Two roads to the same place; comparison of face-to-face and distance training for Prostate SABR IGRT
John Rodgers,
United Kingdom
PD-0732
Abstract
Two roads to the same place; comparison of face-to-face and distance training for Prostate SABR IGRT
Authors: john rodgers1, Adam Booth1, Luke Roberts1, Elizabeth Cox1, Stacey Groves1, Elizabeth Reeves1, Syrah Bashir1, Rhanne Kelly1, Rhiannon Breece1, Sarah Tweedly1, Clare Triffitt1
1The Christie NHS trust, Radiotherapy, Manchester, United Kingdom
Show Affiliations
Hide Affiliations
Purpose or Objective
Prostate SABR demands high levels of precision from well trained, highly skilled RTTs. Use of conventional face-to-face (F2F) training is more challenging since the advent of Covid19. The authors department developed an alternative method of training employing a virtual learning resource (VLR).
The primary objective of this study was to pilot an in-house VLR. Prior to validating as a departmental training method for prostate SABR IGRT a comparison of inter-observer image registration variability between trainees either educated remotely using a preliminary VLR version or via established F2F training was conducted.
Material and Methods
8 RTTs participated and were divided into two cohorts.
Cohort A: 4 participants underwent conventional F2F training delivered by an experienced trainer
Cohort B: 4 participants underwent remote learning using a VLR training package
Observers completed offline image registration for 12 prostate SABR CBCT images in XVI v5.0.4 (Elekta AB, Sweden) before training. After completion of training observers repeated the same 12 prostate SABR images (<21 days after 'before' registrations to minimise the effects of repetition).
Resulting translations, time taken for registration and confidence scores using Likert scale of 1 (not confident) to 5 (extremely confident) were recorded and compared between cohorts using descriptive statistics.
Inter-observer registration variability (σregistration) was calculated for each plane (R/L, S/I, A/P) with respect to a gold standard registration (a consensus match agreed between three experienced IGRT specialist RTTs) according to Equation 1 (Image 1). Vectors were calculated for each registration and combined to determine the interobserver variability (σmagnitude) according to Equation 2 (Image 1). Larger σmagnitude values indicated greater interobserver variability.
Results
Results in Table 1 indicate that application of both F2F and VLR learning results in improved group inter-observer agreement. The improvement in mean agreement was greater for F2F (36%) that VLR (12%). F2F and VLR had similar improvements in standard deviation (36% and 38% respectively).
Pre training F2F registration confidence levels were 2.8, and for VLR 2.4. Post training F2F improved to 3.2 (14.3%) whilst VLR demonstrated lesser improvement in confidence (2.6, 8.3%). Combined group mean registration times for F2F and VLR were 4:35 mins and 4:13 mins respectively. Post training F2F recorded times were 4:17 mins (7%), whereas VTL improved by 31.8% (3:12 mins).
Conclusion
Whilst preliminary data indicates that both training methods improve inter-observer agreement, confidence and time to register it additionally suggests established F2F training should remain the preferred method within the department for the time being.
Using participant feedback iterative work is underway to revise the pilot VLR package. Once complete it is anticipated that a larger substantive study will compare a modified version with F2F training in order to validate this novel training method.