Objective:To preliminarily explore the application of directional electrodes with perceivable subthalamic nucleus-deep brain stimulation (STN-DBS) for Parkinson′s disease (PD).Methods:A retrospective analysis was conducted on 56 patients with primary PD who underwent STN-DBS treatment across multiple neurosurgical centers, including the Department of Neurosurgery of the First Medical Center of the Chinese People′s Liberation Army General Hospital, the Department of Neurosurgery of Hua′an Brain Hospital Affiliated to Anhui Medical University, and the Department of Neurosurgery of Hefei Second People′s Hospital, from January to December 2024. The cohort included 26 patients in the directional+perception group and 30 in the conventional group. The directional+perception group had activation contacts selected based on electrode branch contact locations and local field potential data recorded by the perceptible deep brain stimulation (DBS) system. The conventional group used contact testing to determine therapeutic contacts. Unified Parkinson′s Disease Rating Scale-Ⅲ (UPDRS-Ⅲ) assessments were performed in the medication-off state under continuous STN-DBS therapy at postoperative activation, 1, 3, and 6 months, comparing postoperative data with preoperative baseline. Initial programming outcomes were also compared between groups.Results:By combining directional electrodes with sensing capabilities, therapeutic contacts can be selected more quickly and effectively. The directional+ perception group showed significantly shorter initial programming time compared to the conventional group [(30.1±4.7) min vs (65.0±6.8) min, respectively], with a statistically significant difference ( t=-22.159, P<0.001). Compared to preoperative baseline, UPDRS-Ⅲ scores improved markedly at postoperative activation and at 1, 3, and 6 months, with improvements of 59.8%(20.6±5.2 vs 51.2±8.7), 62.1%(19.4±6.2 vs 51.2±8.7), 55.5%(22.8±7.2 vs 51.2±8.7), and 61.7%(19.6±13.9 vs 51.2±8.7), respectively. The scores of tremor showed the greatest improvement of 72.2% [2.5(0, 4.3) vs 9.0(0, 13.0)], 61.1% [3.5(0, 5.0) vs 9.0(0, 13.0)], 72.2% [2.5(0, 5.0) vs 9.0(0, 13.0)], 63.3% [0(0, 3.3) vs 9.0(0, 13.0)], respectively, followed by rigidity. Axial symptoms, postural stability, and gait improved moderately, while speech showed no significant change. Conclusions:In the treatment of PD, the combined use of directional electrodes and a perceivable DBS system allows precise selection of therapeutic contacts. This approach not only safely and effectively improves patients′ motor symptoms but also significantly reduces the time required for initial programming compared to conventional DBS systems, demonstrating clear clinical advantages.

Objective:To preliminarily explore the application of directional electrodes with perceivable subthalamic nucleus-deep brain stimulation (STN-DBS) for Parkinson′s disease (PD).Methods:A retrospective analysis was conducted on 56 patients with primary PD who underwent STN-DBS treatment across multiple neurosurgical centers, including the Department of Neurosurgery of the First Medical Center of the Chinese People′s Liberation Army General Hospital, the Department of Neurosurgery of Hua′an Brain Hospital Affiliated to Anhui Medical University, and the Department of Neurosurgery of Hefei Second People′s Hospital, from January to December 2024. The cohort included 26 patients in the directional+perception group and 30 in the conventional group. The directional+perception group had activation contacts selected based on electrode branch contact locations and local field potential data recorded by the perceptible deep brain stimulation (DBS) system. The conventional group used contact testing to determine therapeutic contacts. Unified Parkinson′s Disease Rating Scale-Ⅲ (UPDRS-Ⅲ) assessments were performed in the medication-off state under continuous STN-DBS therapy at postoperative activation, 1, 3, and 6 months, comparing postoperative data with preoperative baseline. Initial programming outcomes were also compared between groups.Results:By combining directional electrodes with sensing capabilities, therapeutic contacts can be selected more quickly and effectively. The directional+ perception group showed significantly shorter initial programming time compared to the conventional group [(30.1±4.7) min vs (65.0±6.8) min, respectively], with a statistically significant difference ( t=-22.159, P<0.001). Compared to preoperative baseline, UPDRS-Ⅲ scores improved markedly at postoperative activation and at 1, 3, and 6 months, with improvements of 59.8%(20.6±5.2 vs 51.2±8.7), 62.1%(19.4±6.2 vs 51.2±8.7), 55.5%(22.8±7.2 vs 51.2±8.7), and 61.7%(19.6±13.9 vs 51.2±8.7), respectively. The scores of tremor showed the greatest improvement of 72.2% [2.5(0, 4.3) vs 9.0(0, 13.0)], 61.1% [3.5(0, 5.0) vs 9.0(0, 13.0)], 72.2% [2.5(0, 5.0) vs 9.0(0, 13.0)], 63.3% [0(0, 3.3) vs 9.0(0, 13.0)], respectively, followed by rigidity. Axial symptoms, postural stability, and gait improved moderately, while speech showed no significant change. Conclusions:In the treatment of PD, the combined use of directional electrodes and a perceivable DBS system allows precise selection of therapeutic contacts. This approach not only safely and effectively improves patients′ motor symptoms but also significantly reduces the time required for initial programming compared to conventional DBS systems, demonstrating clear clinical advantages.