麻省理工学院科学家发明了注射芯片, 以大脑为目标, 治疗帕金森氏病, 并避免手术。 MIT scientists created injectable chips that target the brain, treat disorders like Parkinson’s, and avoid surgery.

麻省理工学院研究人员开发了可以注射的微缩电子芯片,可以在血流中穿梭,在目标脑区自我植入,并提供无线电刺激,治疗帕金森氏病、癫痫和抑郁症等疾病。 MIT researchers have developed injectable, microscopic electronic chips that can travel through the bloodstream, self-implant in targeted brain areas, and deliver wireless electrical stimulation to treat disorders like Parkinson’s, epilepsy, and depression. 芯片与活细胞混在一起 逃避免疫系统 越过血脑屏障 无需手术 Coated with living cells, the chips evade the immune system and cross the blood-brain barrier without surgery. 在老鼠研究中,它们减少了脑炎,并结合了神经组织,为传统脑植入提供了一种非侵入性的替代品。 In mouse studies, they reduced brain inflammation and integrated with neural tissue, offering a non-invasive alternative to traditional brain implants. 该技术于2025年11月5日发表在《自然生物技术》上,有一天可以治疗一系列神经和心理健康状况,并可用于其他身体部分。 The technology, published in Nature Biotechnology on November 5, 2025, could one day treat a range of neurological and mental health conditions and may be adapted for other body parts.