Abstract
BackgroundTo investigate the reliability with which healthcare professionals with different levels of expertise are able to impart the exact location of prostate cancer (PCA) after (A) reading written magnetic resonance imaging (MRI) reports, (B) attending MRI presentations in multidisciplinary team meetings (MDT), and (C) examining 3D printed prostate models, which represents a new technology to describe the location of PCA lesions.MethodsWe used three different PCA cases to assess the three information tools. Construct validation was performed using two healthcare groups with different levels of expertise: (1) Nine expert urologists in PCA, and (2) nine medical students. After each information tool, the study participants plotted the tumor location in a 2-dimensional prostate diagram. A scoring system was established to evaluate the drawings in terms of accuracy of plotting tumor position. Data are shown as median scores with interquartile range.ResultsWithin the expert group, no significant difference was seen in the overall scoring results between the information tools (p = 0.34). Medical students performed significantly worse with MDT information (p = 0.03). Experts performed better in all three information tools compared to students, resulting in a significantly 25% higher overall total score (25.0[22.3–26.7] vs. 20.0[15.0–24.0], p<0.001). The difference was largest after MDT information, with experts showing a 49% better scoring (p<0.001), and second largest with the 3D printed models, showing a 17% better scoring of the experts (p = 0.07). No difference was found in the written MRI report scoring results between experts and students.Conclusions3D printed models provided better orientation guide to medical students compared to MDT MRI presentations. This indicates that the 3D printed models might be easier to understand than the current gold standard MDT conferences. Therefore, 3D models may play an increasingly important role in providing guidance for orientation for less experienced individuals, such as surgical trainees.
Highlights
To investigate the reliability with which healthcare professionals with different levels of expertise are able to impart the exact location of prostate cancer (PCA) after (A) reading written magnetic resonance imaging (MRI) reports, (B) attending MRI presentations in multidisciplinary team meetings (MDT), and (C) examining 3D printed prostate models, which represents a new technology to describe the location of PCA lesions
Apart from prostate biopsy results and the digital-transrectal prostate palpation, magnetic resonance imaging (MRI) written reports, and multidisciplinary team meetings (MDT), presenting two-dimensional images obtained from MRI, are current standard methods to describe the location of prostate cancer (PCA), to transmit the information to health care professionals, and to orientate them for surgical planning. 3D printed models are a novel orientation tool, which has recently gained much interest in the medical world
First proof of concept studies, investigating the use of customized, patient-specific printed 3D models of the prostate and cancer lesions to aid in prostate cancer surgery, have been published [6,7]
Summary
Construct validation was performed using two healthcare groups with different levels of expertise: (1) Nine expert urologists in PCA, and (2) nine medical students. The study participants plotted the tumor location in a 2-dimensional prostate diagram. In order to avoid biases resulting from learning effects over time, we used a 3x3 Latin square array with three different PCA cases to assess the three information tools for the orientation of prostate cancer locations: (A) Written MRI report, (B) 3D printed model, and (C) MRI presentation in MDT. MRI presentation in MDT was performed one time for each case in a structured and standardized way showing and explaining the tumor location and dimension in axial, coronal and sagittal planes. The study participants were asked to plot the tumor location in a 2-dimensional prostate diagram (Swedish national biopsy and MRI report template). A scoring system was used to evaluate the accuracy of tumor position in the drawings, with maximum achievable points of 30 per case
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.