Project description:IntroductionWhile many medical schools provide opportunities in medical Spanish for medical students, schools often struggle with identifying a structured curriculum. The purpose of this module was to provide a flexible, organ system-based approach to teaching and learning musculoskeletal and dermatologic Spanish terminology, patient-centered communication skills, and sociocultural health contexts.MethodsAn 8-hour educational module for medical students was created to teach musculoskeletal and dermatologic medical communication skills in Spanish within the Hispanic/Latinx cultural context. Participants included 47 fourth-year medical students at an urban medical school with a starting minimum Spanish proficiency at the intermediate level. Faculty provided individualized feedback on speaking, listening, and writing performance of medical Spanish skills, and learners completed a written pre- and postassessment testing skills pertaining to communication domains of vocabulary, grammar, and comprehension as well as self-reported confidence levels.ResultsStudents demonstrated improvement in vocabulary, grammar, comprehension, and self-confidence of musculoskeletal and dermatologic medical Spanish topics. While students with overall lower starting proficiency levels (intermediate) scored lower on the premodule assessment compared to higher proficiency students (advanced/native), the postmodule assessment did not show significant differences in skills performance among these groups.DiscussionAn intermediate Spanish level prerequisite for this musculoskeletal and dermatologic module can result in skills improvement for all learners despite starting proficiency variability. Future study should evaluate learner clinical performance and integration of this module into other educational settings such as graduate medical education (e.g., orthopedic, rehabilitation, and dermatology residency programs) and other health professions (e.g., physical therapy and nursing).

Project description:BackgroundPoint-of-care ultrasound (POCUS) can add complementary information to physical examination. Despite its development in several medical specialties, there is a lack of similar studies on children by medical interns and cardiologists. Therefore, investigators aimed to assess the effect of short-course training on the performance of medical interns in point-of-care echocardiography in children.MethodsThis analytic cross-sectional study was conducted on 161 hospitalized children in 17 Shahrivar children's hospital, Iran, from January 2021 to May 2021. Seven interns (trainees) participated in a short course of point-of-care echocardiography to assess left ventricular ejection fraction (LVEF), inferior vena cava collapsibility index (IVCCI), and the presence of pericardial effusion (PEff). Each patient underwent point-of-care echocardiography by one of the trainees. Then, in less than one hour, the echocardiography was performed by a single cardiologist. Agreement between the cardiologist and trainees was examined using Cohen's kappa coefficient and Prevalence-Adjusted Bias-Adjusted Kappa (PABAK). For numerical variables, the agreement was examined using the concordance correlation coefficient (CCC) and intraclass correlation coefficient (ICC).ResultsResults showed that the cardiologist and trainees detected LVEF >50, IVCCI >50%, and the absence of PEff in most of the participants. A good agreement in terms of ICC and CCC for LVEF (0.832 and 0.831, respectively) and a good agreement in terms of ICC and CCC for IVCCI (0.878 and 0.877, respectively) were noted. Using categorical scoring of LVEF and IVCCI showed 94.4% and 87.6% complete agreement, respectively. Furthermore, using categorical scoring of LVEF and IVCCI, Cohen's kappa coefficient was 0.542 (moderate) and 0.619 (substantial), respectively. The PABAK for LVEF and IVCCI were 0.886 (almost perfect) and 0.752 (substantial), respectively. For PEff, Cohen's kappa and PABAK were 0.797 (moderate) and 0.988 (almost perfect), respectively, and the complete agreement was noted in 160 patients (99.4%).ConclusionsThis study showed that a short teaching course could help medical interns to assess LVEF, IVCCI, and PEff in children. Therefore, it seems that adding this course to medical interns' curricula can be promising.

Project description:BackgroundVirtual consultation is a synchronous mode of telemedicine provided remotely via information and communication technology. The projected growth of digitalization in healthcare delivery, however, necessitates medical student training in virtual consultation (VC) to ensure safe and effective patient care. This study describes the implementation and preliminary evaluation of a competency-based VC training module for undergraduate medical students.MethodsA newly developed six-week VC module was implemented online through asynchronous microlearning and synchronous simulation-based experiential learning modalities. Clinical students in years 4 and 5 and fresh graduates, who had not started pre-registration house officer or residency programmes, were invited to participate. Training outcomes using checklist-based video-recorded assessments of VC encounters between medical students and simulated patients were compared. Each video was independently assessed by two facilitators trained in VC teaching and assessment, using a direct observed virtual consultation skills checklist derived from established VC competencies. The participants completed course evaluations electronically as additional outcome measures.ResultsFifty-two clinical phase medical students and alumni completed both the instructional and practical phases of this module. Altogether, 45 (95.7%) students found the module beneficial, and 46 (95.9%) reported increased self-efficacy for conducting VC. In total, 46 (95.9%) students would recommend the course to others. Post-test results showed a significant increase in the students' abilities to conduct a VC (t-test = 16.33, p < 0.05).ConclusionMicrolearning and simulation-based sessions were effective instructional delivery modalities for undergraduate medical students in their attainment of VC competencies.

Project description:BackgroundSurgical site infections (SSIs) are a global concern affecting patient recovery, prolonging hospital stay and raising healthcare costs.AimTo address this, a structured training module was implemented to enhance the efficacy of surgical painting and draping among the interns, reducing SSI risk.MethodsA questionnaire was distributed to 194 interns, covering fundamental inquiries on SSIs, aseptic practices and an assessment of the participant's knowledge regarding preoperative skin preparation and draping. Students then attended lectures, demonstrations, hands-on sessions and an operating room workshop dedicated to surgical painting and draping techniques. Proficiency was evaluated through a follow-up questionnaire.ResultsThere was a significant increase in the percentage of good score from 27.6% to 86.9%. A comparative analysis of surgical site infection (SSI) rates at our institution was performed before and after integrating a cohort of trained clinicians.ConclusionAlthough a significant reduction in SSI rates was observed, it cannot be definitively attributed solely to the introduction of the trained personnel. Nonetheless, the findings underscore the potential impact of rigorous training in aseptic techniques on reducing SSI incidence.

Project description:This study examined the trainability of the proprioceptive sense and explored the relationship between proprioception and motor learning. With vision blocked, human learners had to perform goal-directed wrist movements relying solely on proprioceptive/haptic cues to reach several haptically specified targets. One group received additional somatosensory movement error feedback in form of vibro-tactile cues applied to the skin of the forearm. We used a haptic robotic device for the wrist and implemented a 3-day training regimen that required learners to make spatially precise goal-directed wrist reaching movements without vision. We assessed whether training improved the acuity of the wrist joint position sense. In addition, we checked if sensory learning generalized to the motor domain and improved spatial precision of wrist tracking movements that were not trained. The main findings of the study are: First, proprioceptive acuity of the wrist joint position sense improved after training for the group that received the combined proprioceptive/haptic and vibro-tactile feedback (VTF). Second, training had no impact on the spatial accuracy of the untrained tracking task. However, learners who had received VTF significantly reduced their reliance on haptic guidance feedback when performing the untrained motor task. That is, concurrent VTF was highly salient movement feedback and obviated the need for haptic feedback. Third, VTF can be also provided by the limb not involved in the task. Learners who received VTF to the contralateral limb equally benefitted. In conclusion, somatosensory training can significantly enhance proprioceptive acuity within days when learning is coupled with vibro-tactile sensory cues that provide feedback about movement errors. The observable sensory improvements in proprioception facilitates motor learning and such learning may generalize to the sensorimotor control of the untrained motor tasks. The implications of these findings for neurorehabilitation are discussed.

Project description:ProblemFormal education in requesting consultations is inconsistent in medical education. To address this gap, the authors developed the Consultation Observed Simulated Clinical Experience (COSCE), a simulation-based curriculum for interns using Kessler and colleagues' 5Cs of Consultation model to teach and assess consultation communication skills.ApproachIn June 2016, 127 interns entering 12 University of Chicago Medicine residency programs participated in the COSCE pilot. The COSCE featured an online training module on the 5Cs and an in-person simulated consultation. Using specialty-specific patient cases, interns requested telephone consultations from faculty, who evaluated their performance using validated checklists. Interns were surveyed on their preparedness to request consultations before and after the module and after the simulation. Subspecialty fellows serving as consultants were surveyed regarding consultation quality before and after the COSCE.OutcomesAfter completing the online module, 84% of interns (103/122) were prepared to request consultations compared with 52% (63/122) at baseline (P < .01). After the COSCE, 96% (122/127) were prepared to request consultations (P < .01). Neither preparedness nor simulation performance differed by prior experience or training. Over 90% (115/127) indicated they would recommend the COSCE for future interns. More consultants described residents as prepared to request consultations after the COSCE (54%; 21/39) than before (27%; 11/41, P = .01).Next stepsThe COSCE was well received and effective for preparing entering interns with varying experience and training to request consultations. Future work will emphasize consultation communication specific to training environments and evaluate skills via direct observation of clinical performance.

Project description:BACKGROUND: The use of high-fidelity medical simulation in cognitive skills training within internal medicine residency programs remains largely unexplored. OBJECTIVE: To design a pilot study to introduce clinical decision-making training using simulation into a large internal medicine residency program, explore the practicability of using junior and senior residents as facilitators, and examine the feasibility of using the program to improve interns' clinical skills. METHODS: Interns on outpatient rotations participated in a simulation curriculum on a voluntary basis. The curriculum consisted of 8 cases focusing on acute clinical scenarios encountered on the wards. One-hour sessions were offered twice monthly from August 2010 to February 2011. Internal medicine residents and simulation faculty served as facilitators. RESULTS: A total of 36 of 75 total interns volunteered to participate in the program, with 42% attending multiple sessions. Of all participants, 88% rated the sessions as "excellent," 97% felt that the program improved their ability to function as an intern and generate a plan, and 81% reported improvement in differential diagnosis skills. CONCLUSIONS: Simulation training was well received by the learners and improved self-reported clinical skills. Using residents as facilitators, supervised by faculty, was well received by the learners and enabled the implementation of the curriculum in a large training program. Simulation can provide opportunities for deliberate practice, and learners perceive this modality to be effective.

Project description:IntroductionMusculoskeletal (MSK) disorders are very common, but suboptimal teaching of MSK medicine occurs and expert clinicians agree that MSK physical examination (PE) skills can be confusing and complicated for medical students. An innovative approach in introductory teaching of MSK PE skills was developed using constructivist theory for second-year medical students.MethodsWe implemented the MSK PE curriculum innovation in the second year of a four-year MD program, utilizing a standard framework with spaced practice and clinician coaching. We evaluated this curriculum by comparing the innovation group (n = 123) to a historical control group (n = 134) using an anonymous survey and OSCE station scores. Data analysis included repeated measures analysis of variance comparing students' self-confidence in MSK PE to students' self-confidence in other systems-based PEs, as well as independent t-test comparisons of self-confidence scores and MSK-specific OSCE station scores between the historical and innovation groups.ResultsThe mean self-assessed confidence of the historical group was significantly lower for the MSK PE than all other PEs (p < 0.001), except for the neurological PE. Significant improvement in MSK PE self-confidence was noted with the innovation group (t(259) = -4.05, p < 0.001). OSCE scores significantly improved in MSK-specific stations, with medium to large effect size across the different stations.DiscussionWe successfully used a framework of deconstruction, repetition, and spaced practice to develop fundamental MSK PE skills in preclerkship medical students. This curriculum structure provides an effective example for teaching introductory MSK PE skills to early medical learners.

Project description:IntroductionThe provision of real-time medical direction to emergency medical services (EMS) providers is a core skill for the emergency physician, yet it is one with a wide variability of training received within residency.MethodsWe developed a complete training module for providing online medical control to EMS providers, including two lectures, multiple case-based scenarios for practice via two-way radio, a survey of participants' self-perceived knowledge and comfort in this area, and a postmodule knowledge test. Participants completed the survey both before and after the module. The module was given during the regularly scheduled didactic conference series. There were 22 participants, some of whom were attendings and medical students.ResultsThe survey responses showed a statistically significant improvement after completion of the module for all questions, including improved self-perceived comfort with providing online medical control. Additionally, all participants passed the postmodule knowledge test with a mean score of 95%.DiscussionThis module was well received and showed significant results in improving the participants' self-perceived and tested knowledge of EMS as well as their comfort with providing online medical control. The module offers an excellent baseline training experience for use by other residencies or agency medical directors.

Project description:BACKGROUND AND OBJECTIVES:Medical specialty and subspecialty fellowship programs administer subject-specific in-training examinations to provide feedback about level of medical knowledge to fellows preparing for subsequent board certification. This study evaluated the association between the American Society of Nephrology In-Training Examination and the American Board of Internal Medicine Nephrology Certification Examination in terms of scores and passing status. DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS:The study included 1684 nephrology fellows who completed the American Society of Nephrology In-Training Examination in their second year of fellowship training between 2009 and 2014. Regression analysis examined the association between In-Training Examination and first-time Nephrology Certification Examination scores as well as passing status relative to other standardized assessments. RESULTS:This cohort included primarily men (62%) and international medical school graduates (62%), and fellows had an average age of 32 years old at the time of first completing the Nephrology Certification Examination. An overwhelming majority (89%) passed the Nephrology Certification on their first attempt. In-Training Examination scores showed the strongest association with first-time Nephrology Certification Examination scores, accounting for approximately 50% of the total explained variance in the model. Each SD increase in In-Training Examination scores was associated with a difference of 30 U (95% confidence interval, 27 to 33) in certification performance. In-Training Examination scores also were significantly associated with passing status on the Nephrology Certification Examination on the first attempt (odds ratio, 3.46 per SD difference in the In-Training Examination; 95% confidence interval, 2.68 to 4.54). An In-Training Examination threshold of 375, approximately 1 SD below the mean, yielded a positive predictive value of 0.92 and a negative predictive value of 0.50. CONCLUSIONS:American Society of Nephrology In-Training Examination performance is significantly associated with American Board of Internal Medicine Nephrology Certification Examination score and passing status.