Project description:Training in fundamental laboratory methodologies is valuable to medical students because it enables them to understand the published literature, critically evaluate clinical studies, and make informed decisions regarding patient care. It also prepares them for research opportunities that may complement their medical practice. The National College of Natural Medicine's (NCNM) Master of Science in Integrative Medicine Research (MSiMR) program has developed an Introduction to Laboratory Methods course. The objective of the course it to train clinical students how to perform basic laboratory skills, analyze and manage data, and judiciously assess biomedical studies. Here we describe the course development and implementation as it applies to complementary and integrative medicine students.

Project description:Building the next generation of telehealth enabled professionals requires a mixture of team-based, interprofessional practice with novel technologies that connect providers and patients. Effective telehealth education is critical for the development of multidisciplinary training curricula to ensure workforce preparedness. In this study, we evaluated the impact of a formal telehealth education curriculum for interprofessional students through an online elective. Over 12 semesters, 170 students self-selected to enroll in the 3-credit hour interprofessional elective and took part in structured didactic, experiential and interprofessional learning opportunities. Mixed-method assessments show significant knowledge and confidence gains with students reflecting on their roles as future healthcare providers. The results from five years' worth of course data shows not only an opportunity to advance the individual knowledge of trainees, but a larger movement to facilitate changes in practice toward population health goals. Recent global health events have further highlighted the need for a rapid response to public health emergencies by highly trained provider teams who are able to utilize technology as the cornerstone for the continuity of care.

Project description:BACKGROUND:Dignitary medicine is an emerging field of training that involves the specialized care of diplomats, heads of state, and other high-ranking officials. In an effort to provide guidance on training in this nascent field, we convened a panel of experts in dignitary medicine and using the Delphi methodology, created a consensus curriculum for training in dignitary medicine. METHODS:A three-round Delphi consensus process was performed with 42 experts in the field of dignitary medicine. Predetermined scores were required for an aspect of the curriculum to advance to the next round. The scores on the final round were used to determine the components of the curriculum. Scores below the threshold to advance were dropped in the subsequent round. RESULTS:Our panel had a high degree of agreement on the required skills needed to practice dignitary medicine, with active practice in a provider's baseline specialty, current board certification, and skills in emergency care and resuscitation being the highest rated skills dignitary medicine physicians need. Skills related to vascular and emergency ultrasound and quality improvement were rated the lowest in the Delphi analysis. No skills were dropped from consideration. CONCLUSIONS:The results of our work can form the basis of formal fellowship training, continuing medical education, and publications in the field of dignitary medicine. It is clear that active medical practice and knowledge of resuscitation and emergency care are critical skills in this field, making emergency medicine physicians well suited to practicing dignitary medicine.

Project description:Primary outcome(s): Accuracy of diagnosis of cancer cells by spectroscopy.

Project description:Quality improvement (QI) as a method of obtaining meaningful change is increasingly valued. A few comprehensive, longitudinal curricula demonstrate efficacy, patient impact, and behavior change over time. This educational improvement study aimed to create a curriculum that increased resident proficiency in practicing QI principles, score on the QI Knowledge Application Tool-Revised, and QI projects completing at least 2 plan-do-study-act (PDSA) cycles in 5 years.MethodsWe utilized The Model for Improvement and sequential PDSA cycles, testing curricular components for improvement. Measures were analyzed annually (2014-2020). The curriculum includes modules and didactic workshops for foundational knowledge, rapid personal improvement projects for putting knowledge into practice, and experiential learning through developing and leading QI projects.ResultsGraduating residents reporting proficiency in practicing QI principles increased from 4 (44%) to 11 (100%). The average QI Knowledge Application Tool-Revised score increased from 50% to 94% (95% CI, 37-51). Resident QI projects completing at least 2 PDSA cycles increased from 30% (n = 3) to 100% (n = 4), P = 0.0005, while projects achieving improvement increased from 40% (n = 4) to 100% (n = 3), P = 0.002. Patients were also positively impacted, with 63% (n = 3) of clinical QI projects that measured patient-centered outcomes achieving improvement and 69% (n = 11) of clinical QI projects improving clinical processes.ConclusionsThis study developed a curriculum that successfully prepares residents to practice QI principles and lead multidisciplinary QI projects while demonstrating patient impact and behavior change. It offers an example of curriculum development and evaluation aided by QI science.

Project description:BackgroundTo introduce virtual simulation as a strategy of nursing education and provide valid educational content, the best curriculum model of virtual simulation needs to be developed.MethodsCurriculum development process and pilot evaluation was used. The curriculum content and structure was developed by analyzing literature including previous studies and major nursing classification systems, and key words derived from focus group interviews of 14 nurses and 20 faculty members with expertise in simulation education. 35 nursing students participated in the evaluation of the developed virtual simulation curriculum.ResultsThe curriculum developed for virtual simulation in nursing education contained three domains of content areas: (1) enhancing clinical decision-making, (2) experiencing low-exposed situations, and (3) building professional resilience. In addition, seven subdomains of content areas and 35 representative topics in the virtual simulation curriculum were derived. Scenarios of nine representative topics were created, translated into 3D modeling and pilot-evaluated.ConclusionsConsidering that nursing education is encountering new demands and challenges from students and the changing society, the newly suggested curriculum for virtual nursing simulation can help nurse educators to plan better educational opportunities for students.

Project description:Background and objectivesDuring recent years, the demand for EUS has increased. However, standardized training programs and assessments of clinical quality measures are lacking. We therefore aimed to establish a basic curriculum for EUS fellows that includes a prioritized list of interpretational capabilities and technical skills.Materials and methodsInternational key-opinion leaders were invited to participate in a Delphi process. An electronic three-round iterative survey was performed to attain consensus on skills that 70% of the participants found either very important or essential for a newly graduated endosonographer.ResultsOf 125 invited experts, 77 participated in the survey. Initially, 1,088 skills were suggested, resulting in a core curriculum containing 29 interpretational skills and 12 technical skills. The top-five interpretation skills included abilities to discern between normal anatomy and pathology, to identify the entire pancreas and ampullary region, to identify solid versus fluid-filled structures, to detect bile duct and gallstones, and to identify a pancreatic mass of 5 mm or larger. For technical skills, ability to insert the endoscope from the mouth to the second part of duodenum, to obtain FNA adequately and safely, to navigate the scope tip to follow anatomical landmark structures, to achieve endoscopic position of each of the four stations, and to perform passage of the scope past a hiatal hernia were given the highest ranking.ConclusionsAfter a structured Delphi process involving 77 international experts, a consensus was reached for a basic curriculum for EUS fellows to be included during training.

Project description:Environmentally enriched housing conditions affect pig welafre, immune system and gut microbiota in early life

Project description:IntroductionNeonatal-perinatal medicine (NPM) providers actively manage medical transports. However, there is wide variation in transport education among fellowship programs. Using the flipped classroom methodology, we developed a video and case-based transport education curriculum.MethodsA national needs assessment identified safety, communication skills, and physiology as the most important aspects of transport management. Three 10-minute video modules and two 20-minute case-based discussions were developed to address this content. Using the flipped classroom format, seven NPM fellows from all three postgraduate years of training took part in the curriculum by individually viewing each video followed by participation in group case-based discussions. Cognitive and affective outcomes were assessed using a knowledge and attitude pretest, individual video module posttests, and a postcurriculum follow-up survey.ResultsNPM fellows showed significant improvements in transport knowledge and reported increased confidence in their ability to perform important transport roles. Case discussions were adaptable to learners who had different levels of training and had variable transport experience. Case discussions were successfully executed both in person and by video telecommunications during the 2020 COVID-19 pandemic.DiscussionThis transport curriculum addressed a national education gap in NPM fellowship training. Using the flipped classroom methodology, cognitive and affective objectives were achieved by improving knowledge and confidence in transport skills among NPM learners. The video and case-based formats were easily implemented, applicable to multiple types of learners, and adaptable to different environments.

Project description:A great technological revolution in surgery occurred with the introduction of laparoscopic and other minimally invasive procedures, with enormous patient benefits. Robotic-assisted surgery (RAS) is a form of minimally invasive surgery that overcomes some of the limitations of laparoscopic techniques. Until recently, there were few standardized curricula for RAS. The Fundamentals of Robotic (FRS) developed a process through expert consensus conferences to develop an effective and validated curriculum for basic robotic surgery. A specialty specific curriculum for thoracic robotic surgery is also needed. The Fundamentals of Thoracic Robotic Surgery (FTRS) Consensus Conference brought together expert thoracic surgeons to build upon the accomplishments of FRS and incorporate the experiences of thoracic societies and academic institutions to establish a standardized FTRS curriculum for the development and maintenance of specialty-specific robotic surgical skills. A task deconstruction was completed for the thoracic 'signature' procedure, the lobectomy and training items and potential errors were identified for each step of the procedure. A final outline of the FTRS curriculum was developed during the conference and physical and virtual reality thoracic surgery training models were discussed. Following the conference, the steering committee completed the FTRS curriculum with editorial review from all stakeholders. The FTRS consensus conference followed the validated FRS model but in an accelerated process due to important groundwork set by experts in the FRS consensus conferences. A full online curriculum and supporting psychomotor skills training and team communication has been developed for the lobectomy procedure.