Vibration-Assisted Slicing of Soft Tissue for Biopsy Procedures

In this study, the BP procedure is investigated in detail. First, the steady cutting motion of the BP is analyzed. Then, the superimposition of several vibrational motions onto the rotary motion of the BP is investigated. Analytical models, based on a fracture mechanics approach, are adopted to predict the cutting forces. Experimental studies are performed on phantom tissue, usually adopted in medical investigations. The results demonstrate that the application of rotary vibrational motions determines the increase of the force and penetration depth necessary to fracture soft tissue, while the implementation of axial vibrations can lead to 30% decrease of the axial force. The outcome of this study can benefit several clinical procedures in which a cannula device is used to cut and collect soft tissue samples.
Source: Journal of Medical Devices, Transactions of the ASME - Category: Medical Devices Source Type: research