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Abstract

Background:

Prostate biopsy false negative percentages are 21% to 47% and 16% to 30% for systematic and fused biopsy, respectively. An intuitive three-dimensional (3D) observed user interface may help reduce these percentages by providing real-time guidance and feedback during transrectal or transperineal biopsy.

Materials and Methods:

We track the moving prostate (including template locations and regions of interest), the transrectal ultrasound (TRUS) probe, and the biopsy device to construct a 3D environment. Users observe, aim, sample, and receive feedback in real time. Using a simulator with simulated TRUS, 48 participants performed freehand systematic prostate biopsy with traditional TRUS guidance and afterward with visualized prostate biopsy (vPBx).

Results:

During simulated biopsy, vPBx reduced the false negative percentage for a 0.5-mL spherical apical lesion from 52% to 2% (p < 0.001).

Conclusions:

Preliminary results during simulated systematic biopsy warrant retrofitting the vPBx to actual TRUS equipment as a step toward clinical trials with patients.

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References

, Huang

, Marks

. Targeted prostate biopsy: Value of multiparametric magnetic resonance imaging in detection of localized cancer. Asian J Androl, 2014; 16:522–529.

Hanna

, Wszolek

, Mojtahed

, et al. Multiparametric magnetic resonance imaging-ultrasound fusion biopsy improves but does not replace standard template biopsy for the detection of prostate cancer. J Urol, 2019; 202:944–951.

Lampotang

, Bigos

, Avari

, Johnson

, Mei

, Lizdas

. An open architecture development platform for modular, mixed, and augmented reality procedural and interventional simulators. Simul Healthc, 2020:1–9. DOI: 10.1097/SIH.0000000000000503.

Augustin

, Graefen

, Palisaar

, et al. Prognostic significance of visible lesions on transrectal ultrasound in impalpable prostate cancers: Implications for staging. J Clin Oncol, 2003; 21:2860–2868.

Sundi

, Kryvenko

, Carter

, Ross

, Epstein

, Schaeffer

. Pathological examination of radical prostatectomy specimens in men with very low risk disease at biopsy reveals distinct zonal distribution of cancer in black American men. J Urol, 2014; 191:60–67.

Kryvenko

, Carter

, Trock

, Epstein

. Biopsy criteria for determining appropriateness for active surveillance in the modern era. Urology, 2014; 83:869–874.

Moussa

, Meshref

, Schoenfield

, et al. Importance of additional “extreme” anterior apical needle biopsies in the initial detection of prostate cancer. Urology, 2010; 75:1034–1039.

Leyh-Bannurah

S-R

, Kachanov

, Beyersdorff

, et al. Anterior localization of prostate cancer suspicious lesions in 1,161 patients undergoing magnetic resonance imaging/ultrasound fusion guided targeted biopsies. J Urol, 2018; 200:1035–1040.

Lampotang

, Lizdas DE inventors; University of Florida Research

Foundation

, applicant. Guidance and tracking system for templated and targeted biopsy and treatment. International patent application WO2020186198. September 17, 2020.

Supplementary Material

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