View clinical trials related to Basal Ganglia Hemorrhage.
Filter by: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 small-volume basal ganglion hemorrhage.
The aim of this study is to present current and comprehensive recommendations for surgical treatment of this hematoma and to determine the factors that may improve the survival rate
To compare the prognosis of patients with hypertensive intracerebral hemorrhage treated by two different surgical methods, and to clarify the therapeutic effect of minimally invasive surgery, so as to find a better surgical method that can reduce surgical trauma and mortality and improve the prognosis of patients
The primary objective of this trial is to provide preliminary safety data of minimally invasive endoscopic surgery using the Axonpen™ system for spontaneous intracerebral hemorrhage (ICH). The effectiveness of the Axonpen™ system in early hematoma removal and the surgical impact on subject's functional recovery will also be evaluated. The Axonpen™ system, consisting of a neuroendoscope (Axonpen) and a monitor (Axonmonitor), is cleared by FDA and indicated for the illumination and visualization of intracranial tissue and fluids and the controlled aspiration of tissue and/or fluid during surgery of the ventricular system or cerebrum.
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.
A study to examine the safety and potential effectiveness of human umbilical cord mesenchymal stem cells (hUMSCs) in adults who have suffered spontaneous cerebral hemorrhage in basal ganglia. The hypothesis is that hUMSCs will be safe and can improve neurological function after intracerebral hemorrhage so that improve the prognosis of patients.
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. Our hospital has much experience in treating cerebral hemorrhage with stereotactic puncture and aspiration. So we conduct a prospective multicenter randomized controlled clinical trial to determine the therapeutic effects of puncture aspiration plus thrombolysis treatment for the perioperative and long-term recovery of patients with small to moderate hematoma in deep basal ganglia via computerized precision coordinates and personalized approach design.