RESUMEN
BACKGROUND: Propofol-based total intravenous anesthesia is gaining popularity in pediatric anesthesia. Electroencephalogram can be used to guide propofol dosing to the individual patient to mitigate against overdosing and adverse events. However, electroencephalogram interpretation and propofol pharmacokinetics are not sufficiently taught in training programs to confidently deploy electroencephalogram-guided total intravenous anesthesia. AIMS: We conducted a quality improvement project with the smart aim of increasing the percentage of electroencephalogram-guided total intravenous anesthesia cases in our main operating room from 0% to 80% over 18 months. Balancing measures were number of total intravenous anesthesia cases, emergence times, and perioperative emergency activations. METHODS: The project key drivers were education, equipment, and electronic health record modifications. Plan-Do-Study-Act cycles included: (1) providing journal articles, didactic lectures, intraoperative training, and teaching documents; (2) scheduling electroencephalogram-guided total intravenous anesthesia teachers to train faculty, staff, and fellows for specific cases and to assess case-based knowledge; (3) adding age-based propofol dosing tables and electroencephalogram parameters to the electronic health record (EPIC co, Verona, WI); (4) procuring electroencephalogram monitors (Sedline, Masimo Inc). Electroencephalogram-guided total intravenous anesthesia cases and balancing measures were identified from the electronic health record. The smart aim was evaluated by statistical process control chart. RESULTS: After the four Plan-Do-Study-Act cycles, electroencephalogram-guided total intravenous anesthesia increased from 5% to 75% and was sustained at 72% 9 months after project completion. Total intravenous anesthesia cases/mo and number of perioperative emergency activations did not change significantly from start to end of the project, while emergence time for electroencephalogram-guided total intravenous anesthesia was greater statistically but not clinically (total intravenous anesthesia without electroencephalogram [16 ± 10 min], total intravenous anesthesia with electroencephalogram [18 ± 9 min], sevoflurane [17 ± 9 min] p < .001). CONCLUSION: Quality improvement methods may be deployed to adopt electroencephalogram-guided total intravenous anesthesia in a large academic pediatric anesthesia practice. Keys to success include education, in operating room case training, scheduling teachers with learners, electronic health record modifications, and electroencephalogram devices and supplies.
Asunto(s)
Propofol , Niño , Humanos , Anestésicos Intravenosos , Hospitales Pediátricos , Mejoramiento de la Calidad , Anestesia General/métodos , Electroencefalografía , Anestesia Intravenosa/métodosRESUMEN
Children presenting for anesthesia are at high risk for medication error during their care. In this educational review, we address the rates of medication error in pediatric patients undergoing anesthesia, why they are at higher risk than adults, and why reporting chronically underestimates the number of medication errors incurred during the anesthetic care of children. We also introduce the Anesthesia Patient Safety Foundation and Wake Up Safe, two safety organizations that have led the call to decrease medication errors. We discuss various tools to increase medication safety, as championed by Anesthesia Patient Safety Foundation and Wake Up Safe, including human factors research and highlight a few studies that have evaluated and addressed medication safety in the anesthesia environment.
Asunto(s)
Anestesia , Humanos , Niño , Anestesia/efectos adversosRESUMEN
BACKGROUND: Propofol total intravenous anesthesia (TIVA) is increasingly popular in pediatric anesthesia, but education on its use is variable and over-dosage adverse events are not uncommon. Recent work suggests that electroencephalogram (EEG) parameters can guide propofol dosing in the pediatric population. This education quality improvement project aimed to implement a standardized EEG TIVA training program over 12 months in a large pediatric anesthesia division. METHODS: The division consisted of 63 faculty, 11 clinical fellows, 32 residents, and 28 nurse anesthetists at the Children's Hospital of Philadelphia. The program was assessed for effectiveness (a significant improvement in EEG knowledge scores), scalability (training 50% of fellows and staff), and sustainability (recurring EEG lectures for 80% of rotating residents and 100% of new fellows and staff). The key drivers included educational content development (lectures, articles, and hand-outs), training a cohort of EEG TIVA trainers, intraoperative teaching (teaching points and dosing tables), decision support tools (algorithms and anesthesia electronic record pop-ups), and knowledge tests (written exam and verbal quiz during cases). RESULTS: Over 12 months, 78.5% of the division (62/79) completed EEG training and test scores improved (mean score 38% before training vs 59% after training, p < .001). Didactic lectures were given to 100% of the fellows, 100% (11/11) of new staff, and 80% (4/5 blocks) of rotating residents. CONCLUSION: This quality improvement education project successfully trained pediatric anesthesia faculty, staff, residents, and fellows in EEG-guided TIVA. The training program was effective, scalable, and sustainable over time for newly hired faculty staff and rotating fellows and residents.
Asunto(s)
Anestesia , Anestesiología , Propofol , Anestesiología/educación , Niño , Electroencefalografía , Humanos , PhiladelphiaRESUMEN
Obstructive sleep apnea (OSA) has a prevalence of up to 5% in children and 50% in obese children. OSA is associated with various comorbidities in the general population and in the perioperative period. In this review, we will provide background of OSA and insights into the available treatment options both surgically and medically. Unlike adults, most pediatric OSA is treated with adenotonsillectomy. Continuous positive airway pressure therapy is the commonly used medical treatment. Management of pediatric OSA is multidisciplinary. We will discuss the surgical options and medical options of managing pediatric OSA.