occurred. There remains a lack of comprehensive information on the effectiveness of measures to prevent future outbreaks

Abnormal movements in critical care patients with brain injury: a diagnostic approach

Abnormal movements are frequently encountered in patients with brain injury hospitalized in intensive care units (ICUs), yet characterization of these movements and their underlying pathophysiology is difficult due to the comatose or uncooperative state of the patient. In addition, the available diagnostic approaches are largely derived from outpatients with neurodegenerative or developmental disorders frequently encountered in the outpatient setting, thereby limiting the applicability to inpatients with acute brain injuries. Thus, we reviewed the available literature regarding abnormal movements encountered in acutely ill patients with brain injuries. We classified the brain injury into the following categories: anoxic, vascular, infectious, inflammatory, traumatic, toxic-metabolic, tumor-related and seizures. Then, we identified the abnormal movements seen in each category as well as their epidemiologic, semiologic and clinicopathologic correlates. We propose a practical paradigm that can be applied at the bedside for diagnosing abnormal movements in the ICU. This model seeks to classify observed abnormal movements in light of various patient-specific factors. It begins with classifying the patient’s level of consciousness. Then, it integrates the frequency and type of each movement with the availability of ancillary diagnostic tests and the specific etiology of brain injury

Infectious Disease Risk Associated with Contaminated Propofol Anesthesia, 1989–2014

Administration of propofol, the most frequently used intravenous anesthetic worldwide, has been associated with several iatrogenic infections despite its relative safety. Little is known regarding the global epidemiology of propofol-related outbreaks and the effectiveness of existing preventive strategies. In this overview of the evidence of propofol as a source of infection and appraisal of preventive strategies, we identified 58 studies through a literature search in PubMed, Embase, and Lilacs for propofol-related infections during 1989–2014. Twenty propofol-related outbreaks have been reported, affecting 144 patients and resulting in 10 deaths. Related factors included reuse of syringes for multiple patients and prolonged exposure to the environment when vials were left open. The addition of antimicrobial drugs to the emulsion has been instituted in some countries, but outbreaks have still occurred. There remains a lack of comprehensive information on the effectiveness of measures to prevent future outbreaks

Antiepileptic drugs in critically ill patients

Abstract Background The incidence of seizures in intensive care units ranges from 3.3% to 34%. It is therefore often necessary to initiate or continue anticonvulsant drugs in this setting. When a new anticonvulsant is initiated, drug factors, such as onset of action and side effects, and patient factors, such as age, renal, and hepatic function, should be taken into account. It is important to note that the altered physiology of critically ill patients as well as pharmacological and nonpharmacological interventions such as renal replacement therapy, extracorporeal membrane oxygenation, and target temperature management may lead to therapeutic failure or toxicity. This may be even more challenging with the availability of newer antiepileptics where the evidence for their use in critically ill patients is limited. Main body This article reviews the pharmacokinetics and pharmacodynamics of antiepileptics as well as application of these principles when dosing antiepileptics and monitoring serum levels in critically ill patients. The selection of the most appropriate anticonvulsant to treat seizure and status epileptics as well as the prophylactic use of these agents in this setting are also discussed. Drug-drug interactions and the effect of nonpharmacological interventions such as renal replacement therapy, plasma exchange, and extracorporeal membrane oxygenation on anticonvulsant removal are also included. Conclusion Optimal management of antiepileptic drugs in the intensive care unit is challenging given altered physiology, polypharmacy, and nonpharmacological interventions, and requires a multidisciplinary approach where appropriate and timely assessment, diagnosis, treatment, and monitoring plans are in place

Safety, efficiency, and cost-effectiveness of a multidisciplinary percutaneous tracheostomy program

Objective: The frequency of bedside percutaneous tracheostomies is increasing in intensive care medicine, and both safety and efficiency of care are critical elements in continuing success of this procedure. Prioritizing patient safety, a tracheostomy team was created at our institution to provide bedside expertise in surgery, anesthesiology, respiratory, and technical support. This study was performed to evaluate the metrics of patient outcome, efficiency of care, and cost-benefit analysis of the multidisciplinary Johns Hopkins Percutaneous Tracheostomy Program. Design: A review was performed for patients who received tracheostomies in 2004, the year before the Johns Hopkins Percutaneous Tracheostomy Program was established, and those who received tracheostomies in 2008, the year following the program\u27s establishment. Comparative outcomes were evaluated, including the efficiency of procedure and intensive care unit length of stay, complication rate including bleeding, hypoxia, loss of airway, and a financial cost-benefit analysis. Setting: Single-center, major university hospital. Patients: The sample consisted of 363 patients who received a tracheostomy in the years 2004 and 2008. Measurements and main results: The number of percutaneous procedures increased from 59 of 126 tracheostomy patients in 2004, to 183 of 237 in 2008. There were significant decreases in the prevalence of procedural complications, particularly in the realm of airway injuries and physiologic disturbances. Regarding efficiency, the structured program reduced the time to tracheostomy and overall procedural time. The intensive care unit length of stay in nonpulmonary patients and improvement in intensive care unit and operating room back-fill efficiency contributed to an overall institutional financial benefit. Conclusions: An institutionally subsidized, multi-disciplinary percutaneous tracheostomy program can improve the quality of care in a cost-effective manner by decreasing the incidence of tracheostomy complications and improving both the time to tracheostomy, duration of procedure, and postprocedural intensive care unit sta