Project description:Background The use of point-of-care ultrasound as a diagnostic and interventional tool is rapidly becoming standard of care in critical care medicine; a standardized training curriculum is needed to ensure provider proficiency. Objective This study aimed to describe a longitudinal critical care ultrasound (CCUS) curriculum in a pulmonary critical care medicine (PCCM) fellowship training program. It evaluated the curriculum’s impact on fellows’ knowledge, skills, and self-reported confidence and retention of these attributes. Methods We conducted a prospective observational study of a longitudinal CCUS training program within a single PCCM fellowship training program. Knowledge, skills, and confidence of 22 fellows were assessed at baseline; after initial training; and at 6, 12, and 18 months in five domains (ultrasound basics, vascular, lung/pleural, abdomen, and cardiac). We quantified changes in CCUS knowledge, confidence, and skills by fellowship class and assessed for longitudinal retention of these three attributes. The difference in scores between new first-year fellows undergoing formal training and second-year fellows with previous informal training was compared at matched time points. Results After the initial formal training, there was a significant increase in knowledge, skills, and confidence scores, which were maintained or continued to increase up to 18 months. Fellows with 1 year of formal training also had a higher level of knowledge and skills than fellows with 1 year of informal training, although they had similar levels of self-reported confidence in their skills. Conclusion A formal, longitudinal CCUS curriculum implemented in a PCCM fellowship program improves trainees’ knowledge and skills in various ultrasound domains in addition to their confidence in using ultrasound for patient care. A longitudinal curriculum results in retention of all three attributes and appeared to be more effective than an informal training program based on teaching during rounds, but this needs to be replicated in a larger cohort.

Project description:ObjectivesThe objective was to bridge the relative educational gap for newly matched emergency medicine preinterns between Match Day and the start of internship by implementing an Accreditation Council for Graduate Medical Education Milestone (ACGME)-based virtual case curriculum over the social media platform Slack.MethodsWe designed a Milestone-based curriculum of 10 emergency department clinical cases and used Slack to implement it. An instructor was appointed for each participating institution to lead the discussion and encourage collaboration among preinterns. Pre- and postcurriculum surveys utilized 20 statements adapted from the eight applicable Milestones to measure the evolution of preintern self-reported perceived preparedness (PP) as well as actual clinical knowledge (CK) performance on a case-based examination.ResultsA total of 11 institutions collaborated and 151 preinterns were contacted, 127 of whom participated. After participating in the Slack intern curriculum (SIC), preinterns reported significant improvements in PP regarding multiple Milestone topics. They also showed improved CK regarding the airway management Milestone based on examination performance.ConclusionsImplementation of our SIC may ease the difficult transition between medical school and internship for emergency medicine preinterns. Residency leadership and medical school faculty will benefit from knowledge of preintern PP, specifically of their perceived strengths and weaknesses, because this information can guide curricular focus at the end of medical school and beginning of internship. Limitations of this study include variable participation and a high attrition rate. Further studies will address the utility of such a virtual curriculum for preinterns and for rotating medical students who have been displaced from clinical rotations during the novel coronavirus pandemic.

Project description:BackgroundUltrasound training is crucial for residents across specialties but presents challenges for residents that are not specializing in ultrasound. Investigating the effectiveness of competency-based ultrasound curricula for a wider range of medical specialties is imperative.MethodsA total of 250 residents who attended the ultrasound curriculum between June 2023 and June 2024 were included in the analysis. The competency-based curriculum combined theoretical and practical training. The evaluations were taken both before the residents participated in the ultrasound curriculum (pre-training) and after completing the training (post-training). Resident feedback was also collected.ResultsPost-training, all the grades improved interpretation scores and reduced answer times, resulting in knowledge homogenization. Imaging specialty residents initially scored higher, but non-imaging-related residents showed greater improvements post-training; feedback highlighted the need for an expanded training scope, more hands-on practice, and optimized schedules, emphasizing the importance of comprehensive ultrasound training.ConclusionsThe competency-based ultrasound curriculum enhances theoretical and practical skills, standardizing knowledge across grades and benefiting non-imaging-related residents the most. This study supports the integration of structured ultrasound training in residency programs to improve clinical competencies.

Project description:Background: Dedicated ambulatory training during pulmonary and critical care medicine (PCCM) fellowships is often limited. A novel 2-year longitudinal outpatient pulmonary fellowship curriculum was previously developed, piloted, and studied. The exportability and potential impact of this ambulatory curriculum on PCCM fellowship training nationally is not known. Objective: We aim to understand the current state of ambulatory training in PCCM fellowships and the impact of a standardized outpatient curriculum on fellows' ambulatory knowledge and competency. Methods: Nineteen programs participated in the study from 2017 to 2019. Six programs received the first year of content, seven programs received the entire 2-year curriculum, and seven programs served as a control. Fellows, faculty, and program directors (PDs) completed a series of surveys assessing satisfaction with ambulatory education and the curriculum. Fellows completed a series of medical knowledge inventories, and programs submitted in-training exam scores. Results: A total of 221 fellows (39%) and 17 PDs (89%) completed the precurriculum surveys, and 38 (12%) fellows and 10 (53%) PDs completed postcurriculum surveys. Before curriculum implementation, only 34.4% of fellows rated the quality of their ambulatory education as good or outstanding compared with 57.9% at the end of the study. Eighty-five percent of faculty and 89% of PDs rated the curriculum as good or excellent. Faculty believed that the teaching scripts were easy to use (78.4%), were factually accurate (86.3%), and provided high-yield information (82.1%). The majority of PDs indicated that the curriculum positively impacted patient care (78%) and fulfilled an unmet educational need (100%), and most planned to continue the curriculum after the study (78%). Feedback surrounded the need for updated content based on recently published guidelines and studies. Conclusion: The curriculum is a standardized and feasible way to address a previously unmet need in PCCM fellowship education. PDs rated the curriculum highly and most plan to continue it in the future. Our limited data set suggests that the curriculum was well received by fellows and faculty and positively impacted perceptions of ambulatory education and preparedness for independent practice. Future study with a larger sample of fellows is needed to better understand the generalizability of these findings.

Project description:BackgroundDiagnostic and procedural point-of-care ultrasound (POCUS) change patient management with the potential to improve outcomes. Pediatric critical care medicine trainees have limited access to education and training opportunities in diagnostic POCUS in the pediatric ICU. A dearth of published pediatric ICU curricular resources restricts these educational opportunities.MethodsA 7-week longitudinal curriculum including lectures, practical skills sessions, and knowledge assessment covering core modules including (1) machine operation, (2) vascular access, (3) non-vascular procedures, (4) cardiac imaging, (5) hemodynamic assessment, (6) pulmonary imaging, and (7) abdominal imaging, was disseminated to pediatric critical care trainees and faculty at a single tertiary care pediatric hospital.ResultsThe knowledge of trainees and participating faculty in procedural and diagnostic POCUS improved after implementing the curriculum. Pre-test scores mean and standard deviation (59.30% ± 14.15%) improved significantly (75.60% ± 9.43%) for all learners (p < 0.001). The overall self-reported comfort in diagnostic and procedural ultrasound improved for all learners. 100% of the learners reported utilizing diagnostic POCUS in their clinical practice four months after disseminating the curriculum.DiscussionWe describe a single center's approach to POCUS education with improvement in knowledge, self-reported comfort, and attitudes towards procedural and diagnostic POCUS. The curricular resources for adaptation in a similar educational context are provided.

Project description:IntroductionPoint-of care-ultrasound (POCUS) has become ubiquitous in emergency medicine practice for the management of emergent pathophysiology. There is growing interest in its potential as a diagnostic tool in the prehospital setting. Few studies have examined the feasibility or efficacy of curricula targeted at teaching POCUS to prehospital personnel. Our objective in this study was to investigate a curriculum for the extended focused assessment with sonography in trauma (eFAST) exam in helicopter emergency medical services (HEMS) crews.MethodsThis was a pre/post intervention study of HEMS personnel at a tertiary care center. Subjects were administered a pre-intervention written test and an observed structured clinical evaluation (OSCE). Subsequently, they participated in an educational intervention intended to impart proficiency in performing the eFAST. Subjects underwent post-intervention written exams and OSCEs. We analyzed pre- and post-intervention test performance along with the number and quality of practice ultrasound examinations achieved.ResultsSixteen subjects were enrolled (62.5% male, mean age 44.1). After undergoing the intervention, the mean written test score increased 22.1% (t=3.41; P <0.001) and the mean OSCE score increased by 64.5% (t=6.87, P <0.001). All subjects met "passing" criteria for the written test and OSCE on their post-intervention attempt. Subjects accomplished a mean of 21.1 clinically interpretable eFAST sonographs. Most subjects reported the curriculum was useful (90.1%) and that they would incorporate this skill into clinical practice (90.1%).ConclusionA targeted POCUS curriculum was feasible and effective in establishing clinical proficiency in HEMS crews for performing and interpreting the eFAST exam.

Project description:Audience and type of curriculumAudience and type of curriculum: This hybrid, asynchronous curriculum is designed for prehospital clinician colleagues, including but not limited to emergency medical technicians (EMT), advanced EMTs (AEMT), EMT-paramedics (EMT-P), critical care EMT-Ps (CCEMTP), critical care transport nurses (CCTN), and certified flight registered nurses (CFRN) to learn and practice ultrasound fundamentals in the setting of a standardized extended focused assessment with sonography in trauma (E-FAST) exam.Length of curriculumOver a five-month curriculum, learners will perform a pre-test, review online module lectures, attend an ultrasound scanning workshop, and perform post-test examinations.IntroductionThe extended-focused assessment with sonography in trauma (E-FAST) exam can identify intrathoracic and intraabdominal free fluid, as well as pneumothoraces. The E-FAST ultrasound exam has previously been taught to clinicians of various backgrounds in healthcare including emergency medical service (EMS). However, an open-access, systemized curriculum for teaching E-FAST exams to EMS clinicians has not been published.Educational goalsBy the end of these training activities, prehospital EMS learners will be able to demonstrate foundational ultrasound skills in scanning, interpretation, and artifact recognition by identifying pertinent organs and anatomically relevant structures for an E-FAST examination. Learners will differentiate between normal and pathologic E-FAST ultrasound images by identifying the presence of free fluid and lung sliding. Learners will also explain the clinical significance and application of detecting free fluid during an E-FAST scan.Educational methodsThe educational strategies used in this curriculum include a hybrid, asynchronous curriculum encompassing 2.5 hours of lectures derived from online learning modules and in-person review. In addition, learners will attend 2 hours of hands-on proctored ultrasound scanning practicing E-FAST examinations.Research methodsAn online 13-question pre-test was administered prior to the study. An online post-test and in-person scanning OSCEs were administered at least eight weeks after their scheduled workshop consisting of an online 13-question multiple-choice post-test, a confidence survey, and a hands-on E-FAST Objectively Structured Clinical Exam (OSCE) session. A non-parametric Wilcoxon signed-rank test was performed between each pre-test and post-test metric to examine the statistical differences of paired data.ResultsPost-test scores demonstrated statistically significant improvement in both image interpretation exams and ultrasound self-efficacy from the pre-test. The mean pre-test and post-test scores were 55.46% (7.21 ± 1.99) and 84.23% (10.89 ± 1.59) correct out of 13 questions, respectively (p < 0.0001). Participants surveyed an increase in self-efficacy reflected by a Likert scale for ultrasound usage and image interpretation (p < 0.005). The average post-test OSCE E-FAST exam score was 37.89 ± 2.76 out of 42 points (90.21%).DiscussionThis 4.5-hour hybrid asynchronous model demonstrates an effective curriculum for teaching E-FAST ultrasound to prehospital clinicians.TopicsUltrasound, sonography, prehospital clinicians, emergency medical services (EMS), paramedics, critical care transport, extended focused assessment with sonography in trauma (E-FAST), free fluid, sliding lung sign, elective, pain.

Project description:China formally established a system of national standardized medical residency training in 2014, which affects the health of its 1.4 billion people. Accompanying this system were new guidelines and standards for internal medicine residency training. However, the majority of the standards focused on process measurements, such as minimum case requirements of diseases and procedural skills, rather than describing broader physician competencies in the domains of professionalism, patient care, communication, teamwork, quality improvement, and scholarship. While China has taken a large step forward with standardization of certain aspects of internal medicine residency training, the next step should focus on outcome measures and creating a system that is competency-based.

Project description:IntroductionFocused cardiac ultrasound (FoCUS) is widely used for the point-of-care evaluation of basic cardiac pathology, and there is a need for efficient and consistent training in this modality. We designed a simulator-based FoCUS curriculum that integrates instructional scaffolding and deliberate practice to create a directed, self-regulated learning experience for novices. The goal of this strategy was to guide the novice's learning efforts more efficiently and moderate cognitive load while retaining the benefits of independent learning.MethodsThe complex task of learning cardiac ultrasound is broken into discrete steps, with focused didactic information immediately followed by targeted simulator practice for each module. The practice complexity increases through successive modules, and learners ultimately apply their skills by completing unassisted simulator cases. Immediate visual and quantitative feedback is provided by the simulator whenever an ultrasound image was captured during practice. The entire curriculum is self-guided.ResultsSixteen nurse practitioners and resident physicians completed this FoCUS curriculum. In comparison to a previously validated, lecture-before-practice-style curriculum, the average time to completion decreased from 8.0 ± 2.5 hours to 4.7 ± 1.9 hours (p < .0001). There was no difference in posttraining cognitive or psychomotor outcomes between the curricula as measured by a simulator posttest.DiscussionA curriculum integrating scaffolding and deliberate practice provides a more efficient, but equally effective, means of teaching psychomotor and cognitive skills in FoCUS. These instructional design principles may translate to other operational learning tasks and allow novices to build skills and reach basic competency more rapidly.

Project description:BackgroundIn 2007, our healthcare system established a clinical fellowship program in Pathology Informatics. In 2010 a core didactic course was implemented to supplement the fellowship research and operational rotations. In 2011, the course was enhanced by a formal, structured core curriculum and reading list. We present and discuss our rationale and development process for the Core Curriculum and the role it plays in our Pathology Informatics Fellowship Training Program.Materials and methodsThe Core Curriculum for Pathology Informatics was developed, and is maintained, through the combined efforts of our Pathology Informatics Fellows and Faculty. The curriculum was created with a three-tiered structure, consisting of divisions, topics, and subtopics. Primary (required) and suggested readings were selected for each subtopic in the curriculum and incorporated into a curated reading list, which is reviewed and maintained on a regular basis.ResultsOur Core Curriculum is composed of four major divisions, 22 topics, and 92 subtopics that cover the wide breadth of Pathology Informatics. The four major divisions include: (1) Information Fundamentals, (2) Information Systems, (3) Workflow and Process, and (4) Governance and Management. A detailed, comprehensive reading list for the curriculum is presented in the Appendix to the manuscript and contains 570 total readings (current as of March 2012).DiscussionThe adoption of a formal, core curriculum in a Pathology Informatics fellowship has significant impacts on both fellowship training and the general field of Pathology Informatics itself. For a fellowship, a core curriculum defines a basic, common scope of knowledge that the fellowship expects all of its graduates will know, while at the same time enhancing and broadening the traditional fellowship experience of research and operational rotations. For the field of Pathology Informatics itself, a core curriculum defines to the outside world, including departments, companies, and health systems considering hiring a pathology informatician, the core knowledge set expected of a person trained in the field and, more fundamentally, it helps to define the scope of the field within Pathology and healthcare in general.