Utilization of a Virtual Information Session to Increase Engagement With Prospective Applicants in the Setting of COVID-19

PurposeThis study aimed to assess the efficacy of a virtual information session hosted by a diagnostic radiology residency program at addressing applicant concerns about the 2020-2021 interview cycle and highlighting key aspects of the residency program.MethodsParticipants were recruited to attend the virtual information session over a 2-week period via social media and communication with medical school radiology interest groups. Attendees were able to submit questions or topics of interest prior to the session. The virtual information session was hosted by trainees and faculty from a radiology residency. Data regarding the demographics of the attendees and the efficacy of the session were obtained through interactive live polling during the virtual session and a voluntary anonymous postsession survey.ResultsA total of 171 attendees participated in the virtual information session. Of the attendees, 42% learned about the session from Twitter and 72% were fourth-year medical students applying for residency. Among topics addressed during the session, attendees indicated that they were most interested in learning about “Application strategies during COVID-19” during an in-session poll. On the post-session survey, 96% of attendees reported being more knowledgeable about the residency program culture and the breadth of research and educational opportunities.ConclusionGiven the virtual nature of the 2020-2021 residency application cycle, utilization of web-based platforms for recruitment will be essential. Virtual information sessions can be effective at providing insight into aspects of a residency program that are typically gained during the in-person interview experience.     

Multidisciplinary Approach in Teaching Diagnostic Radiology to Medical Students: The Development,Implementation, and Evaluation of a Virtual Educational Model

PurposeThe aim of this study was to develop, implement, and evaluate the effectiveness of an online multidisciplinary approach for teaching diagnostic radiology to medical students.MethodsAn online 10-session case-based learning course was designed and taught by a multidisciplinary team of radiologists, surgeons, and internists. Session topics included common clinical case scenarios for different systems and were hosted on a videoconferencing platform. Students from six medical schools across Texas enrolled in the course. The effectiveness of each session was evaluated using a pretest-posttest design. Students completed a final survey after the course to evaluate their experience.ResultsAn average of 108 attended the live sessions, with attendance peaking at 220. On average, 75 students completed both the pretest and posttest of each session. Posttest scores were an average of 46% higher than pretest scores. A total of 109 students completed the final survey; more than 90% of participants agreed that the program was relevant, that its multidisciplinary approach was valuable, and that it increased their knowledge of imaging as a diagnostic tool. Seventy-four percent said that the program increased their interest in radiology. Almost all participants said that the topics presented were thought to be “excellent and clinically important to learn” by most of the students (70%). Participants reported increased confidence in basic radiology skills after completion of the program.ConclusionsAn online multidisciplinary approach can be feasibly implemented to address the radiology education needs of a large number of medical students across a group of medical schools.     

The Challenge With Clinical Radiology Electives: Student and Faculty Perspectives Identify Areas for Improvement

PurposeTo determine medical students' and radiologists’ attitude toward radiology electives at a distributed medical school and identify specific areas for improvement.MethodsDuring a single academic year, both students and faculty preceptors were surveyed anonymously following a senior radiology elective. The survey was based on an established theoretical framework for studying the educational environment which takes into account domains: (1) goal orientation, (2) organization/regulation, and (3) relationships. Mann-Whitney tests were performed to determine if there was any difference between the overall satisfaction of students and preceptors, responses from the different elective sites and students’ ratings of the domains. Statistical significance was set at P < .05. Thematic analysis was performed on the narrative comments to identify specific challenges.ResultsThe response rate was 82.0% for students (95/116) and 19.5% (31/159) for radiologists. There was no difference in responses based on elective site. Overall, the elective was viewed positively by both groups however students rated their experience as significantly better than their preceptors (P = .0012). Students viewed the relationships domain more positively than both the other two (goal orientation, P = .0001; organization/regulation, P = .0038). Thematic analysis identified that the student challenges were lack of autonomy, structured teaching, and preceptor continuity and the preceptor challenges were ambiguous learning objectives/expectations and insufficient resources.ConclusionsThe radiology elective challenges identified in this study provide educators with specific areas to target when updating radiology electives. A better elective experience may improve students' radiology knowledge and attitude towards the specialty as well as radiologists’ interest in teaching.     

Radiology in Medical Education: A Pediatric Radiology Elective as a Template for Other Radiology Courses

PurposeTraditionally, the pediatric radiology elective for medical students and pediatric residents constituted a morning teaching session focused mainly on radiography and fluoroscopy. A more structured elective was desired to broaden the exposure to more imaging modalities, create a more uniform educational experience, and include assessment tools.MethodsIn 2012, an introductory e-mail and formal syllabus, including required reading assignments, were sent to participants before the start date. A rotating weekly schedule was expanded to include cross-sectional imaging (ultrasound, CT, MR) and nuclear medicine. The schedule could accommodate specific goals of the pediatric resident or medical student, as requested. Starting in 2013, an online pre-test and post-test were developed, as well as an online end-of-rotation survey specific to the pediatric radiology elective. Taking the Image Gently pledge was required. A scavenger hunt tool, cue cards, and electronic modules were added.ResultsPre-test and post-test scores, averaged over 2 years, showed improvement in radiology knowledge, with scores increasing by 27% for medical students and 21% for pediatric residents. Surveys at the end of the elective were overwhelmingly positive, with constructive criticism and complimentary comments.ConclusionsWe have successfully created an elective experience in radiology that dedicates time to education while preserving the workflow of radiologists. We have developed tools to provide a customized experience with many self-directed learning opportunities. Our tools and techniques are easily translatable to a general or adult radiology elective.     

The Integration of Active Learning Teaching Strategies Into a Radiology Rotation for Medical Students Improves Radiological Interpretation Skills and Attitudes Toward Radiology

PurposeIn recent years, there has been increased recognition of the benefits of teaching by active learning. However, there is a paucity of experimental studies utilizing active learning in undergraduate radiology rotations, which is traditionally a passive learning experience. We designed a new radiology rotation that integrated teaching by active learning. We prospectively examined the efficacy of this new rotation compared to our standard rotation in terms of students' radiological competency and attitudes toward radiology, as well as impact on departmental efficiency.MethodsThis was a prospective cohort study involving fourth year medical students completing a 1-week radiology rotation at our department between January and April 2018. One cohort completed a rotational model which incorporated active learning sessions (integrated cohort) while the remainder were taught using traditional passive learning methods (standard cohort). All participants completed a radiology examination before and after the rotation and were surveyed on their attitudes toward radiology.ResultsA total of 105 students enrolled in the study. The mean postrotation competency score obtained by the integrated cohort was significantly higher than that obtained by the standard cohort (82% vs 62%; P < 0.001). The integrated rotation freed up 7 hours of radiologists’ time per week. While the students completing the integrated rotation had a more positive perception of radiology, they were no more likely to express a desire to pursue a career in radiology.ConclusionsThe integration of active learning sessions into an undergraduate radiology rotation results in an improvement in students' postrotation radiological competency and attitudes toward radiology.     

Virtual medical student radiology clerkships during the COVID-19 pandemic: Distancing is not a barrier

BackgroundStress on medical education caused by COVID-19 has prompted medical schools to bar their students from onsite education at hospitals and clinics, limiting their educational experiences. Radiology is uniquely positioned to be a virtual rotation during this health crisis and beyond.PurposeTo implement virtual radiology clerkships and evaluate educational outcomes.MethodsWe developed virtual radiology clerkships using best practices from adult education theory; emphasizing self-directed and interactive learning through recommended reading materials, pre-recorded lectures, video conferencing, web-based learning modules from the ACR, as well as multimodality radiology resources to allow students flexibility in their individual approach to the subject matter.ResultsThe mean performance on standardized exams for our cohorts was 75% (range 50–96%), matching the national average of 75%. Surveys of medical students after the clerkship showed positive subjective feedback on the content and structure of the course.ConclusionsUnderstanding of medical imaging is vital for student doctors to have a better understanding of applied anatomy, patient care strategies, appropriate use, and image interpretation. Radiology is uniquely positioned to be taught in a virtual format, or in a combination of online and in-person activities. Standardized examination performance for our institutional virtual radiology clerkships is comparable to performance on traditional courses. Virtual clerkships designed with adult learners in mind can help student doctors prepare for residency and future independent practice as they build knowledge and skills needed to provide high quality patient care.     

First-Year Radiology Residents Teaching Anatomy to First-Year Medical Students: A Symbiotic Relationship

ObjectivesOur institution has developed an educational program in which first-year radiology residents teach first-year medical students during gross anatomy laboratory sessions. The purpose of this study is to assess the impact of this program on medical student knowledge and perceptions of radiology, and on resident attitudes toward teaching.Materials and MethodsFirst-year resident pairs taught small groups of medical students during weekly 15-minute interactive sessions, and were evaluated on teaching skills by senior residents. A survey about attitudes toward radiology and a knowledge quiz were sent to the medical students, and a survey about attitudes toward teaching was sent to the first-year radiology residents, both pre-course and post-course.ResultsStudents’ radiology knowledge significantly increased between the pre-course and post-course survey across all categories tested (P < 0.001). Additionally, there were significant improvements in terms of students’ confidence in radiologic anatomy skills, perceived importance of radiology for medical training, familiarity with the field of radiology, and perception that radiologists are friendly (P < 0.001). Radiology residents felt more confident in their teaching proficiency (P < 0.001) by the conclusion of the course.ConclusionsResident-led small-group teaching sessions during anatomy laboratory are mutually beneficial for medical students and radiology residents. The program also allows radiology residents to be exposed early on in residency to teaching and academic medicine.     

Attitude of Brazilian dentists and dental students regarding the future role of artificial intelligence in oral radiology: a multicenter survey

Objectives:The aim of this study was to assess the attitude of dentists and dental students in Brazil regarding the impact of artificial intelligence (AI) in oral radiology, and to evaluate the effect of an introductory AI lecture on their attitude.Methods:A questionnaire was prepared, comprising statements regarding the future role of AI in oral radiology and dentistry. A lecture of approx. 1 h was prepared, comprising the basic principles of AI and a non-exhaustive overview of AI research in medicine and dentistry. Participants filled in the questionnaire prior to the lecture. After the lecture, the questionnaire was repeated.Results:Throughout 7 sessions at 6 locations, 293 questionnaires were collected. The majority of participants were undergraduate dental students (57%). Prior to the lecture, there was a strong agreement regarding the various future roles and expected impact of AI in oral radiology. Approximately, one-third of participants was concerned about AI. After the lecture, agreement regarding the different roles of AI in oral radiology increased, overall excitement regarding AI increased, and concerns regarding the potential replacement of oral radiologists decreased.Conclusions:A generally positive attitude towards AI was found; an introductory lecture was beneficial towards this attitude and alleviated concerns regarding the effect of AI on the oral radiology profession. Given the unprecedented, ongoing revolution of AI-augmented radiology, it is pivotal to incorporate AI topics in dental training curricula.     

Medical Student Perspectives on the Impact of Artificial Intelligence on the Practice of Medicine

IntroductionConcerns about radiologists being replaced by artificial intelligence (AI) from the lay media could have a negative impact on medical students’ perceptions of radiology as a viable specialty. The purpose of this study was to evaluate United States of America medical students’ perceptions about radiology and other medical specialties in relation to AI.MethodsAn anonymous, web-based survey was sent to 32 radiology interest groups at United States medical schools. The survey was comprised of 6 questions assessing medical student perceptions of AI and its potential impact on radiology and other medical specialties. Responses were voluntary and collected over a 6-month period from November 2017 to April 2018.ResultsA total of 156 students responded with representation from each year of medical school. Over 75% agreed that AI would have a significant role in the future of medicine. Most (66%) agreed that diagnostic radiology would be the specialty most greatly affected. Nearly half (44%) reported that AI made them less enthusiastic about radiology. The majority of students (57%) obtained their information about AI from online articles. Thematic analysis of free answer comments revealed mostly neutral comments towards AI, however, the negative responses were the strongest and most detailed.ConclusionsUS medical students believe that AI will play a significant role in medicine, particularly in radiology. However, nearly half are less enthusiastic about the field of radiology due to AI. As the majority receive information about AI from online articles, which may have negative sentiments towards AI's impact on radiology, formal AI education and medical student outreach may help combat misinformation and help prevent the dissuading of medical students who might otherwise consider the specialty.     

The Virtual Homeroom: Utility and Benefits of Small Group Online Learning in the COVID-19 Era

ObjectiveDuring COVID-19, Harvard Medical School pivoted to online learning. A large student cohort took a completely virtual Radiology clerkship with daily programming including virtual small group teaching sessions or “homerooms.”Materials and methodsOne hundred and eleven medical students were divided into 12 virtual small group sessions which emphasized foundational concepts. Uniform teaching materials were used across all homerooms in order to deepen understanding and allow insight into the working methods of radiologists. Students evaluated the homeroom learning and teachers for utility and benefit to their educational experience.ResultsMost students (93%) felt the homerooms provided an educational benefit and reinforced topics studied (77%). Most students (84%) felt the leaders created an environment conducive to learning. Despite being virtual, students were able to form interpersonal connections with the homeroom leaders.ConclusionsIncorporating virtual small group learning can be a valuable component of a virtual or hybrid Radiology clerkship, solidifying foundational concepts with the homeroom leaders playing a major role. While developed by necessity due to COVID-19, virtual small group learning with engaged leaders is an educational strategy whose benefit can continue even as there is return to in-person learning.     

The Short and the Long of It: Transitioning to a Blended Longitudinal Curriculum in Radiology

PurposeThe aim of this study was to demonstrate that the transition from a stand-alone radiology clerkship block to a longitudinally integrated radiology curriculum leverages newer teaching tools favored by today’s learners.MethodsIn 2013 and 2014, medical students attended a dedicated 1-week radiology clerkship course. In 2015, the block clerkship model for radiology transitioned to a vertically integrated curriculum. By 2019, radiology content was integrated into many of the health illness and disease course blocks. Pre- and postcourse multiple-choice question tests as well as anonymous surveys were administered for both clerkship and integrated curriculum blocks. The student survey questions assessed perceptions regarding interpretation skills, imaging modality knowledge, and radiologists’ roles.ResultsAmong 197 total students in the clerkship block, surveys were completed by 170 respondents, yielding a response rate of 86.3%. Among 106 students in the longitudinal course, surveys were completed by 71 respondents, yielding a response rate of 67%. For both clerkship and longitudinally integrated courses, the average number of correct responses after completion of the courses was significantly greater than the average number of correct precourse responses. Compared with students in the clerkship block curriculum, students in the longitudinal curriculum demonstrated a significantly greater frequency of agreement in response to survey questions regarding significant exposure to radiology, feeling comfortable interpreting CT images, and being familiar with how to use the ACR Appropriateness Criteria.ConclusionsTransitioning from a single clerkship block to a more integrated format allows a more effective patient-centered clinical approach to medical imaging.     

What the Patient Wants: An Analysis of Radiology-Related Inquiries From a Web-Based Patient Portal

PurposeWith the development of patient portals, the opportunity exists to identify gaps in practice by analyzing priorities patients place on the receipt and comprehension of radiology reports. Our purpose was to describe the nature of radiology-specific patient information requests by analysis of patient-initiated messages submitted through a web-based electronic patient portal.MethodsInstitutional review board approval was obtained and informed consent waived for this HIPAA-compliant retrospective cross-sectional study. All patient-initiated messages submitted to the web-based patient portal at a large academic medical center between October 1, 2014 and December 11, 2014 were analyzed. Messages containing radiology-specific key terms including “x-ray,” “xray,” “xr,” “ct,” “cat,” “mri,” “scan,” “ultrasound,” “image,” and “radiology” were identified and messages categorized by content. The demographics of message writers were also analyzed. Diagnostic imaging studies performed during this period were tabulated by modality. Proportions were compared with χ² tests.ResultsDuring the time period studied, there were 1,597 messages from 1,489 patients inquiring about 1,609 examinations. Messages containing ≥1 radiology-specific keyword were significantly more likely to originate from women than from men (64% [946/1,489] versus 36% [543/1,489], P < .0001), with 53% of studies (52,322/98,897) performed on female patients and 47% (46,575/98,897) on male patients. The relative percentages of modality-specific patient inquiries were significantly discrepant (P < .001) from actual scan volume for some modalities (MRI: 38% [607/1,609] versus 11% [11,152/98,897], CT: 25% [400/1,609] versus 19% [19,032/98,897], plain radiography: 23% [368/1,609] versus 55% [54,497/98,897]). The most common inquiry was for imaging results (33% [521/1,597], P < .001); these were submitted a median of 5 days (range: 0-368 days) after imaging. The radiology turnaround time (between exam completion in the Radiology Information System and signoff on report) was 5 hours, versus 70 hours for referring provider review. Inquiries about radiation dose or radiation risk represented 0.1% (2/1,597) of all inquiries.ConclusionPatients submitting radiology-specific messages through an electronic patient portal are most concerned about imaging results, particularly those pertaining to advanced (CT and MRI) imaging studies.     

The Stability of Factors Influencing the Choice of Medical Specialty Among Medical Students and Postgraduate Radiology Trainees

ObjectiveTo investigate whether general psychological motivating factors that guide career selection of a medical specialty differ over the course of medical school and to compare differences in motivating factors among students choosing “controllable” lifestyle specialties, students choosing “uncontrollable” lifestyle specialties, and a cohort of radiology residents.Materials and MethodsAn anonymous survey was distributed to first- through fourth-year medical students and radiology residents at a single institution. Participants were asked to select their top three of seven factors that most influenced their choice of medical specialty. Fourth-year students were asked to designate the specialty to which they had applied.ResultsThe survey was distributed to 259 students and 47 radiology residents with a response rate of 93.8% (243 of 259) and 95.7% (45 of 47), respectively. The top three factors indicated by medical students were finding the daily work fulfilling, work–life balance, and interest in the subject. These top three factors were common to all medical student classes and did not differ between students choosing “controllable” versus “uncontrollable” fields. The factors uncommonly selected were similar personality to others in the field, attending income, competitiveness or prestige, and job market conditions. For radiology residents, the top three motivating factors were the same as for medical students.ConclusionThree out of seven motivating factors were universally important to trainees, regardless of their stage of medical training or their selection of a controllable versus uncontrollable lifestyle specialty. These data suggest the variety of career choices made by students may not derive from differing underlying values.     

Tales of Mentoring in Radiology: The Experience of Residents and Mentors at a Single Academic Program

PurposeTo investigate the utility of mentoring groups in radiology residency.MethodsFive assistant professors of Radiology and 20 radiology residents were divided into 5 groups. One resident from each academic year was randomly paired with a mentor group. Three 1-hour group mentoring sessions took place over the year. Upon completion of the project an anonymous Quality Improvement survey of 20 questions were sent out to participants to assess the utility of these mentoring sessions.ResultsFour mentors out of 5 responded. All 4 had prior neutral and positive experiences as mentees involving career advice and subspecialty choice. During this experience all mentors had a positive experience. The majority found it helpful to have residents of different levels in their group to allow for peer to peer mentoring and all thought the mentoring program should continue. The most common topics they covered during the sessions were career advice and specialty choice. Sixteen residents out of 20 responded. The majority had had a previous mentor experience which was mostly positive or very positive and predominantly career and/or research related. Almost all of them had a positive or very positive mentoring experience this year. The high majority found that having residents of different levels was beneficial. Topics that mentoring sessions helped mostly with were career advice, work life balance and study skills. All of the mentees thought the mentoring program should continue.ConclusionsMentoring groups can be a valuable addition to residency training, especially in helping with career advice and work life balance.     

Development,implementation, and outcomes of a simulation-based medical education (SBME) prostate brachytherapy workshop for radiation oncology residents

PurposeDespite a preponderance of data demonstrating strong clinical outcomes and cost-effectiveness, prostate brachytherapy use and competency continue to decline. Enhanced resident education may help reverse this trend. We therefore developed and implemented a simulation-based medical education course for low-dose-rate prostate brachytherapy (LDR-PB).Materials and MethodsA 1-week LDR-PB course comprised four 1-h lectures on clinical outcomes, physics, radiobiology, and anatomy/contouring, followed by a 4.5-h simulation session on ultrasound-guided prostate phantom implantation, was developed for radiation oncology residents at an academic institution. A 10-statement Likert-scale survey and 20-question multiple-choice test were administered 1 week before and 4 weeks after the course.ResultsPrecourse and postcourse instruments were completed by 24 and 20 residents, respectively. The median number of prior LDR-PB cases after at least one genitourinary rotation was 10.5 (range 5–20). Overall mean test scores were significantly improved (55% before the course vs 68% after the course; p = 0.010). Mean Likert scores significantly increased on nine of 10 survey statements and were significantly increased overall (2.4 before the course vs 3.3 after the course, p < 0.001). When asked about interest in performing brachytherapy after residency, 37.5% of residents “agreed” or “strongly agreed” before the course vs 50% after the course (p = 0.41). Those with higher postresidency brachytherapy interest (scores of 4–5 vs 1–3) had significantly more LDR-PB cases (11.2 vs 5.3 cases; p = 0.005).ConclusionsA 1-week simulation-based medical education course for LDR-PB can improve didactic performance and self-reported technical competence/confidence, and may increase overall enthusiasm for brachytherapy. Future studies at our institution will incorporate evaluation of implant quality and assessment of procedural competence into this framework. Residency programs should dedicate resources to this essential component of radiation oncology.     

Technology-Assisted Virtual Consultation for Medical Imaging

PurposeThe aim of this study was to report the investigators’ preliminary experience in the implementation of a “virtual consult” (VC) system enabling consultations between radiologists and referring physicians in physically remote locations throughout their enterprise.MethodsReferrers and radiologists directly access the VC through the electronic medical record and PACS, respectively. Referrers may click a VC link associated with any examination report to instant message the appropriate subspecialist radiologist, who receives an alert allowing automatic loading of the examination. The radiologist and referrer may then discuss the examination via instant messaging as well as launch a real-time screen-share of the radiologist’s PACS display, with the option for either participant to control the display. Radiologists’ and referrers’ feedback was evaluated after the institution’s first 110 VC sessions.ResultsReferrers’ most common specialties were emergency medicine (27.3%) and internal medicine (13.6%); radiologists’ most common subspecialties were abdominal (33.6%) and thoracic (16.4%) imaging. Screen-shares lasted on average 12 ± 16 minutes. From 80% to 90% of referrers agreed that the VC was easy to use, improved their understanding of the radiology report, affected patient management, and enhanced radiologists’ role. Referrers found the VC to be particularly useful when traditional consultation was difficult because of location or time constraints or when seeking a quick response to a targeted question. Radiologists recognized referrers’ positive response to the VC, although they tended to view the VC as disruptive to normal workflow.ConclusionsThe VC addresses a key challenge in the current era of digital radiology practice and provides added value to referrers, though continued radiologists’ workflow optimization is warranted.     

Point-of-Care Virtual Radiology Consultations in Primary Care: A Feasibility Study of a New Model for Patient-Centered Care in Radiology

BackgroundThe goal of this study is to assess the value of point-of-care virtual consultations in radiology.MethodsWe conducted an institutional review board–approved feasibility study of video-based radiology consultations in an internal medicine primary care clinic at a quaternary academic medical center. The study included 3 primary care providers (PCPs) and enrolled 43 patients. Inclusion criteria consisted of the following: age > 18 years, English speaking, recent radiology examination at our institution, and patient consenting to participate. Patients completed a pre- and postvisit survey. PCPs completed a postvisit survey. Primary study end points included the effect on patient and provider satisfaction, effect on patient experience and understanding of medical condition, and impact on PCP’s management decisions. Statistical significance was assessed using Fisher’s exact test.ResultsOf the enrolled patients, 93% (n = 40 of 43) indicated that they were satisfied with the virtual consultation visit. The PCPs were satisfied with the virtual consultation in 97% of consultations (n = 42 of 43). In addition, 88% (n = 38 of 43) of patients indicated improved understanding of their medical condition as a result of the virtual consultation, and 91% of patients (n = 39 of 43) were interested in similar consultations in the future. The participating PCPs indicated that the consultation was helpful in their management decisions in 83% of visits. Patient’s interest in receiving their imaging results from radiologist increased from 56% to 88% when comparing pre– and post–virtual consultation survey results (P = .03).ConclusionInitial experience with virtual radiology consultations show high rates of patient and provider satisfaction. Virtual radiology consultations have the potential to advance radiology’s value in care delivery.     

Utilisation of a peer assisted learning scheme in an undergraduate diagnostic radiography module

BackgroundPeer to peer support programmes involve students supporting each other in either an educational, social and/or pastoral way. This is now common place in higher education institutes and has been proven to decrease student attrition and improve grades.AimTo evaluate a peer assisted learning scheme (PALS) within the University of Exeter undergraduate programme, where final year (stage 3) students held extra-curricular teaching sessions in an on-campus X-ray room throughout the academic term to support a first year (stage 1) module introducing basic projectional radiographic examinations, radiation safety, patient care and radiographic equipment. PALS sessions were unstructured and as such could involve roleplaying radiographic examinations, revisiting lecture material and/or discussing hospital placement or pastoral issues.MethodsBrookfield's four lenses of critical reflection were used. 16 of 63 stage 1 students and 9 of 29 stage 3 students were electronically surveyed upon completion of the PALS sessions. Relevant colleagues and educational specialists were also informally interviewed. These were put in context with autobiographical reflections and the existing literature base on PALS.ResultsAll agreed that the sessions provided a good environment for stage 1 students to improve their practical skills, revise lecture content, and gain confidence for upcoming clinical placements. Stage 3 students gained experience teaching students, an essential role of a graduate radiographer's job. Improvements around recruiting stage 3 peer leaders, sustainability, timetabling and session structure were explored.ConclusionThe PALS proved to be a successful initiative within the undergraduate programme and will be continued into the future.