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The utilisation of VERT™ in the training of Image-Guided Radiotherapy for therapeutic radiographers

Published online by Cambridge University Press:  19 October 2020

Adele Stewart-Lord*
Affiliation:
London South Bank University, London, UK
Thomas Swayne
Affiliation:
Vertual Ltd., Kent, UK
Rebecca Johnson
Affiliation:
London South Bank University, London, UK
Innocent Neshiri
Affiliation:
Maidstone and Tunbridge Wells NHS Trust, Kent, UK
Julius Gnanamoney
Affiliation:
Maidstone and Tunbridge Wells NHS Trust, Kent, UK
Bronwyn Van Blerk
Affiliation:
Maidstone and Tunbridge Wells NHS Trust, Kent, UK
*
Author for correspondence: Adele Stewart-Lord, London South Bank University, 103 Borough Road, London, SE1 0AA, UK. E-mail: [email protected]

Abstract

Aim:

The overall aim of this study was to evaluate the use of Virtual Environment for Radiotherapy Training Image-Guided Radiotherapy (VERT™IGRT) as a teaching and assessment tool for 3D image matching competency within the radiotherapy clinical setting and explore radiographer perceptions, experiences and integration of VERT™IGRT as an imaging tool.

Materials and methods:

A mixed-methods study was utilised to measure clinical image matching competencies in the first quantitative phase through means of a workbook and imaging assessment. Phase II used qualitative semi-structured interviews to explore radiographer perceptions.

Results:

Workbooks enabled participants to prepare for image assessments. Interview findings were highlighted in three distinctive themes: (1) The need for supervision, guidance and feedback; (2) Experience and practice leads to confidence and competence and (3) Technology supports process but not evaluation.

Findings:

VERT™IGRT provides a sound platform for training therapeutic radiographer image matching skills, but needs to be delivered with continuous feedback to develop individual decision-making skills. The technology provides opportunities for staff to increase confidence in utilsing image matching technology, but analytical and evaluation skills require supervision and continuous feedback which should be embedded in any educational training programme.

Type
Original Article
Copyright
© The Author(s), 2020. Published by Cambridge University Press

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References

Meticulous Research. Reclaiming instructional design (PDF). Educ Tech 2014; 36 (5): 57.Google Scholar
Appleyard, R, Coleman, L. Virtual environment for radiotherapy training (VERT) Final project report. Department of Health for England, Cancer Action Team. Society and College of Radiographers 2008; 158.Google Scholar
Bridge, P, Appleyard, R, Ward, J, Philips, R, Beavis, A. The development and evaluation of a virtual radiotherapy treatment machine using an immersive visualisation environment. Comput Educ 2007; 49 (2): 481494.CrossRefGoogle Scholar
Knudson, L. Integrating simulation into student learning experiences. AORN J 2013; 97 (4): C5C6.Google ScholarPubMed
Bridge, P, Crowe, S B, Gibson, G, Ellemor, N J, Hargrave, C, Carmichael, M. A virtual radiation therapy workflow training simulation. Radiography 2016; 22: 5963.CrossRefGoogle Scholar
Stewart-Lord, A. From education to research – a journey of utilising virtual training. J Radiother Pract 2016; 15 (1): 8590.CrossRefGoogle Scholar
Stewart-Lord, A, Brown, M, Noor, S, Cook, J. The utilisation of virtual images in patient information giving sessions for prostate cancer patients prior to radiotherapy. Radiography 2016; 22 (4): 269273.CrossRefGoogle Scholar
Stewart-Lord, A, Brown, M. Virtual training in patient information sessions prior to external beam radiotherapy. Radiother Oncol 2016; 119 (1): 492.CrossRefGoogle Scholar
James, S, Dumbleton, C. An evaluation of the utilisation of the virtual environment for radiotherapy training (VERT) in clinical radiotherapy centres across the UK. Radiography 2013; 19: 142150.CrossRefGoogle Scholar
Chamunyonga, C, Rutledge, P, Caldwell, P J, Burbery, J, Hargrave, C. The application of the virtual environment for radiotherapy training to strengthen IGRT education. J Med Imaging Radiat Sci 2020; 51: 207213.CrossRefGoogle ScholarPubMed
Om Prakash, G, Ramesh, A, Harsh, G. A study on prostate movement and dosimetric variation because of bladder and rectum volumes changes during the course of image-guided radiotherapy in prostate cancer. Prostate Int 2020; 8 (2): 9197.Google Scholar
Braun, V, Clarke, V. Using thematic analysis in psychology. Qual Res Psychol 2006; 3: 77101.CrossRefGoogle Scholar
Donaldson, L. Towards Safer Radiotherapy. Department of Health 2006. https://www.rcr.ac.uk/system/files/publication/field_publication_files/Towards_saferRT_final.pdf. Accessed on 17th September 2020.Google Scholar