麻省理工学院研究人员为非侵入性脑刺激创造了250纳米磁纳米盘,为神经条件下的深脑刺激提供了潜在的替代方法。 MIT researchers created 250 nm magnetic nanodiscs for non-invasive brain stimulation, offering a potential alternative to deep brain stimulation for neurological conditions.
麻省理工学院研究人员创造了创新的磁纳米光盘,尺寸为250纳米,使大脑能够不受侵入地受到刺激。 MIT researchers have created innovative magnetic nanodiscs, measuring 250 nanometers, that enable non-invasive stimulation of the brain. 这些磁盘可以使用磁场在外部注入并激活,为传统的深脑刺激提供潜在的替代方法。 These discs can be injected and activated externally using a magnetic field, offering a potential alternative to traditional deep brain stimulation. 这一进展可以加强对帕金森氏病和内分泌疾病等神经疾病的治疗,同时尽量减少植入的需要,减少外国身体反应。 This advancement could enhance treatments for neurological conditions like Parkinson's disease and OCD, while minimizing the need for implants and reducing foreign body responses.