English

Collaborative Robotic Biopsy with Trajectory Guidance and Needle Tip Force Feedback

Robotics 2023-07-13 v2 Machine Learning Systems and Control Systems and Control

Abstract

The diagnostic value of biopsies is highly dependent on the placement of needles. Robotic trajectory guidance has been shown to improve needle positioning, but feedback for real-time navigation is limited. Haptic display of needle tip forces can provide rich feedback for needle navigation by enabling localization of tissue structures along the insertion path. We present a collaborative robotic biopsy system that combines trajectory guidance with kinesthetic feedback to assist the physician in needle placement. The robot aligns the needle while the insertion is performed in collaboration with a medical expert who controls the needle position on site. We present a needle design that senses forces at the needle tip based on optical coherence tomography and machine learning for real-time data processing. Our robotic setup allows operators to sense deep tissue interfaces independent of frictional forces to improve needle placement relative to a desired target structure. We first evaluate needle tip force sensing in ex-vivo tissue in a phantom study. We characterize the tip forces during insertions with constant velocity and demonstrate the ability to detect tissue interfaces in a collaborative user study. Participants are able to detect 91% of ex-vivo tissue interfaces based on needle tip force feedback alone. Finally, we demonstrate that even smaller, deep target structures can be accurately sampled by performing post-mortem in situ biopsies of the pancreas.

Keywords

Cite

@article{arxiv.2306.07129,
  title  = {Collaborative Robotic Biopsy with Trajectory Guidance and Needle Tip Force Feedback},
  author = {Robin Mieling and Maximilian Neidhardt and Sarah Latus and Carolin Stapper and Stefan Gerlach and Inga Kniep and Axel Heinemann and Benjamin Ondruschka and Alexander Schlaefer},
  journal= {arXiv preprint arXiv:2306.07129},
  year   = {2023}
}

Comments

Presented at ICRA 2023

R2 v1 2026-06-28T11:02:58.049Z