Prostate Biopsy Assistance System with Gland Deformation Estimation for Enhanced Precision

TL;DR

This paper introduces a prostate biopsy assistance system that uses 3D ultrasound and elastic registration to account for gland deformation, improving targeting accuracy during biopsies.

Contribution

It presents a novel elastic registration algorithm for prostate tracking that handles US shadows and deformations, enhancing biopsy precision.

Findings

Achieved in-vivo accuracy of 0.83±0.54mm

Demonstrated effectiveness of elastic registration in clinical setting

Improved prostate biopsy targeting accuracy

Abstract

Computer-assisted prostate biopsies became a very active research area during the last years. Prostate tracking makes it possi- ble to overcome several drawbacks of the current standard transrectal ultrasound (TRUS) biopsy procedure, namely the insufficient targeting accuracy which may lead to a biopsy distribution of poor quality, the very approximate knowledge about the actual location of the sampled tissues which makes it difficult to implement focal therapy strategies based on biopsy results, and finally the difficulty to precisely reach non-ultrasound (US) targets stemming from different modalities, statistical atlases or previous biopsy series. The prostate tracking systems presented so far are limited to rigid transformation tracking. However, the gland can get considerably deformed during the intervention because of US probe pres- sure and patient movements. We propose to use 3D US combined with image-based elastic registration to estimate these deformations. A fast elastic registration algorithm that copes with the frequently occurring US shadows is presented. A patient cohort study was performed, which yielded a statistically significant in-vivo accuracy of 0.83+-0.54mm.