Approaching Trans Healthcare Competency: The Implementation of Trans Health Education for Medical Providers in Appalachia

Altschuler, Rebecca

01 May 2023

Barriers to competent and safe healthcare disproportionately impact people who are marginalized because of their race, ethnicity, gender, or socioeconomic status. It is well documented that transgender patients in particular experience barriers to both accessing care and receiving high quality, non-discriminatory care (Hatzenbuehler & Pachankis, 2016; James et al., 2016; Rahman et al., 2019; Safer et al., 2016). This lack of access to culturally competent healthcare services contributes to health disparities that disproportionately impact the trans community. Literature on barriers to competent care for trans patients indicates that providers experience discomfort related to their ability to provide competent care (Safer et al., 2016). Many providers endorse a median of only five hours of trans healthcare training across their entire medical school curriculum (Hughto et al., 2015), and in some cases, as little as 45 minutes per year (Sawning et al., 2017). Primary care clinics should be the place in which general health and wellbeing are addressed for trans patients, as has been true for cisgender people. Primary care providers should be competent in assessing eligibility for Hormone Replacement Therapy (HRT) and surgery (Wylie et al., 2016), as well as providing necessary preventative care. Thus, this makes primary care the ideal setting for the proposed medical education implementation project. The current study aimed to develop and implement a training program for medical residents in primary care in rural South Central Appalachia. A six-stage development and implementation study is described. The intervention was evaluated for pedagogical outcomes including sustainability for future use, usefulness to residents, and accessibility. Evaluation of effectiveness included analyses of changes in providers’ self-reported competency, awareness of discriminatory experiences, and attitudes towards treating trans patients. There were no significant differences in pre-post competency scores (r=22, M=33.29[SD=5.96]; r=31, M=37.33[SD=1.02], SD=8.00) or in pre-post attitudes scores (r=15, M=32.76[SE=0.8], SD=4.69; r=13, M=34.7273[SE=1.00], SD=4.692). Accessibility and sustainability were measured qualitatively and included data such as resident attendance and ease of use of material for future behavioral health provider trainers. These outcomes were found to be satisfactory based on stakeholder feedback. Usefulness included three data points (satisfaction, helpfulness, value of training).

transgender health

medical education

family medicine

Curriculum and Instruction

Health Psychology

A Practical Approach to Developing Cases for Standardized Patients

Olive, Kenneth E., Elnicki, D. Michael, Kelley, Mary Jane

01 March 1997

This article outlines a process for developing standardized patient cases. The initial step in the process is to define the educational goals of the exercise. Following this step the patient characteristics, setting for the interaction and clinical information are developed. Clinical information, in addition to history, may include elements of nonverbal communication, actual or simulated abnormal physical findings, and laboratory results. Guidelines for the standardized patient regarding disclosure of information to the student and providing feedback to the student enhance the value of the case. If the case is to be used as part of an examination, a grading system must be developed. Issues of cost, validity, and reliability are briefly addressed. .

clinical competence

educational measurement

faculty development

medical education

patient simulation

The Use of Simulation in Teaching the Basic Sciences

Eason, Martin P.

01 December 2013

PURPOSE OF REVIEW: To assess the current use of simulation in medical education, specifically, the teaching of the basic sciences to accomplish the goal of improved integration. RECENT FINDINGS: Simulation is increasingly being used by the institutions to teach the basic sciences. Preliminary data suggest that it is an effective tool with increased retention and learner satisfaction. SUMMARY: Medical education is undergoing tremendous change. One of the directions of that change is increasing integration of the basic and clinical sciences to improve the efficiency and quality of medical education, and ultimately to improve the patient care. Integration is thought to improve the understanding of basic science conceptual knowledge and to better prepare the learners for clinical practice. Simulation because of its unique effects on learning is currently being successfully used by many institutions as a means to produce that integration through its use in the teaching of the basic sciences. Preliminary data indicate that simulation is an effective tool for basic science education and garners high learner satisfaction.

basic sciences

educational theory

medical education

simulation

QCOM

The Use of Simulation in Teaching the Basic Sciences

Eason, Martin P.

01 December 2013

PURPOSE OF REVIEW: To assess the current use of simulation in medical education, specifically, the teaching of the basic sciences to accomplish the goal of improved integration. RECENT FINDINGS: Simulation is increasingly being used by the institutions to teach the basic sciences. Preliminary data suggest that it is an effective tool with increased retention and learner satisfaction. SUMMARY: Medical education is undergoing tremendous change. One of the directions of that change is increasing integration of the basic and clinical sciences to improve the efficiency and quality of medical education, and ultimately to improve the patient care. Integration is thought to improve the understanding of basic science conceptual knowledge and to better prepare the learners for clinical practice. Simulation because of its unique effects on learning is currently being successfully used by many institutions as a means to produce that integration through its use in the teaching of the basic sciences. Preliminary data indicate that simulation is an effective tool for basic science education and garners high learner satisfaction.

basic sciences

educational theory

medical education

simulation

QCOM

The Financial Value of Services Provided by a Rural Community Health Fair

Dulin, Mary, Olive, Kenneth E., Florence, Joseph A., Sliger, Carolyn

01 November 2006

There has been little discussion in the literature regarding the financial value of the services provided to the participants in health fairs. This article examines the financial value of preventive services provided through a community health fair in an economically depressed area of southwest Virginia. Current Procedural Terminology codes were assigned to the services provided in order to estimate costs participants might incur for such services. An average 50-year-old man would have paid up to $320 to obtain commonly recommended preventive services available free at the fair. An average 50-year-old woman would have paid up to $495. Overall, over $58,000 in services were provided through the health fair. This community health fair provided preventive services that many participants otherwise might have found to be cost-prohibitive.

economics

health fair

medical education

rural health services

vulnerable populations

A Randomized Controlled Study of Online Medical Training: Traditional Lecture Compared to Case-Based Augmented Reality Followed by Coaching Debriefs

Mansour, Lauren A.

January 2021

No description available.

Educational Technology

Education

Medicine

augmented reality

medical education

virtual learning

Impacts on student learning and the gross anatomy experience in medical education with the implementation of reciprocal peer teaching and self-directed learning

Dunham, Stacey Marie

22 May 2018

Indiana University-Purdue University Indianapolis (IUPUI) / Ongoing changes to medical education curricula in the United States require continued evaluation of best practices for maintaining and enhancing anatomical education in medical schools. The purpose of this study was to identify the impacts of incorporating an alternating dissection schedule, peer teaching, and self-directed learning (SDL) in the Human Gross Anatomy (A550-551) laboratory for students in the first year of medical school at Indiana University School of Medicine, Bloomington (IUSM-BL). The researcher sought to determine the impacts of peer teaching and dissection on student gross anatomy grades, to explore the underling perceived effects of peer teaching on the student gross anatomy experience, and to explain how a gross anatomy course, specifically the laboratory component, could contribute to the development of SDL. A mixed method design was selected to combine the analytic strengths of quantitative and qualitative methods. Quantitative analysis using a generalized estimating equation determined the act of dissection had an impact on students’ abilities to correctly identify structures on human gross anatomy assessments. An analysis of variance determined that student gross anatomy final grades, lecture exam averages, laboratory practical exam averages were unchanged when incorporating peer teaching and alternating dissections into the laboratory sessions. A grounded theory methodology identified perceived changes in the student experience in A550-551 through analysis of student interviews, instructor interviews, and course assignments. In conclusion, the researcher determined that active dissection is a critical component in gross anatomy; however, peer teaching and alternating dissections offset the negative impacts of reduced dissections hours through: increased active dissection time, decreased intragroup conflict, new opportunities to develop teaching and communication skills, and increased efficiency in the anatomy laboratory classroom. Additionally, this research described suggestions for future successful implementations of SDL in A5500-551. These findings provide information for educators at IUSM-BL as they make revisions to meet curricular demands and inform ongoing discussions in anatomy education related to the importance of dissection, time for laboratory experiences, and the continued goal for excellence in educating students.

Anatomy education

Medical education

Peer teaching

Self-directed learning

Integrating GIS in a Statewide Medical Education Administrative System

Davis, Ashley Michelle

04 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Geographic technologies can be used to visualize and analyze data patterns that may go unnoticed from other approaches. The purpose of this project was to provide examples of how GIS and cartographic methods are being used to help facilitate communication and inform management processes for a complex statewide medical education system administered by the Indiana University School of Medicine, the largest medical school in the United States. The IU School of Medicine has nine regional campuses located around the state in addition to numerous partnering hospitals where medical students are trained. We illustrate geographic examples of various stages of medical student education from admissions, through campus assignments and clinical rotations, to residency training. These geographic processes are being used to inform reaccreditation processes as well as assisting administration with recruitment/retention strategies, statewide planning, and analysis in a complex medical education system.

GIS

Geographic Information Systems

Medical Education

School of Medicine

Geography

Incorporating Health Literacy Concepts in Medical Education

Walden, Rachel R.

01 August 2017

No description available.

health literacy

medical education

Medical Library

Library and Information Science

The relevance of anthropology in medical education : a Mexican case study

Murray, William Breen.

January 1980

No description available.

Medical education -- Mexico.