Long-acting nanomedicine for brain diseases.

Effective pharmacological management of neurological disorders is profoundly limited by the blood-brain barrier (BBB) and the short biological half-life of therapeutics, necessitating frequent and invasive administration. Long-acting drug delivery systems (LADDS) integrated with nanotechnology offer a transformative paradigm to overcome these challenges. This review discusses the key principles and nanoplatforms enabling sustained brain drug delivery to the central nervous system. Key release mechanisms are analyzed including diffusion, degradation, and stimuli-responsiveness which alongside a survey of major nanocarrier platforms, designed to achieve controlled pharmacokinetics and enhanced BBB penetration. Recent groundbreaking applications in preclinical models of ischemic stroke, Alzheimer's disease, glioma, and traumatic brain injury are highlighted, where LADDS provide continuous, localized neuroprotection and modulate chronic pathology. Finally, the significant translational challenges, including long-term biocompatibility, manufacturing scalability, and regulatory hurdles, are critically evaluated. LADDS are poised to redefine neuropharmacology, shifting the focus from transient symptom management to precise, durable, and restorative intervention for chronic brain diseases.