Billoud, ThomasThomasBilloudReinacher, Peter ChristophPeter ChristophReinacherWeigt, MoritzMoritzWeigtElverfeldt, Dominik vonDominik vonElverfeldtDemerath, TheoTheoDemerathPichotka, MartinMartinPichotka2025-01-272025-01-272025https://publica.fraunhofer.de/handle/publica/48298610.1159/000542015Introduction: One of the challenges in directional deep brain stimulation (DBS) is to determine the orientation of implanted electrodes relative to targeted regions. Post-operative images must be aligned with a model of the implanted lead, usually a computer-based model provided by the manufacturer. This paper shows that models can alternatively be obtained by capturing images of individual leads using micro-CT, a high-resolution CT technique. Contrary to computer-aided design models, lead models generated this way provide realistic X-ray contrast and finer details. Methods: We scanned DBS leads from various vendors using a Bruker SkyScan 1276 micro-CT system. To reduce beam-hardening artefacts, samples were scanned at maximum X-ray tube voltage (100 kV) and with copper filtering. Images were made publicly available for download and 3D visualisation. Conclusion: Detailed images of single DBS leads can be generated using standard micro-CT systems. Their use as reference models could improve lead orientation algorithms, in particular those dedicated to X-ray modalities. Furthermore, the possibility to share models online could broaden access for clinical research.enDeep brain stimulationMicro-CTDirectional leadsjournal article