Detection of respiratory compromise by acoustic monitoring, capnography, and brain function monitoring during monitored anesthesia care
JOURNAL OF CLINICAL MONITORING AND COMPUTING
2014; 28 (6): 561-566
Simulation-based mastery learning with deliberate practice improves clinical performance in spinal anesthesia.
Anesthesiology research and practice
2014; 2014: 659160-?
Episodes of apnea in sedated patients represent a risk of respiratory compromise. We hypothesized that acoustic monitoring would be equivalent to capnography for detection of respiratory pauses, with fewer false alarms. In addition, we hypothesized that the patient state index (PSI) would be correlated with the frequency of respiratory pauses and therefore could provide information about the risk of apnea during sedation. Patients undergoing sedation for surgical procedures were monitored for respiration rate using acoustic monitoring and capnography and for depth of sedation using the PSI. A clinician blinded to the acoustic and sedation monitor observed the capnograph and patient to assess sedation and episodes of apnea. Another clinician retrospectively reviewed the capnography and acoustic waveform and sound files to identify true positive and false positive respiratory pauses by each method (reference method). Sensitivity, specificity, and likelihood ratio for detection of respiratory pause was calculated for acoustic monitoring and capnography. The correlation of PSI with respiratory pause events was determined. For the 51 respiratory pauses validated by retrospective analysis, the sensitivity, specificity, and likelihood ratio positive for detection were 16, 96 %, and 3.5 for clinician observation; 88, 7 %, and 1.0 for capnography; and 55, 87 %, and 4.1 for acoustic monitoring. There was no correlation between PSI and respiratory pause events. Acoustic monitoring had the highest likelihood ratio positive for detection of respiratory pause events compared with capnography and clinician observation and, therefore, may provide the best method for respiration rate monitoring during these procedures.
View details for DOI 10.1007/s10877-014-9556-8
View details for Web of Science ID 000345768500008
View details for PubMedID 24420342
The stanford anesthesia faculty teaching scholars program: summary of faculty development, projects, and outcomes.
Journal of graduate medical education
2013; 5 (2): 294-298
Introduction. Properly performing a subarachnoid block (SAB) is a competency expected of anesthesiology residents. We aimed to determine if adding simulation-based deliberate practice to a base curriculum improved performance of a SAB. Methods. 21 anesthesia residents were enrolled. After baseline assessment of SAB on a task-trainer, all residents participated in a base curriculum. Residents were then randomized so that half received additional deliberate practice including repetition and expert-guided, real-time feedback. All residents were then retested for technique. SABs on all residents' next three patients were evaluated in the operating room (OR). Results. Before completing the base curriculum, the control group completed 81% of a 16-item performance checklist on the task-trainer and this increased to 91% after finishing the base curriculum (P < 0.02). The intervention group also increased the percentage of checklist tasks properly completed from 73% to 98%, which was a greater increase than observed in the control group (P < 0.03). The OR time required to perform SAB was not different between groups. Conclusions. The base curriculum significantly improved resident SAB performance. Deliberate practice training added a significant, independent, incremental benefit. The clinical impact of the deliberate practice intervention in the OR on patient care is unclear.
View details for DOI 10.1155/2014/659160
View details for PubMedID 25157263
Use of Tablet (iPad (R)) as a Tool for Teaching Anesthesiology in an Orthopedic Rotation
REVISTA BRASILEIRA DE ANESTESIOLOGIA
2012; 62 (2): 214-222
The Stanford Anesthesia Teaching Scholars Program was launched in 2007 to further pedagogic training of faculty and improve residency education.The goals of this article are to describe the program intervention and improvements made based on participant feedback, summarize the characteristics of the faculty enrolled and projects undertaken, and report on program outcomes tracked to date.THE TEACHING SCHOLARS PROGRAM HOUSED WITHIN THE DEPARTMENT OF ANESTHESIA SUPPORTS FACULTY IN THESE AREAS: (1) attending education-related meetings; (2) engaging in a monthly seminar on core topics paired with independent study reading; and (3) undertaking a project to improve resident education. Structured interviews with all graduates (n = 19; 47% women) were conducted using a pilot-tested questionnaire.A total of 15 of 19 Scholars (79%) were instructors/assistant professors. Sixteen Scholars (84%) attended an off-site education meeting. The Scholars pursued a variety of projects, including curriculum (53%), teaching (26%), administration (11%), assessment (5%), and advising/mentoring (5%). Projects were fully completed by 13 of 19 participants (68%), and 12 of 19 projects (63%) are currently integrated into the residency. Completed projects were published/presented at conferences by 4 of 13 participants (31%), and education grants were received by 3 of 19 participants (16%).This is the first description of a faculty development (education) program in an anesthesiology department. The program has been well accepted by participants and resulted in increased educational products, some of which have become a permanent part of the residency curriculum. This educational innovation can be replicated in other departments of anesthesiology provided that funding is available for faculty time and meeting expenses.
View details for DOI 10.4300/JGME-D-12-00246.1
View details for PubMedID 24404276
The goal of this study was to compare scores on house staff evaluations of "overall teaching quality" during a rotation in anesthesia for orthopedics in the first six months (n=11 residents were provided with curriculum in a printed binder) and in the final six months (n=9 residents were provided with the same curriculum in a tablet computer (iPad, Apple®, Inc, Cupertino, Ca)).At the beginning of the two-week rotation, the resident was given an iPad containing: a syllabus with daily reading assignments, rotation objectives according to the ACGME core competencies, and journal articles. Prior to the study, these curriculum materials had been distributed in a printed binder. The iPad also provided peer reviewed internet sites and direct access to online textbooks, but was not linked to the electronic medical record. At the end of the rotation, residents anonymously answered questions to evaluate the rotation on an ordinal scale from 1 (unsatisfactory) to 5 (outstanding). All residents were unaware that the data would be analyzed retrospectively for this study.The mean global rating of the rotation as assessed by "overall teaching quality of this rotation" increased from 4.09 (N=11 evaluations before intervention, SD 0.83, median 4, range 3-5) to 4.89 (N=9 evaluations after intervention, SD 0.33, median 5, range 4-5) p=0.04.Residents responded favorably to the introduction of an innovative iPad based curriculum for the orthopedic anesthesia rotation. More studies are needed to show how such mobile computing technologies can enhance learning, especially since residents work at multiple locations, have duty hour limits, and the need to document resident learning in six ACGME core competencies.
View details for Web of Science ID 000301768500007
View details for PubMedID 22440376