Litcius/Paper detail

Deep brain stimulation electrodes may rotate after implantation—an animal study

Alexander Rau, Horst Urbach, Volker A. Coenen, Karl Egger, Peter C. Reinacher

2020Neurosurgical Review23 citationsDOIOpen Access PDF

Abstract

Directional deep brain stimulation (dDBS) electrodes allow to steer the electrical field in a specific direction. When implanted with torque, they may rotate for a certain time after implantation. The aim of this study was to evaluate whether and to which degree leads rotate in the first 24 h after implantation using a sheep brain model. dDBS electrodes were implanted in 14 sheep heads and 3D rotational fluoroscopy (3D-RF) scans were acquired to visualize the orientation of the electrode leads. Electrode leads were clockwise rotated just above the burr holes (180° n = 6, 360° n = 6, 2 controls) and 3D-RF scans were again acquired after 3, 6, 13, 17, and 24 h, respectively. One hundred eighty degree rotated electrodes showed an initial rotation of 83.5° (range: 35.4°-128.3°) and a rotation of 114.0° (range: 57°-162°) after 24 h. With 360° torsion, mean initial rotation was 201° (range: 3.3°-321.4°) and mean rotation after 24 h 215.7° (range 31.9°-334.7°), respectively. Direct postoperative imaging may not be accurate for determining the rotation of dDBS electrodes if torque is present.

Topics & Concepts

ElectrodeMedicineFluoroscopyDeep brain stimulationRotation (mathematics)Biomedical engineeringClockwiseNuclear medicineSurgeryPhysicsPathologyGeometryMathematicsDiseaseParkinson's diseaseQuantum mechanicsNeurological disorders and treatmentsNeuroscience and Neural EngineeringParkinson's Disease Mechanisms and Treatments