INTRODUCTION
Competency-based education has been studied and debated around the world, due to the growing concern about excellence in medical training that is adequate to the needs of the population1),(2. The discussion around this type of training occurs at the undergraduate and postgraduate levels and has gained a new focus with the emergence of the COVID-19 pandemic3.
The new coronavirus pandemic has imposed social distancing and the consequent reduction and/or cessation of educational activities, a fact that forced educational institutions to rethink the entire teaching-learning process4),(5. This fact is even more relevant when considering medical education, whether in the context of undergraduate school or in the medical residency program of the different specialties, whose graduates had their work directed to the frontline of care for the population with COVID-19. Therefore, the already existing movements supporting more targeted training have been growing and, to a certain extent, accelerated, either in terms of the volume of experience to be had, or the time necessary for the acquisition of skills3.
The inclusion of specific content related to COVID-19 became mandatory in the several medical training programs, as well as the adjustment of pedagogical tools to carry out a greater number of activities in a not-in-person format. Although there are many national and global entities involved in the discussion on competency-based teaching6),(7, there is no consensus on an ideal model, particularly when thinking about teaching “in times of COVID-19”.
Initiatives to improve teaching/learning are also taking place at Hospital Universitário Onofre Lopes/Empresa Brasileira de Serviços Hospitalares (HUOL/EBSERH) - Universidade Federal do Rio Grande do Norte (UFRN), where the Medical Residency Program (MRP) was created in 1980, currently receiving more than 100 resident physicians each year, distributed into 24 programs in the different specialties. This concern was the subject of research by Pita in 2018, whose Master’s Degree dissertation in health education showed a competency matrix for medical residency in Cardiology. From an in-depth analysis, there was a consensus among the panelists on the essential contents for the training in cardiology8.
In this context, considering the relevance of the determination of essential competencies, influenced by local, political, social, and economic factors and with the emergence of a pandemic, it is necessary to consolidate the training mediated by the collective construction of a competency matrix that, in theory, should not be simply extrapolated from pre-existing models. It should be built respecting local particularities, with the participation of all subjects involved in the process, including preceptors/teachers and residents/students. Thus, the product arising from this construction becomes more suitable for each institution7.
The present project intends to show the adequacy to the competency matrix in cardiology due to the COVID-19 pandemic, considering the contribution of the students and residents in cardiology for the consensus process to obtain it.
METHODS
This is an exploratory study, involving undergraduate medical students and medical residents of the institution’s cardiology program. The modified Delphi methodology was used to achieve consensus among the participants.
The Delphi method is used to seek a convergence of opinions from a group of experts, called “the panel”, when there is scarce data in the literature on a given subject or if they cannot be safely projected into the future or when seeking to stimulate the emergence of new ideas9)-(11.
This is based on the exchange of information from responses to an interactive questionnaire, which circulates through several rounds among the panel members until a satisfactory level of convergence is achieved and, consequently, the group’s consensus. Therefore, it is assumed that the collective contribution in a structured way results in a more robust product than the one resulting from individual participation9)-(11.
Thirteen undergraduate students working with teaching and tutoring projects, whose topics involve pedagogical and curricular development related to the teaching of cardiology and/or urgency and emergency medicine, were invited to be part of the discussion panel, in addition to the eight residents of the medical residency program in cardiology of the institution.
The option of creating a panel consisting of undergraduate and medical residency students places these individuals as protagonists in the teaching-learning process, allowing them to effectively contribute to the improvement of the curriculum structure.
The absence of a response to the questionnaire, at any round, was considered as an exclusion criterion. This panel was called the “Students and residents’ panel”.
The initial version of the competency matrix with the essential contents related to COVID-19 that should integrate the MRP competency matrix in Cardiology and the internship was created by the research team (researcher and advisor), comprising the semi-structured online questionnaire sent to participants.
This first version of the matrix was sent by email to the 21 students and residents who constituted the panel of students and residents. Therefore, each individual was able to attribute the degree of agreement to each proposed item according to the five-point Likert scale (I strongly disagree, I disagree, I neither agree nor disagree, I agree, and I strongly agree). At the time when the questionnaire was sent, instructions were given on how to complete and return it, as well as succinct and objective information on the Delphi methodology, in addition to the Free and Informed Consent Form (FICF), which contained a detailed explanation about the project.
After the feedback from the panelists and the analysis of the data collected from the initial proposed version, the first matrix version was obtained. This same process could be restarted, generating versions and subsequent rounds of consensuses, until the construction of the final version, achieved when the matrix items reached, at least, 50% of agreement between the panelists.
The data were tabulated, respecting the anonymity, and the percentages of agreement were calculated for each item. The sum of the percentages included in the options “I agree” and “I totally agree” was considered as a 50% convergence. After reaching a minimum agreement of 50%, the matrix was made available to start the teaching strategies aiming to achieve consensual competencies.
The study was approved by the Research Ethics Committee (CEP-HUOL) under CAEE number 2412316.4.0000.5292.
RESULTS
Of the 21 invited participants, two were excluded for not answering the questionnaire. Therefore, the consensus was obtained with a panel of 19 students (87.7%), of which 13 were monitors (100%) and six residents (75%), as shown in Chart 1. The mean age was 24.5±3.3 years old, with a predominance of women (52%).
The initial matrix version consisted of 16 items focused on the essential contents on COVID-19 to be achieved at internship and medical residency programs in cardiology. The consensus was achieved at the first round, with the lowest agreement rate being 71%, observed for the item “To contribute to the development and/or updating of protocols aimed at individuals with heart disease with COVID”, in the internship matrix.
When analyzing the matrix for the residency in cardiology, the lowest rate of agreement was observed for the item “To develop reference and counter-reference for suspected COVID cases”, which reached 89.5% of agreement.
There were no divergences, or suggestions for new items for the matrix composition.
The agreement rates are shown in Frames 1 and 2.
Contents/Competency Items | Agreement (%) | ||||
---|---|---|---|---|---|
1 | 2 | 3 | 4 | 5 | |
To know the epidemiological, social, and pathophysiological aspects of the new coronavirus. | 0 | 0 | 0 | 52.6 | 47.4 |
To identify the clinical characteristics inherent to COVID 19, recognizing the susceptibility of different populations | 0 | 0 | 0 | 21 | 79 |
To identify the clinical signs and symptoms of COVID 19. | 0 | 0 | 0 | 10.5 | 89.5 |
To develop a differential diagnosis, considering the respiratory distress syndrome. | 0 | 0 | 0 | 21 | 79 |
To rationally use the diagnostic and therapeutic arsenal available to individuals with COVID-19. | 0 | 0 | 0 | 31.6 | 68.4 |
To develop reference and counter-reference for suspected COVID-19 cases. | 0 | 0 | 0 | 52.6 | 47.4 |
To demonstrate the correct use of PPE | 0 | 0 | 0 | 15.8 | 84.2 |
To demonstrate the correct removal of PPE to care for suspected and confirmed individuals of COVID-19. | 0 | 0 | 0 | 15.8 | 84.2 |
To contribute to the development and/or updating of protocols aimed at individuals with heart disease and COVID-19. | 0 | 0 | 21 | 47.4 | 31.6 |
To adequately record the information in medical files. | 0 | 0 | 0 | 36.8 | 63.2 |
To assist the individual with COVID-19 in urgency and emergency situations, such as CPR | 0 | 0 | 0 | 21 | 79 |
To know and demonstrate the correct use of mechanical ventilation in individuals with COVID-19. | 0 | 0 | 0 | 31.6 | 68.4 |
To know and use digital health tools such as telehealth and teleconsultation. | 0 | 0 | 5,3 | 57.9 | 36.8 |
To communicate difficult news related to COVID-19, while also promoting the population’s education. | 0 | 0 | 0 | 42.1 | 57.9 |
To work collaboratively, respecting the particularities of other team professionals. | 0 | 0 | 0 | 36.8 | 63.2 |
To understand the importance of self-care. | 0 | 0 | 0 | 42.1 | 57.9 |
1 = I totally disagree; 2 = I disagree; 3 = I neither agree nor disagree; 4 = I agree; 5 = I strongly agree.
Contents/Competency Items | Agreement (%) | ||||
---|---|---|---|---|---|
1 | 2 | 3 | 4 | 5 | |
To know the epidemiological, social, and pathophysiological aspects of the new coronavirus. | 0 | 0 | 0 | 42,1 | 57,9 |
To identify the clinical characteristics inherent to COVID-19, recognizing the susceptibility of different populations | 0 | 0 | 0 | 26,3 | 73,7 |
To recognize the clinical signs and symptoms of COVID-19. | 0 | 0 | 0 | 21 | 79 |
To develop a differential diagnosis considering the respiratory distress syndrome. | 0 | 0 | 0 | 15,8 | 84,2 |
To rationally use the diagnostic and therapeutic arsenal available to individuals with COVID, based on the best scientific evidence. | 0 | 0 | 0 | 21 | 79 |
To develop reference and counter-reference for suspected cases of COVID-19. | 0 | 0 | 0 | 15,8 | 73,7 |
To demonstrate the correct use of PPE. | 0 | 0 | 5,2 | 15,8 | 79 |
To demonstrate the correct removal of PPE to care for suspected and confirmed individuals of COVID-19. | 0 | 0 | 5,2 | 15,8 | 79 |
To contribute to the development and/or updating of protocols aimed at individuals with heart disease with COVID-19. | 0 | 0 | 0 | 31,6 | 68,4 |
To adequately record the information in medical files. | 0 | 0 | 0 | 21 | 79 |
To assist the individual with COVID-19 in urgency and emergency situations, such as CPR | 0 | 0 | 0 | 15,8 | 84,2 |
To know and demonstrate the correct use of mechanical ventilation in individuals with COVID-19. | 0 | 0 | 0 | 21 | 79 |
To know and use digital health tools such as telehealth and teleconsultation. | 0 | 0 | 0 | 47,4 | 53,6 |
To communicate difficult news related to COVID-19, while also promoting the population’s education. | 0 | 0 | 0 | 26,3 | 73,7 |
To work collaboratively, respecting the particularities of other team professionals. | 0 | 0 | 0 | 31,6 | 68,4 |
To understand the importance of self-care. | 0 | 0 | 0 | 26,3 | 73,7 |
1 = I totally disagree; 2 = I disagree; 3 = I neither agree nor disagree; 4 = I agree; 5 = I strongly agree.
DISCUSSION
The consensus regarding the competencies related to COVID-19 was quickly reached and showed high levels of agreement in all items of the matrix. This high rate of agreement and the fact that a consensus was attained fast, as early as in the first round, can be explained by the use of the Delphi12 strategy, which may have been influenced by the panelists’ (students and residents) level of knowledge on the subject, since the COVID-19 topic has required constant studies and urgent decisions.
The item “To contribute to the development and/or updating of protocols aimed at individuals with heart disease and COVID-19” showed the lowest percentage of agreement (79%), with this being related to training during medical school internship. This fact can perhaps be explained by the training model, frequently based on the traditional teaching model, where the teacher is the holder of knowledge13 and, consequently, the student assumes a more passive role, contributing little to actions such as the one addressed in the item.
On the other hand, initiatives that encourage active and collaborative student participation are important for a more robust and active learning, favoring their engagement in the process of health education, permanent education, and the creation/development of improvement strategies both in the area of health and in education. Especially at a time when actions are needed for remote emergency education due to the pandemic, it is worth emphasizing the relevance of the inclusion of the competency matrix14, not only of contents that meet current demands15, but also of teaching and evaluation strategies that allow student engagement and proactivity16)-(18.
The items related to health care were the ones with the highest percentage of strong agreement (I totally agree), such as “To demonstrate the correct use of PPEs” and “To demonstrate the correct removal of PPE to care for suspected and confirmed individuals of COVID-19” for the internship training. As for the residency training, the items “To provide assistance to individuals with COVID-19 in urgency and emergency situations such as CPR” and “To develop a differential diagnosis considering the respiratory distress syndrome” were the ones with strong agreement, drawing attention to the urgency assistance itself and to the need and/or difficulty in preparing the differential diagnoses imposed by COVID-19.
The results of the research showed that the proportion of agreement was quite similar, considering the level of education of the respondents, whether undergraduate students or residents, and reinforce the importance of the contribution of students and residents in-training in the development of curricular matrices, as already described in the literature19. There was a clear concern about the scientific evidence support, including the ability to interpret scientific articles and perform critical judgment and adapt diagnostic and therapeutic approaches, as well as emphasizing the importance of developing the ability to share knowledge about COVID- 19 with patients and the community in a clear, objective, and accessible way. This adequacy corroborates the suggestion of the Accreditation Council for Graduate Medical Education (ACGME)7 as essential competencies in undergraduate training, which are extrapolated to the scope of medical residencies, including clinical reasoning, adequate information management, interpersonal and team communication skills and professionalism. Finally, it is essential to emphasize the important role of digital technologies throughout the teaching-learning process, from action planning to evaluation, in different scenarios and for different populations, with the aim of maximizing learning and when it is crucial to use the remote modality, such as during the pandemic20),(21.
CONCLUSIONS
When invited to participate in the pedagogical process, students and residents quickly respond to the call, bringing relevant contributions to the teaching-learning process. Getting students involved in this process and encouraging them to understand the attributes and competencies relevant to their training, even at an unstable and rapidly changing scenario, can represent an extremely robust pedagogical strategy, promoting sustainable changes in the curriculum.