Your search keyword '"Zinkan L"' showing total 8 results

1. Transfer of simulated lumbar puncture training to the clinical setting.

Author

White ML, Jones R, Zinkan L, and Tofil NM

Published

2012

2. Performance of anesthesia residents during a simulated prone ventricular fibrillation arrest in an anesthetized pediatric patient.

Author

Tofil NM, Dollar J, Zinkan L, Youngblood AQ, Peterson DT, White ML, Stooksberry TN, Jarrell SA, and King C

Subjects

Adolescent, Anesthesiology education, Cardiopulmonary Resuscitation standards, Cardiopulmonary Resuscitation statistics & numerical data, Electric Countershock, Emergency Treatment standards, Emergency Treatment statistics & numerical data, Female, Humans, Patient Simulation, Pediatrics methods, Pediatrics standards, Prone Position, Time Factors, Anesthesia, Anesthesiology standards, Clinical Competence statistics & numerical data, Heart Arrest therapy, Internship and Residency, Ventricular Fibrillation therapy

Abstract

Background: Exposure to rare pediatric anesthesia emergencies varies depending on the residency program. Simulation can provide increased exposure to these rare events, improve performance of residents, and also aid in standardizing the curriculum., Objective: The purpose of this study was to evaluate time to recognize and treat ventricular fibrillation in a pediatric prone patient and to expose learners to the difficulties of managing emergencies in prone patients., Methods: Standardized simulation sessions were conducted monthly for 13 months with groups of 1-2 residents in each simulation. The scenario involved a prone patient undergoing posterior spinal fusion. Ventricular fibrillation occurred three minutes into the case. Sessions were viewed by simulation staff, and time to events was recorded. A scripted debriefing followed each case. Evaluations were completed by each participant., Results: The average time to start chest compressions was 77 s, and the average time in recognizing ventricular fibrillation was 76 s. No group performed chest compressions while prone. Only one group defibrillated in the prone position. Participants average time to request defibrillation was 108 s. While nine of 13 groups (69%) ordered an arterial blood gas, only five recognized hyperkalemia, and only four groups gave calcium., Conclusions: Anesthesia residents need additional training in recognizing and treating operative ventricular fibrillation, especially in prone patients and rarely encountered etiologies such as hyperkalemia. Training in the treatment of uncommon pediatric emergencies should be a focal point in anesthesia residency programs., (© 2014 John Wiley & Sons Ltd.)

Published

2014

3. Randomized trial comparing two mass casualty triage systems (JumpSTART versus SALT) in a pediatric simulated mass casualty event.

Author

Jones N, White ML, Tofil N, Pickens M, Youngblood A, Zinkan L, and Baker MD

Subjects

Alabama, Allied Health Personnel, Child, Child, Preschool, Emergency Medical Technicians, Female, Humans, Male, Pediatrics, Pilot Projects, Statistics, Nonparametric, Task Performance and Analysis, Algorithms, Computer Simulation, Emergency Medical Services methods, Mass Casualty Incidents, Triage methods

Abstract

Purpose: Several field triage systems have been developed to rapidly sort patients following a mass casualty incident (MCI). JumpSTART (Simple Triage and Rapid Transport) is a pediatric-specific MCI triage system. SALT (Sort, Assess, Lifesaving interventions, Treat/Transport) has been proposed as a new national standard for MCI triage for both adult and pediatric patients, but it has not been tested in a pediatric population. This pilot study hypothesizes that SALT is at least as good as JumpSTART in triage accuracy, speed, and ease of use in a simulated pediatric MCI., Methods: Paramedics were invited and randomly assigned to either SALT or JumpSTART study groups. Following randomization, subjects viewed a 15-minute PowerPoint lecture on either JumpSTART or SALT. Subjects were provided with a triage algorithm card for reference and were asked to assign triage categories to 10 pediatric patients in a simulated building collapse. The scenario consisted of 4 children in moulage and 6 high-fidelity pediatric simulators. Injuries and triage categories were based on a previously published MCI scenario. One investigator followed each subject to record time and triage assignment. All subjects completed a post-test survey and structured interview following the simulated disaster., Results: Forty-three paramedics were enrolled. Seventeen were assigned to the SALT group with an overall triage accuracy of 66% ±15%, an overtriage mean rate of 22 ± 16%, and an undertriage rate of 10 ± 9%. Twenty-six participants were assigned to the JumpSTART group with an overall accuracy of 66 ± 12%, an overtriage mean of 23 ±16%, and an undertriage rate of 11.2 ± 11%. Ease of use was not statistically different between the two systems (median Likert value of both systems = 2, p = 0.39) Time to triage per patient was statistically faster in the JumpSTART group (SALT = 34 ± 23 seconds, JumpSTART = 26 ± 19 seconds, p = 0.02). Both systems were prone to cognitive and affective error., Conclusion: SALT appears to be at least as good as JumpSTART in overall triage accuracy, overtriage, or undertriage rates in a simulated pediatric MCI. Both systems were considered easy to use. However, JumpSTART was 8 seconds faster per patient in time taken to assign triage designations.

Published

2014

4. High-fidelity simulation training for sleep technologists in a pediatric sleep disorders center.

Author

Avis KT, Lozano DJ, White ML, Youngblood AQ, Zinkan L, Niebauer JM, and Tofil NM

Subjects

Adult, Cardiopulmonary Resuscitation education, Humans, Infant, Life Support Care, Manikins, Respiratory Insufficiency etiology, Respiratory Insufficiency therapy, Sleep Wake Disorders therapy, Allied Health Personnel education, Emergencies, Patient Simulation, Sleep Wake Disorders complications

Abstract

Study Objectives: Severe events of respiratory distress can be life threatening. Although rare in some outpatient settings, effective recognition and management are essential to improving outcomes. The value of high-fidelity simulation has not been assessed for sleep technologists (STs). We hypothesized that knowledge of and comfort level in managing emergent pediatric respiratory events would improve with this innovative method., Methods: We designed a course that utilized high-fidelity human patient simulators (HPS) and that focused on rapid pediatric assessment of young children in the first 5 minutes of an emergency. We assessed knowledge of and comfort with critical emergencies that STs may encounter in a pediatric sleep center utilizing a pre/post-test study design., Results: Ten STs enrolled in the study, and scores from the pre- and posttest were compared utilizing a paired samples t-test. Mean participant age was 42 ± 11 years, with average of 9.3 ± 3.3 years of ST experience but minimal experience in managing an actual emergency. Average pretest score was 54% ± 17% correct and improved to 69% ± 16% after the educational intervention (p < 0.05). Participant ratings indicated the course was a well-received, innovative educational methodology., Conclusions: A simulation course focusing on respiratory emergencies requiring basic life support skills during the first 5 min of distress can significantly improve the knowledge of STs. Simulation may provide a highly useful methodology for training STs in the management of rare life-threatening events.

Published

2012

5. Pediatric intensive care simulation course: a new paradigm in teaching.

Author

Tofil NM, Benner KW, Zinkan L, Alten J, Varisco BM, and White ML

Abstract

Objective: True pediatric emergencies are rare. Because resident work hours are restricted and national attention turns toward patient safety, teaching methods to improve physician performance and patient care are vital. We hypothesize that a critical-care simulation course will improve resident confidence and performance in critical-care situations., Interventions: We developed a monthly pediatric intensive care unit simulation course for second-year pediatric residents that consisted of weekly 1-hour sessions during both of the residents' month-long pediatric intensive care unit rotations. All scenarios used high-fidelity pediatric simulators and immediate videotape-assisted debriefing sessions. In addition, simulated intraosseous line insertion and endotracheal intubations were also performed., Results: All residents improved their comfort level and confidence in performing individual key resuscitation tasks. The largest improvements were seen with their perceived ability to intubate children and place intraosseous lines. Both of these skills improved from baseline and compared to third-year-resident controls who had pediatric intensive care unit rotations but no simulations (P = .05 and P = .07, respectively). Videotape reviews showed only 54% ± 12% of skills from a scenario checklist performed correctly., Conclusions: Our simulation-based pediatric intensive care unit training course improves second-year pediatric residents' comfort level but not performance during codes, as well as their perceived intubation and intraosseous ability. Videotape reviews show discordance between objective performance and self-assessment. Further work is necessary to elucidate the reasons for this difference as well as the appropriate role for simulation in the new graduate medical education climate, and to create new teaching modalities to improve resident performance.

Published

2011

6. Use of simulation to enhance learning in a pediatric elective.

Author

Tofil NM, Benner KW, Worthington MA, Zinkan L, and White ML

Subjects

Anti-Arrhythmia Agents administration & dosage, Anti-Arrhythmia Agents pharmacology, Anti-Arrhythmia Agents therapeutic use, Bronchodilator Agents administration & dosage, Bronchodilator Agents pharmacology, Bronchodilator Agents therapeutic use, Clinical Competence, Communication, Educational Technology, Hospitals, Pediatric, Humans, Infant, Metered Dose Inhalers, Mothers education, Mothers psychology, Patient Simulation, Patient-Centered Care, Pharmaceutical Services, Problem-Based Learning methods, Program Evaluation, Referral and Consultation, Respiratory Insufficiency diagnosis, Respiratory Insufficiency drug therapy, Tachycardia, Supraventricular diagnosis, Tachycardia, Supraventricular drug therapy, Tachycardia, Supraventricular therapy, Computer Simulation, Computer-Assisted Instruction, Education, Pharmacy methods, Learning, Manikins

Abstract

Objectives: To assess the impact on learning of adding a pediatric human patient simulation to a pharmacy course., Design: Pharmacy students enrolled in a pediatric elective participated in 1 inpatient and 1 outpatient scenario using a pediatric patient simulator. Immediately following each case, reflective debriefing occurred., Assessment: Forty-two students participated in the simulation activity over 2 academic years. A pretest and posttest study design was used, with average scores 4.1 + or - 1.2 out of 9 on pretest and average 7.0 + or - 1.5 out of 9 on posttest (p < 0.0001). Ninety-five percent (40/42) of students' scores improved. Students felt the learning experiences were positive and realistic., Conclusions: Pharmacy students' knowledge and application skills improved through use of pediatric simulation exercises.

Published

2010

7. Initiation of a pediatric mock code program at a children's hospital.

Author

Tofil NM, Lee White M, Manzella B, McGill D, and Zinkan L

Subjects

Adult, Child, Child, Preschool, Data Collection, Educational Status, Female, Heart Arrest prevention & control, Hospitals, Pediatric, Humans, Infant, Infant, Newborn, Internal Medicine education, Male, Models, Educational, Patient Care Team, Pediatrics education, Respiratory Insufficiency complications, Self-Assessment, Cardiopulmonary Resuscitation education, Clinical Competence, Heart Arrest therapy, Internship and Residency methods, Program Development, Respiratory Insufficiency therapy

Abstract

Background: Pediatric cardiopulmonary arrests are rare. Mock codes were instituted to bridge the gap between opportunity and reality., Aim: The goal was to improve medical caregivers' skills in pediatric resuscitation., Methods: All pediatric and internal medicine/pediatric (med/peds) residents were anonymously surveyed pre- and post-intervention about confidence level about codes and code skills. Twenty mock codes were conducted during the 1 year intervention period. Statistical comparisons were made between each resident pre- and post-survey, graduating third-year residents (PGY3s) prior to intervention versus PGY3s with mock codes and pediatric versus med/peds residents., Results: All residents significantly improved in their perception of overall skill level during the study (p < 0.0001). PGY3s were significantly more confident in their skills than PGY2s or PGY1s and PGY2s were significantly more confident than PGY1s both pre- and post-mock codes (p < 0.0001). Med/peds residents were significantly more confident in their skills than pediatric residents both pre- (p = 0.041) and post-intervention (p = 0.016). The two skills with the lowest score post-intervention were the ability to place an interosseous line and the ability to manage cardiac dysrhythmias., Conclusions: Pediatric mock codes can improve resident confidence and self-assessment of their resuscitation skills. Data from surveys such as this can be used to design future skill-based educational initiatives.

Published

2009

8. Can clinical parameters predict fractures in acute pediatric wrist injuries?

Author

Pershad J, Monroe K, King W, Bartle S, Hardin E, and Zinkan L

Subjects

Acute Disease, Adolescent, Analysis of Variance, Chi-Square Distribution, Child, Child, Preschool, Diagnosis, Differential, Double-Blind Method, Emergency Service, Hospital, Female, Humans, Male, Pilot Projects, Predictive Value of Tests, Prospective Studies, Radiography, Radius Fractures diagnostic imaging, Range of Motion, Articular, Sensitivity and Specificity, Ulna Fractures diagnostic imaging, Wrist Injuries diagnostic imaging, Hand Strength, Physical Examination methods, Radius Fractures diagnosis, Ulna Fractures diagnosis, Wrist Injuries diagnosis

Abstract

Objective: Fractures around the wrist are common in pediatric patients presenting to the emergency department (ED). This pilot study was aimed at identifying clinical variables that are most likely to be associated with a fracture., Methods: This was a prospective blinded case series of patients 3-18 years of age presenting with an acute (<3 days) wrist injury, without obvious deformity. A team of five investigators blinded to the eventual radiographic findings evaluated patients. Physical examination variables included range of motion (ROM), site of maximal tenderness, and functional deficit. The latter was determined objectively, by recording any difference in grip strength between the injured and noninjured hands. Diagnostic radiographs were obtained for all patients. Univariate analysis using Wilks' log likelihood ratio test was performed to identify clinical variables associated with confirmed wrist fractures. Sample size was determined based on the ability to detect a difference of 15 degrees in the ROM variables, 20% point differences in grip strength, and 30% proportion differences in categorical variables using a power of 0.8 and a two-tailed of 0.05., Results: The ROMs were not significantly different between the fracture (Fx) and nonfracture (NFx) group. There was significant change in the grip strength between the Fx and NFx groups (t = 3.3, p = 0.0019). Tenderness over the distal radius was also associated with a greater likelihood of a fracture (G(2) = 5.0, p = 0.02). Sensitivity of clinical prediction was found to be 79%, and specificity was 63%. The false-negative rate was 0.21 and the false-positive rate was 0.37, while the positive predictive value was found to be 0.68 and negative predictive value 0.75., Conclusions: Distal radius point tenderness and a 20% or more decrease in grip strength were predictive of fractures.

Published

2000