Print Email Facebook Twitter Needle-like instruments for steering through solid organs Title Needle-like instruments for steering through solid organs: A review of the scientific and patent literature Author Scali, M. (TU Delft Medical Instruments & Bio-Inspired Technology) Pusch, T.P. Breedveld, P. (TU Delft Medical Instruments & Bio-Inspired Technology) Dodou, D. (TU Delft Medical Instruments & Bio-Inspired Technology) Date 2017 Abstract High accuracy and precision in reaching target locations inside the human body is necessary for the success of percutaneous procedures, such as tissue sample removal (biopsy), brachytherapy, and localized drug delivery. Flexible steerable needles may allow the surgeon to reach targets deep inside solid organs while avoiding sensitive structures (e.g. blood vessels). This article provides a systematic classification of possible mechanical solutions for three-dimensional steering through solid organs. A scientific and patent literature search of steerable instrument designs was conducted using Scopus and Web of Science Derwent Innovations Index patent database, respectively. First, we distinguished between mechanisms in which deflection is induced by the pre-defined shape of the instrument versus mechanisms in which an actuator changes the deflection angle of the instrument on demand. Second, we distinguished between mechanisms deflecting in one versus two planes. The combination of deflection method and number of deflection planes led to eight logically derived mechanical solutions for three-dimensional steering, of which one was dismissed because it was considered meaningless. Next, we classified the instrument designs retrieved from the scientific and patent literature into the identified solutions. We found papers and patents describing instrument designs for six of the seven solutions. We did not find papers or patents describing instruments that steer in one-plane on-demand via an actuator and in a perpendicular plane with a pre-defined deflection angle via a bevel tip or a pre-curved configuration. Subject Deflectionmechanical designmedical needlessteerable needlessolid organs To reference this document use: http://resolver.tudelft.nl/uuid:4b0f524a-e9e3-496e-b723-eb7057cb0ec2 DOI https://doi.org/10.1177/0954411916672149 ISSN 0954-4119 Source Institution of Mechanical Engineers. Proceedings. Part H: Journal of Engineering in Medicine, 231 (3), 250-265 Bibliographical note Accepted Author Manuscript Part of collection Institutional Repository Document type review Rights © 2017 M. Scali, T.P. Pusch, P. Breedveld, D. Dodou Files PDF Scali_et_al._2016.pdf 583.79 KB Close viewer /islandora/object/uuid:4b0f524a-e9e3-496e-b723-eb7057cb0ec2/datastream/OBJ/view