Viscous Aqueous Gel Illustrating Natural Anatomy: The VAGINA method in gynaecological MRI simulation

Skehan, Kate; Richardson, Matthew; O'Connor, Laura M.; Dickson, Samuel; Martin, Kate; Govindarajulu, Geetha; Sridharan, Swetha

Title: Viscous Aqueous Gel Illustrating Natural Anatomy: The VAGINA method in gynaecological MRI simulation
Creator: Skehan, Kate; Richardson, Matthew; O'Connor, Laura M.; Dickson, Samuel; Martin, Kate; Govindarajulu, Geetha; Sridharan, Swetha
Relation: Journal of Medical Radiation Sciences Vol. 71, Issue 1, p. 150-155
Publisher Link: http://dx.doi.org/10.1002/jmrs.716
Publisher: John Wiley & Sons
Resource Type: journal article
Date: 2024
Description: Accurately defining gross tumour volume (GTV) and organs at risk (OAR) is key to successful radiation therapy (RT) treatment outcomes for patients with gynaecological cancers. With improved access to magnetic resonance imaging (MRI) for RT simulation and planning, the optimisation and tailoring of proven diagnostic MRI techniques towards RT specific planning goals is fast evolving. Modifying MRI techniques for radiation oncology (RO) with the priority of anatomy visualisation and spatial location over diagnosis and disease characterisation relies heavily on successful collaboration between radiology and radiation oncology staff. This ‘How I Do It’ paper describes a qualitative analysis of the adaptation of a diagnostic MRI vaginal opacification technique into an RT specific MRI simulation procedure using aqueous ultrasound gel for improving natural anatomical visualisation of the vaginal canal. This technique is explained and could be introduced in other RO departments for dedicated RT planning scans in MR-Sim sessions with minimal difficulty. We found 10-15 cc of aqueous gel delivered vaginally produced optimal MRI planning images for most patients. With this small amount of gel and careful application technique, the full extent of the vaginal vault and cervix can be well visualised on T2 Weighted (T2W) imaging, while tending not to unfold the natural fornices of the collapsed vagina, representing a significant improvement in image quality from the outdated tampon procedure.
Subject: gynaecological; MRI; radiation therapy; simulation; vagina; SDG 3; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1505886
Identifier: uon:55766
Identifier: ISSN:2051-3895
Rights: X
Language: eng
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