Core Insights - Royal Philips, a leader in health technology, has announced the SEISMIC research consortium, which aims to transform neurosurgery through the integration of minimally invasive surgical techniques and advanced imaging technologies, supported by EUR 23.5 million in public funding and EUR 14.9 million in contributions from industry partners [1][6]. Group 1: Project Overview - The SEISMIC project will focus on improving patient care by shifting from open brain surgery to minimally invasive procedures, utilizing advanced imaging and precision navigation [2][4]. - The project will develop an integrated suite of technologies, including real-time surgical navigation combining ultrasound and live X-ray imaging, and minimally invasive biopsy and treatment techniques [5][6]. - The total budget for the five-year research program is EUR 38.4 million, which includes eight clinical studies to validate technical solutions for minimally invasive neurosurgery [6][7]. Group 2: Medical and Societal Impact - Neurological conditions, such as hemorrhagic stroke and brain tumors, are significant contributors to global health issues and socioeconomic costs, necessitating urgent minimally invasive treatment options [3][4]. - The SEISMIC project aims to reduce procedure times, minimize surgical trauma, and accelerate patient recovery, thereby improving clinical outcomes and expanding access to specialized neurosurgical care [7]. Group 3: Specific Conditions Addressed - The project will specifically target three critical neurological conditions: intracerebral hemorrhage, subdural hematoma, and brain tumors, focusing on enhancing surgical techniques and diagnostic methods [5][13]. - For intracerebral hemorrhage, the project will explore the use of real-time imaging to guide minimally invasive drainage devices [5][13]. - In addressing subdural hematoma, the team will investigate a combined procedure for drainage and embolization to prevent recurrence of bleeding [13]. - For brain tumors, SEISMIC will assess the use of cryoablation and focused ultrasound-enhanced liquid biopsy to reduce the need for open surgery [13].

Core Insights - The SEISMIC project, coordinated by Philips and funded by the EU's Innovative Health Initiative, aims to revolutionize neurosurgery by integrating advanced imaging and minimally invasive techniques to treat brain bleeding and tumors [2][3] Group 1: Project Overview - The SEISMIC project has a total budget of EUR 38.4 million, which includes EUR 23.5 million in public funding and EUR 14.9 million in in-kind contributions from industry partners [2] - The project will span five years and include eight clinical studies to validate technical solutions for minimally invasive neurosurgery [2] Group 2: Objectives and Innovations - The project seeks to shift from open brain surgery to minimally invasive procedures, enhancing patient care through advanced imaging and precision navigation [3][5] - SEISMIC will develop technologies such as real-time surgical navigation combining ultrasound and live X-ray imaging, simulation platforms for clinician training, and minimally invasive biopsy and treatment techniques [8] Group 3: Focus Areas - The project will address three critical neurological conditions: intracerebral hemorrhage, subdural hematoma, and brain tumors, which require surgical intervention for patient survival and quality of life [8][14] - Specific innovations include using real-time imaging for minimally invasive drainage of intracerebral hemorrhage, a combined procedure for subdural hematoma, and cryoablation for brain tumor treatment [14]