Interprofessional Education and the Diagnostic Radiography curriculum: Students’ perceived value of a case-based,whole day activity

IntroductionThis study aimed to examine Diagnostic Radiography (DR) students’ perceptions and attitudes towards the Health Collaboration Challenge (HCC), as an interprofessional learning opportunity.MethodsDR students participated in the HCC, an annual intensive interprofessional collaboration and assessment activity involving case-based learning. Students' attitudes towards Interprofessional Education (IPE) were measured using a modified version of the Interprofessional Socialisation and Valuing Scale (ISVS-21) and a bespoke questionnaire with items relating to the HCC. Subsequent focus groups explored students’ experience of IPE within the HCC context.ResultsSurvey results (n = 30) suggested a mostly positive attitude towards IPE alongside other health care students, acknowledging the value of interprofessional teams in patient health care. Qualitative themes from focus group participants (n = 8) revealed that DR students, while appreciating the value of shared-decision making, found the HCC assessment distracting. Challenges included the intensive nature of the HCC, roles that DR students undertook in addressing assessment criteria, case complexity and opportunities for DR students to showcase their knowledge.ConclusionResults suggest that the intensive and assessable nature of the HCC can overshadow the value of IPE for DR students, and immersive or staggered approaches to IPE could better align with DR professionals’ unique role within the patient care spectrum.Implications for practiceRevised IPE models for DR students could include a more immersive environment, conducted over a longer period of time, with meetings at semi-regular intervals to promote an interprofessional-focus over a task-focus approach.     

Interprofessional education (IPE) in medical radiation science: A scoping review

IntroductionInterprofessional education (IPE) in medical radiation education is designed to enhance both student and longer-term patient outcomes. This scoping review aims to provide an overview of the available evidence and examine the effectiveness of IPE strategies used to enhance the development of medical radiation science (MRS) students.MethodsMedline, CINAHL, Cochrane Library and Emcare were searched for articles which employed an experimental study design to quantitatively assess the effectiveness of IPE for MRS students. Two reviewers screened and extracted relevant data independently. Critical appraisal was conducted using the JBI critical appraisal tool.ResultsEighteen studies were included in this review. Diverse approaches to IPE were discovered, particularly in terms of the method of delivery, setting and duration of interventions. MRS students interact with many professions, particularly medical doctors and nurses. All studies which employed a control arm demonstrated statistically positive findings favoring IPE intervention(s). In pre-post studies, most IPE interventions reported significant positive differences after IPE was implemented. This entailed an enhanced perceived knowledge and understanding of other professions, and ability to undertake their role in the team.ConclusionIPE was shown to be effective in enhancing students’ perceptions and attitudes and to a limited extent, improve knowledge acquisition. Future research should assess long-term effects and patient-related outcomes.Implications for practiceIPE in a variety of formats demonstrates positive results for MRS students; however, interventions which are longer-term, conducted in small groups, and performed earlier in the educational pathway, may demonstrate greater effectiveness.     

Role of the virtual reality simulator (ScanTrainer) as a multidisciplinary training tool in transvaginal ultrasound: A systematic review and narrative synthesis

ObjectivesThis systematic review investigates the role of the ScanTrainer as a virtual reality training simulator and its impact on the scanning skills in transvaginal ultrasound of novice ultrasound practitioners.Key findingsAfter searching ten databases for studies incorporating the simulator as a part of the learning/training process, ten out of 684 studies met the eligibility criteria and were included in the review. The analysis of the textual findings using narrative synthesis approach resulted in four themes: Validation (assessment of the validity of the simulator), Learning (using the simulator as a learning tool), Perspectives (the perceptions of participants trained on the simulator), and Transferable skills (skills developed on the simulator can transfer to clinical practice).ConclusionAlthough literature indicates that the simulator is valuable as a training/learning tool, there is insufficient evidence of measurable effects on clinical practice of simulator usage by different healthcare professions.     

A narrative review of e-learning in professional education of healthcare professionals in medical imaging and radiation therapy

ObjectivesThis literature review attempts to explore the characteristics of e-learning tools used to develop the qualifications and skills of healthcare professionals in medical imaging and radiation therapy, and to promote the effectiveness and acceptance of e-learning through highlighting the outcomes of its implementation where applicable.Key findingsFrom the literature search in the PubMed and ResearchGate databases we concluded to 21 articles, which were included in the qualitative synthesis. Acceptance of e-learning tools was confirmed. Also, e-learning can be part of healthcare professionals' blended learning. The acquisition of new or improvement of existing knowledge, the improvement of clinical skills and the increase of the self-confidence of healthcare professionals in their daily practice were recorded, as outcomes of the e-learning implementation. The importance of human–computer interaction for the comprehension of theoretical concepts and practical aspects using multimedia was also captured. No significant findings emerged among the 21 articles against the adoption of the e-learning for the training of healthcare professionals. The Internet is the channel used for synchronous and asynchronous interaction of trainees with instructors.ConclusionsWe concluded that e-learning is an attractive training method, equally or occasionally more effective than the traditional educational methods for the lifelong training of healthcare professionals in the field of medical imaging and radiation therapy. Also, many collaborative web-based applications provide the necessary means to build an e-learning program, according to the training needs of each professional team.Implications for practiceThis new knowledge corroborates the perspective of e-learning beneficial contribution to remote interaction and collaboration of healthcare professionals in medical imaging and radiation therapy. Collaborative web-based tools are already available to decision makers and stakeholders, who want to develop an e-learning program.     

Addressing the burden of cervical cancer through IAEA global brachytherapy initiatives

PurposeBrachytherapy (BT) is an essential component of definitive therapy for locally advanced cervical cancer. Despite the advantages of the dose distribution with BT in cervical cancer, there is paucity of specific skills required for good-quality BT applications. Furthermore, replacing BT with other modern external beam techniques as a boost can lead to suboptimal results in cervix cancer.Methods and MaterialsReview of available IAEA resources, research and cooperation programs available from the IAEA was completed. These opportunities can be used to address challenges in Brachytherapy.The International Atomic Energy Agency (IAEA) provides support for BT through various means that includes education and training, both long term, short term and continuing medical education of professionals, providing expert visits to support implementation, development of curricula for professionals, e-learning through the human health campus, contouring workshops, 2D to 3D BT training, and virtual tumor boards. In addition, the IAEA provides support for implementing quality assurance in radiotherapy to its member states and provides guidelines for comprehensive audits in radiation therapy (QUATRO), and produces safety standards and training in radiation safety. In addition, mapping BT resources, making the case for investment and support for setting up BT services and radiotherapy centers are also available. The IAEA Dosimetry Laboratory provides calibration services to Secondary Standards Dosimetry Laboratories for well chambers used to confirm the reference air kerma rate of Co60 and Ir192 high-dose-rate BT sources, as well as for Cs137 low-dose-rate sources.Furthermore, the IAEA supports research and development in radiotherapy (and BT) through coordinated research activities that include controlled randomized clinical trials, Patterns of Care studies among others. Partnerships with professional organizations and funding bodies, as well as through the United Nations Joint Global Programme on Cervical Cancer Prevention and Control support radiotherapy activities, including BT in countries worldwide.ConclusionThe IAEA supports brachytherapy implementation, training and research and provides resources to professionals in the area.     

Put yourself in their shoes … the vulnerability of children and their families when attending for radiotherapy treatment: The role of the specialist paediatric radiotherapy radiographer

Childhood cancer is rare; only 1 in 600 children under the age of 15 years develop a cancer. The treatment of childhood cancers is usually a multimodality approach and can involve surgery, chemotherapy and radiotherapy. Radiotherapy is used in the management of tumours of the central nervous system, solid tumours, leukaemia's and Hodgkin's Lymphoma in the paediatric setting. Paediatric patients make up just 1% of the workload in radiotherapy departments, therefore they tend to be very adult orientated environments and treating children can be complex and challenging for staff. As healthcare professionals we must acknowledge the vulnerability of children and their families when they are coming for radiotherapy treatment. The role of the specialist paediatric radiographer has evolved to work alongside the children and their families to alleviate some of the families and staff anxieties, acting as an advocate, a key point of contact and resource. The very nature of radiotherapy treatment means parents will be separated from their children whilst the treatment is delivered. As radiographers we must ensure we put ourselves in their shoes and acknowledge how difficult this is for children and their parents. The key to every interaction with families is excellent communication and this is not just between professionals, the children and families but also between colleagues to ensure care is co-ordinated. Radiographers working with paediatric patients must have refined communication skills, be able to build rapports, offer support and comfort to children and their parents to ensure they receive the best possible care that is tailored to the individual families holistic needs. The specialist paediatric radiotherapy radiographer is in a unique position to deliver this expert care and support.     

Online training resources to aid therapeutic radiographers in engaging in conversations about physical activity and diet: A mixed methods study

IntroductionThis study explored changes in therapeutic radiographers’ (TRs) self-reported knowledge and skills to engage in conversations about physical activity and diet with people living with and beyond cancer following completion of publicly available online courses.MethodsParticipants were randomly assigned to two of five online courses that aim to support health professionals to engage in conversations about physical activity and diet in the oncology setting. Participants rated their agreement with 18 statements related to the COM-B (capability, opportunity and motivation-behaviour) model components following completion of an online course on healthy diet (n = 16) and physical activity (n = 21). Semi-structured telephone interviews (n = 21) were also conducted. Analysis of the interviews was guided by the Theoretical Domains Framework.ResultsOverall, the online courses were acceptable and the TRs in this study self-reported improved COM to deliver advice on physical activity and diet. The inclusion of the evidence and scientific rationale on the benefits of diet and physical activity, and also guidance on how to start conversations with patients were highlighted as important features of the courses. Suggestions for adaptations to the nutrition courses included the need for content that accounts for the side effects cancer patients experience while undergoing treatment. To support the implementation of training and the delivery of advice on these topics, multi-disciplinary working, organisational support and guidance around professional role boundaries were highlighted as important.ConclusionCurrent publicly available online courses on physical activity and diet for oncology health professionals can reduce some barriers among TRs to providing advice to those living with and beyond cancer.Implications for practiceExisting online training courses could be used to support TRs to deliver physical activity and dietary advice in practice. Findings show that these courses can be disseminated within radiotherapy departments. The results also highlight a number of important considerations for the implementation of brief health behaviour advice and online training interventions on physical activity and diet within cancer care.     

Patients’ experiences of radiotherapy: Insights from Twitter

IntroductionUnderstanding how patients experience radiotherapy is a key element in improving care. People with cancer are increasingly using social media to share information and discuss healthcare matters. Twitter may provide a rich source of data on how people experience radiotherapy. The aims of this research were to better understand the role of social media in this context and establish what can be learnt about the experience of undergoing radiotherapy from a novel digital data source.MethodsA qualitative content analysis was conducted to describe how and why Twitter is being used by patients in relation to radiotherapy. Twitter was queried with “radiotherapy” and a purposive subsample of tweets, authored primarily by patients was collected over one randomly generated composite month in 2016. Thematic analysis was performed to interpret the data.Results442 unique tweets authored by patients and their families were sampled and six themes were developed. Three core themes represented the radiotherapy pathway; pre- during- and post-treatment. Underlying themes were emotional and informational support, impact on loved ones and giving thanks.ConclusionPatients and their loved ones use Twitter to share their experience of radiotherapy. They describe the physical and psychological impact of undergoing treatment and seek informational and emotional support through social media. There is opportunity for greater engagement from radiotherapy professionals and organisations to improve informational support for patients online.Implications for practiceIncreased engagement between radiotherapy professionals and patient communities on Twitter has the potential to build patient-practitioner trust, promote self-management and raise the social profile of radiotherapy and its professions.     

A virtual radiation therapy workflow training simulation

AimSimulation forms an increasingly vital component of clinical skills development in a wide range of professional disciplines. Simulation of clinical techniques and equipment is designed to better prepare students for placement by providing an opportunity to learn technical skills in a “safe” academic environment. In radiotherapy training over the last decade or so this has predominantly comprised treatment planning software and small ancillary equipment such as mould room apparatus. Recent virtual reality developments have dramatically changed this approach. Innovative new simulation applications and file processing and interrogation software have helped to fill in the gaps to provide a streamlined virtual workflow solution. This paper outlines the innovations that have enabled this, along with an evaluation of the impact on students and educators.MethodVirtual reality software and workflow applications have been developed to enable the following steps of radiation therapy to be simulated in an academic environment: CT scanning using a 3D virtual CT scanner simulation; batch CT duplication; treatment planning; 3D plan evaluation using a virtual linear accelerator; quantitative plan assessment, patient setup with lasers; and image guided radiotherapy software.ResultsEvaluation of the impact of the virtual reality workflow system highlighted substantial time saving for academic staff as well as positive feedback from students relating to preparation for clinical placements. Students valued practice in the “safe” environment and the opportunity to understand the clinical workflow ahead of clinical department experience.ConclusionSimulation of most of the radiation therapy workflow and tasks is feasible using a raft of virtual reality simulation applications and supporting software. Benefits of this approach include time-saving, embedding of a case-study based approach, increased student confidence, and optimal use of the clinical environment. Ongoing work seeks to determine the impact of simulation on clinical skills.     

Still Coming Out of the Dark: Enduring Effects of Simulation-Based Communication Skills Training for Radiology Residents—Four-Year Follow-Up

PurposeTo evaluate the long-term efficacy of simulation-based communication skills training for radiology residents.Method and MaterialsThe simulation-based communication skills training curriculum was developed in 2014. The curriculum included a teaching module based on the essential elements of communication. Two sets of 6 communication scenarios encountered by radiologist were created. First and fourth year radiology residents reviewed the teaching module and completed the 6 simulated scenarios. They then underwent debriefing sessions, received faculty and staff evaluations. Four years later, the former first year residents (now fourth years) reviewed the teaching module again and repeated the simulation. They again underwent debriefing sessions after the simulation. This time the residents’ communication skills were evaluated by faculty and staff.ResultsA total of 5 residents participated in this simulation-based skills training. The resident performance 4 years after initial training show not only that residents maintained their improved scores, but also that their scores improved further as compared to after the initial training. The average overall score for all but 1 resident increased at the 4 year follow-up simulation. From 2014 to 2018, the average score of all the residents increased from 72.4% to 81.4%. Comparison of the average scores of each student across 6 stations from 2014 to 2018 showed a statistically significant difference between the scores after 4 years (P = 0.014).ConclusionsSimulation-based communication skills training is effective and long lasting.     

Multi-Institutional Implementation and Evaluation of a Curriculum for the Medical Student Clerkship in Radiation Oncology

PurposeRadiation oncology curriculum development is challenging because of limited numbers of trainees at any single institution. The goal of this project is to implement and evaluate a standardized medical student clerkship curriculum following the multi-institutional cooperative group research model.MethodsDuring the 2013 academic year, a standardized curriculum was implemented at 11 academic medical centers consisting of three 1-hour lectures and a hands-on radiation treatment planning workshop. After the curriculum, students completed anonymous evaluations using Likert-type scales (1 = “not at all” to 5 = “extremely”) and free responses. Evaluations asked students to rate their comfort, before and after the curriculum, with radiation oncology as a specialty, knowledge of radiotherapy planning methods, and ability to function as a radiation oncology resident. Nonparametric statistical tests were used in the analysis.ResultsEighty-eight students at 11 academic medical centers completed the curriculum de novo, with a 72.7% (64 of 88) survey response rate. Fifty-seven students (89.1%) reported intent to pursue radiation oncology as their specialty. Median (interquartile range) student ratings of the importance of curricular content were as follows: overview, 4 (4-5); radiation biology/physics, 5 (4-5); practical aspects/emergencies, 5 (4-5); and planning workshop, 4 (4-5). Students reported that the curriculum helped them better understand radiation oncology as a specialty (5 [4-5]), increased specialty decision comfort (4 [3-5]), and would help the transition to radiation oncology residency (4 [4-5]). Students rated their specialty decision comfort significantly higher after completing the curriculum (4 [4-5] versus 5 [5-5]; P < .001).ConclusionsA national standardized curriculum was successfully implemented at 11 academic medical centers, providing proof of principle that curriculum development can follow the multi-institutional cooperative group research model.     

Radiation oncology teaching provision and practice prior to and during the first wave of the COVID-19 pandemic in medical schools in the United Kingdom and the Republic of Ireland: a cross-sectional survey

Objectives:Radiotherapy is a key cancer treatment modality but is poorly understood by doctors. We sought to evaluate radiation oncology (RO) teaching in medical schools within the United Kingdom (UK) and Republic of Ireland (RoI), as well as any impacts on RO teaching delivery from the coronavirus disease 2019 (COVID-19) pandemic.Methods:A bespoke online survey instrument was developed, piloted and distributed to oncology teaching leads at all UK and RoI medical schools. Questions were designed to capture information on the structure, format, content and faculty for RO teaching, as well as both the actual and the predicted short- and long-term impacts of COVID-19.Results:Responses were received from 29/41 (71%) UK and 5/6 (83%) RoI medical schools. Pre-clinical and clinical oncology teaching was delivered over a median of 2 weeks (IQR 1–6), although only 9 (27%) of 34 responding medical schools had a standalone RO module. RO teaching was most commonly delivered in clinics or wards (n = 26 and 25 respectively). Few medical schools provided teaching on the biological basis for radiotherapy (n = 11) or the RO career pathway (n = 8), and few provide teaching delivered by non-medical RO multidisciplinary team members. There was evidence of short- and long-term disruption to RO teaching from COVID-19.Conclusions:RO teaching in the UK and RoI is limited with minimal coverage of relevant theoretical principles and little exposure to radiotherapy departments and their non-medical team members. The COVID-19 pandemic risks exacerbating trainee doctors’ already constrained exposure to radiotherapy.Advances in knowledge:This study provides the first analysis of radiotherapy-related teaching in the UK and RoI, and the first to explore the impact of the COVID-19 pandemic on radiationoncology teaching.     

Trailblazers: Stakeholder motivations for developing degree apprenticeships for the radiography profession

IntroductionEmployer led apprenticeship trailblazer groups develop the occupational standard and end point assessment associated with a particular job or occupation. All degree apprenticeship programmes within England must align to these and for allied health professions, this is a new concept. Exploring stakeholder motivations for being part of the trailblazer groups is essential to inform subsequent curriculum design and implementation for this new model of education.MethodsEighteen semi-structured interviews were undertaken across the three radiography related (diagnostic, therapeutic and sonography) trailblazer groups using a pragmatic constructivist approach.ResultsStrong themes emerged around professional recognition, and conflicts between being ‘educated’ or ‘trained’, and between vocational and academic components of radiography training. Even within these pioneer groups there was a lack of understanding around degree apprenticeship programmes and their potential impact upon the workforce. Whilst the benefits on recruitment and retention of staff through widening participation were acknowledged, there were concerns around apprentice pay and mentorship. Evidence of professional protectionism was uncovered, balanced by professional pride and a strong desire for team working within and between institutions.ConclusionThe study highlighted an urgent need for further research and awareness raising for employers and practitioners, prior to implementation of radiography-related degree apprenticeships.Implications for practiceThis is the first evaluation of stakeholder motivations related to the development of degree apprenticeships within the allied health professions. The results and recommendations for practise will inform the imminent implementation of degree apprenticeships for the three radiography related professions, facilitating a smooth transition to apprenticeships for clinical and education departments.     

How is the reporting radiographer role portrayed in published studies? A scoping review

ObjectivesRadiographers have been undertaking reporting tasks since the 1980's with a wealth of evidence published to support this practice. Radiographers have since developed skills in reporting all body systems, from all referral sources across a range of modalities. Radiographer reporting is now considered established and demand for radiographers in this role is rising to meet service demand. Reporting radiographers work as part of multi-professional image reporting teams, it is unclear how the radiographer role is perceived as part of this model. The aim was to review peer-reviewed literature to evaluate how the role of the reporting radiographer is portrayed and how the relationship between the two imaging professions has developed.Key findingsLanguage used to discuss the role of the reporting radiographer has changed over time. There is progress demonstrated from the practice of radiographer reporting being considered contentious or opposed to accepted and established. Recent publications focus on the importance utilising the skills of all multi-disciplinary team members in workforce structure. This features prominently when discussing future workforce design, such as with the Cancer workforce strategy and the development of the national standards for musculoskeletal reporting.ConclusionPublished literature has highlighted a move towards acceptance of the reporting radiographer role. Multi-disciplinary team working, utilising the skills of all imaging team members, is essential to the success and sustainability of the imaging workforce moving forwards.Implications for practiceReporting by radiographers is established and will be prominent in the reporting workforce as part of long-term workforce planning, considering skills mix to form effective and sustainable multidisciplinary reporting teams.     

Problem based learning in radiography education: A narrative review

ObjectivesRadiography practice is fast developing with new imaging updates and challenging scenarios to deal with on a frequent basis. There is a need to equip students with the skill to be independent learners and develop critical thinking skills, so they can change their practice as the profession evolves. Problem Based Learning (PBL) has widely been adopted in medical and nursing training worldwide as a result of its desirable benefits. In order to ascertain the efficacy of the technique, this paper presents a review of the essential aspects of PBL, such as the theories, process, key roles and implication for radiography education and practice.Key findingsThe use of a defined model provides a useful structure to the PBL exercise with the addition of reflection, which is a pertinent inclusion within the process. The role of the facilitator in PBL is significant to students' learning as they help guide the students to the learning outcomes and provide support to the group; however, their skills development is an important factor to consider in PBL.ConclusionThis teaching approach has key benefits in radiography education and training in particular, its impact on preparing students for autonomous clinical practice.Implications for practiceThe application of PBL in developing students' critical thinking and decision-making abilities support the narrowing of the spoon-feeding expectation of students and render it a useful pedagogical implementation within radiography programmes.     

International audit of simulation use in pre-registration medical radiation science training

IntroductionSimulation-based education (SBE) can replicate the challenging aspects of real-world clinical environments, while providing a safe and less intimidating setting. Literature supports its use within medical radiation science (MRS) training for safe practice of psychomotor skills, development of problem solving, team working, interpersonal and decision-making skills and embedding awareness of patient safety. This project aimed to quantify usage of SBE resources and activities internationally and to evaluate how this changed during COVID-19 restrictions.MethodsAn anonymous online survey tool gathered data relating to programme demographics, simulation resources, simulation activities and future plans. A link to the survey was distributed to programme leads via social media, professional bodies and national networks.ResultsA total of 72 responses were received from a range of countries and representing a range of programme structures. Most respondents reported up to 100 h of SBE per student per year with low fidelity resources and image viewing software featuring most prominently. There was low reported engagement of service users within simulation activities. Respondents also indicated that COVID-19 had been a trigger for rapid uptake of simulation resources.ConclusionSBE forms an important aspect of MRS training internationally with low-fidelity resources being widely deployed. Where available, high fidelity virtual reality and specialised profession-specific resources were used heavily. There was a low level of reported engagement with service users or expert patients in simulation activities. Future research will identify whether the rapid uptake of SBE during COVID-19 continues and clarify the role of service users in SBE provision.Implications for practiceIncreased collaboration between MRS education providers may help to improve parity of SBE provision and identify additional opportunities to engage service users within SBE.     

Evaluation of proton beam therapy pedagogy within the UK's pre-registration radiotherapy and oncology higher education setting

IntroductionProton Beam Therapy (PBT) continues to expand across the United Kingdom (UK). It is estimated that by the end of 2021, there will be seven clinically operational PBT centres across the UK, such prospects raise questions related to training and recruitment of PBT competent workforce. Comprehensive academic education in the field of PBT can be a suitable solution to ensure adequate representation of competent staff for the future. However, at present, little is known in this sphere which warrants the need for exploration of this topic.MethodsAn online questionnaire was distributed among Higher Education Institutes (HEIs) of radiotherapy & oncology pre-registration courses within the UK setting. The study aimed to explore current PBT content that is taught to radiotherapy students.ResultsFive HEIs providing radiotherapy & oncology course providers, participated in the study (5/12). Each institution provided at least one HCPC approved course that led to professional registration as Therapeutic Radiographer (TR). All courses identified in the study included module(s) related to PBT however, the content varied across the spectrum. A deficiency was identified where PBT based education appeared to lack in learner exposure to clinical PBT pedagogy.ConclusionAlthough training resources within the area of PBT practice appear limited, it is apparent that HEIs have endeavoured to evolve their PBT content inclusion; however, there is scope for further enhancements required to meet PBT stakeholder needs appropriately and collaboratively.Implications for practicePost-qualification training that is designed for a select group of professionals may be a rational approach in fulfilling service demand; however, a clear need for stronger collaboration between HEIs is encouraged in order to standardise and unify the knowledge provided for students, nationwide.     

The concept of caring: Perceptions of radiation therapists

AimsThis study explores radiation therapists’ understanding and interpretations of the concept of caring within their profession.BackgroundHealth professions’ concepts of care have been explored in disciplines such as nursing and medicine. However, there has been little previous attempt to describe what caring means to radiation therapists.MethodsA qualitative phenomenological approach was used and 27 radiation therapists were interviewed in four focus groups. Discussions were transcribed and analysis was performed to identify themes from the data.ResultsThree overarching themes emerged from the data: human connection established between radiation therapists and patients, technical care as the use of technology and procedures in treatment planning and delivery, and the therapist’s unique identity as compared to other professions.ConclusionsThe concept of care was seen by radiation therapists primarily as a supportive relationship with the patient but they were unable to agree if the technical aspects and procedures were considered a part of caring. Further research is needed to further examine the connection between technology and care.