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Showing 1-4 of 4 trials
NCT06484374
This substudy is a prospective, multicenter, parallel-controlled, randomized controlled trial designed to evaluate whether robot-assisted endoscopic evacuation of large basal ganglia hematomas can improve patient outcomes compared with traditional surgical approaches such as small craniotomy or large-bone-flap intracranial hematoma evacuation.
NCT06465719
A nationwide, prospective, multicenter randomized controlled clinical trial to evaluate the therapeutic effects of the fiber tract-based artificial intelligence (AI) Robot Guiding System on the perioperative and long-term recovery of patients with moderate-volume basal ganglion hemorrhage.
NCT07205263
Intracerebral hemorrhage (ICH) is one of the most devastating forms of stroke, with high rates of death and disability worldwide. Despite advances in medical and surgical care, effective therapeutic options remain limited. To address this gap, the RAINBOW-ICH trial has been designed as a nationwide, multicenter, randomized umbrella trial evaluating the efficacy and safety of AI-assisted, robotic-guided minimally invasive neurosurgery compared with conventional strategies across major ICH subtypes. Under a single master protocol, RAINBOW-ICH incorporates multiple parallel randomized controlled substudies, each targeting a distinct ICH population-large basal ganglia hemorrhage, moderate basal ganglia hemorrhage, intraventricular hemorrhage, and brainstem hemorrhage. This umbrella design allows efficient use of resources while generating high-quality evidence tailored to the specific needs of different ICH subgroups, thereby supporting a more patient-centered approach to care.
NCT04172376
Spontaneous cerebral hemorrhage is one of the main causes of death and disability all over the world, accounting for 20%-30% of all cerebrovascular diseases. Minimally invasive surgery of cerebral hemorrhage, especially puncture aspiration, can improve early and long-term neurological recovery in patients with cerebral hemorrhage. Until now, no standardized practice for minimally invasive surgery of spontaneous cerebral hemorrhage has been established. Hematoma puncture and drainage based on CT scans without precise localization and personalized approach design, which may lead to poor efficacy and high risk of complications. The investigators' hospital has much experience in treating cerebral hemorrhage with stereotactic puncture and aspiration. So the investigators conduct a prospective multicenter randomized controlled clinical trial across the country to determine the therapeutic effects of puncture aspiration plus thrombolysis treatment for the perioperative and long-term recovery of patients with small hematoma in deep basal ganglia via computerized precision coordinates and personalized approach design.