Impact of a family medicine resident wellness curriculum: a feasibility study
BackgroundUp to 60% of practicing physicians report symptoms of burnout, which often peak during residency. Residency is also a relevant time for habits of self-care and resiliency to be emphasized. A growing literature underscores the importance of this; however, evidence about effective burnout prevention curriculum during residency remains limited.ObjectivesThe purpose of this project is to evaluate the impact of a new, 1-month wellness curriculum for 12 second-year family medicine residents on burnout, empathy, stress, and self-compassion.MethodsThe pilot program, introduced during a new rotation emphasizing competencies around leadership, focused on teaching skills to cultivate mindfulness and self-compassion in order to enhance empathy and reduce stress. Pre-assessments and 3-month follow-up assessments on measures of burnout, empathy, self-compassion, and perceived stress were collected to evaluate the impact of the curriculum. It was hypothesized that this curriculum would enhance empathy and self-compassion as well as reduce stress and burnout among family medicine residents.ResultsDescriptive statistics revealed positive trends on the mean scores of all the measures, particularly the Mindfulness Scale of the Self-Compassion Inventory and the Jefferson Empathy Scale. However, the small sample size and lack of sufficient power to detect meaningful differences limited the use of inferential statistics.ConclusionsThis feasibility study demonstrates how a residency wellness curriculum can be developed, implemented, and evaluated with promising results, including high participant satisfaction.
Background: Healthcare professionals have negative implicit biases toward minority and poor patients. Few communication skills interventions target implicit bias as a factor contributing to disparities in health outcomes. We report the protocol from the COmmuNity-engaged SimULation Training for Blood Pressure Control (CONSULT-BP), a trial evaluating a novel educational and training intervention targeting graduate medical and nursing trainees that is designed to mitigate the effects of implicit bias in clinical encounters. The CONSULT-BP intervention combines knowledge acquisition, bias awareness, and practice of bias mitigating skills in simulation-based communication encounters with racially/ethnically diverse standardized patients. The trial evaluates the effect of this 3-part program on patient BP outcomes, self-reported patient medication adherence, patient-reported quality of provider communication, and trainee bias awareness. Methods: We are conducting a cluster randomized trial of the intervention among cohorts of internal medicine (IM), family medicine (FM), and nurse practitioner (NP) trainees at a single academic medical center. We are enrolling entire specialty cohorts of IM, FM, and NP trainees over a 3-year period, with each academic year constituting an intervention cycle. There are 3 cycles of implementation corresponding to 3 sequential academic years. Within each academic year, we randomize training times to 1 of 5 start dates using a stepped wedge design. The stepped wedge design compares outcomes within training clusters before and after the intervention, as well as across exposed and unexposed clusters. Primary outcome of blood pressure control is measured at the patient-level for patients clustered within trainees. Eligible patients for outcomes analysis are: English-speaking; non-White racial/ethnic minority; Medicaid recipient (regardless of race/ethnicity); hypertension; not have pregnancy, dementia, schizophrenia, bipolar illness, or other serious comorbidities that would interfere with hypertension self-control; not enrolled in hospice. Secondary outcomes include trainee bias awareness. A unique feature of this trial is the engagement of academic and community stakeholders to design, pilot test and implement a training program addressing healthcare. Discussion: Equipping clinicians with skills to mitigate implicit bias in clinical encounters is crucial to addressing persistent disparities in healthcare outcomes. Our novel, integrated approach may improve patient outcomes. Trial registration: NCT03375918 Protocol version: 1.0 (November 10, 2020)
Graduate medical education (GME) occurs during and is a crucial step of the transition between medical school and clinical practice. Residency program graduates’ abilities to provide optimal patient care, act as role models, and demonstrate excellence, compassion, professionalism, and scholarship are key elements and outcomes of successful GME programs. In order to create and maintain the training environment that leads to such outcomes, programs must continually review and revise their patient care and educational activities. Currently, compliance with accreditation standards as determined by individual specialties such as family medicine serves as a common and significant marker for program quality. Compliance with these requirements is necessary but not sufficient if faculty and residents want to achieve the goal of residency training in terms continually improving and optimizing the care they provide to their patients and communities. For overall program improvement to truly occur, the patient care, scholarship, and community activities of current residents and graduates must be assessed and used in program improvement activities. Appropriately applied to programs and using these assessments, quality improvement principles and tools have the potential to improve outcomes of patient care in residents’ current and future practice and improve programs in educating residents.
Kringle domains are found in several plasma proteins of blood coagulation and fibrinolysis. A murine monoclonal antibody, designated alpha HII-5, was produced against a synthetic peptide representing residues 216-231 of human prothrombin kringle 2. The sequence of the hexadecapeptide (Glu-Asn-Phe-Cys-Arg-Asn-Pro-Asp-Gly-Asp-Glu-Glu-Gly-Val-Gly-Cys) is conserved in several kringle-containing proteins, represents a predicted region of high local hydrophilicity in prothrombin kringle 2, and contains the anionic (Asp-223 and Asp-225) residues that contribute to lysine binding by plasminogen kringle 4. In a solution-phase immunoassay, antibody alpha HII-5 bound prothrombin and the kringle 5 light chain fragment of plasminogen (miniplasminogen), but not plasminogen or plasmin. In contrast, using a solid-phase assay with antigen immobilized onto a surface (polystyrene microtiter plates, glass, or nitrocellulose) antibody alpha HII-5 specifically bound prothrombin, plasminogen, recombinant tissue plasminogen activator (tPA), and the apo(a) subunit of lipoprotein(a). By immunoblotting analysis antibody alpha HII-5 bound determinants on prothrombin fragment 2 and plasminogen kringle 5. These observations suggest that a subset of kringle domains on plasma proteins, including prothrombin kringle 2 and plasminogen kringle 5, contains a homologous antigenic determinant in the region of the kringle lysine-binding site. In contrast to prothrombin kringle 2, the homologous peptide site on plasminogen is not available for antibody binding except when plasminogen is adsorbed to a nonphysiological surface, or when kringles 1-4 are removed.
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