MR-compatible Assistance System for Biopsy in a High-field-strength System: Initial Results in Patients with Suspicious Prostate Lesions
Authors
Affiliations
Purpose: To examine the feasibility and safety of magnetic resonance (MR)-guided biopsy by using a transgluteal approach in patients with suspicious prostate lesions by using an MR-compatible robotic system and a 1.5-T MR system.
Materials And Methods: The study was approved by the institutional review board of University Frankfurt, and informed consent was obtained from each patient. A total of 20 patients (age range, 57.8-71.9 years; mean age, 65.1 years) underwent biopsy in a closed-bore high-field-strength MR system. Biopsy was performed with an MR-compatible pneumatically driven robotic system. T1-weighted gradient-echo fast low-angle shot and T2-weighted true fast imaging with steady-state precession sequences were used to plan and guide the intervention with a transgluteal access on the external planning computer of the assistance system. The system calculated the trajectory and then moved the guiding arm to the insertion point. The cannula was advanced manually, and biopsies were performed with the coaxial technique by using a 15-gauge pencil tip needle. Intervention time, complications, and biopsy findings were documented.
Results: The MR-compatible robotic system did not interfere with image quality, nor did MR imaging cause dysfunction of the robot. In one patient, the interventionist caused a fail-safe system shutdown. This was due to inadvertent displacement of the guiding arm during cannula insertion. This problem was solved by increasing the displacement threshold. Accurate coaxial cannula biopsy could be performed in all subsequent patients. Sufficient histopathologic assessment was performed in 19 patients. Insufficient material was retrieved in the patient who experienced fail-safe system shutdown. The median intervention time was 39 minutes (23-65 minutes). No procedure-related complications were observed.
Conclusion: Preliminary results indicate that MR-guided robot-assisted biopsy is feasible and can be performed safely with highly accurate cannula placement.
Navigation and Robotics in Interventional Oncology: Current Status and Future Roadmap.
Charalampopoulos G, Bale R, Filippiadis D, Odisio B, Wood B, Solbiati L Diagnostics (Basel). 2024; 14(1).
PMID: 38201407 PMC: 10795729. DOI: 10.3390/diagnostics14010098.
Motorized template for MRI-guided focal cryoablation of prostate cancer.
Moreira P, Grimble J, Bernardes M, Iftimia N, Levesque V, Foley L IEEE Trans Med Robot Bionics. 2023; 5(2):335-342.
PMID: 37312886 PMC: 10259684. DOI: 10.1109/tmrb.2023.3272025.
Robotic systems in interventional oncology: a narrative review of the current status.
Matsui Y, Kamegawa T, Tomita K, Uka M, Umakoshi N, Kawabata T Int J Clin Oncol. 2023; 29(2):81-88.
PMID: 37115426 DOI: 10.1007/s10147-023-02344-8.
Current State of Robotics in Interventional Radiology.
Najafi G, Kreiser K, Abdelaziz M, Hamady M Cardiovasc Intervent Radiol. 2023; 46(5):549-561.
PMID: 37002481 PMC: 10156773. DOI: 10.1007/s00270-023-03421-1.
Park J, Kim C Korean J Radiol. 2022; 23(6):625-637.
PMID: 35555886 PMC: 9174506. DOI: 10.3348/kjr.2022.0059.