| Literature DB >> 35233564 |
Sun Jay Yoo1, Jody Mou1, Reena Elizebath1, Ananyaa Sivakumar2, Rene DeBrabander1, Mark Shifman3, Kevin Tu1, Wataru Ishida4, Mohammed Fouda4, Amir Manbachi1,4, Alan Cohen4.
Abstract
Access to deep-seated brain lesions (e.g., tumors, aneurysms, hematomas, and other malformations) is challenging due to the potential for retraction-induced injury. Traditionally, neurosurgeons use dissection and blade retractors to push apart tissue to visualize and operate on target lesions. These blades apply focal pressure onto the brain, resulting in ischemia, edema, and parenchymal trauma, leading to complications in up to 29% of cases. Tubular retractors were introduced to distribute forces radially and have led to improved safety and clinical outcomes. However, reports indicate that tubular retractors still led to complications in up to 9.1% of cases. Other concerns include significant pressure in the direction of insertion and the displacement of anatomic landmarks leading to inaccurate stereotaxis. We present a novel, minimally-invasive brain retractor that utilizes an expandable soft balloon to further reduce retraction-induced injury and increase stereotactic accuracy with a minimal port of entry. The device consists of a balloon catheter system, a clear sheath, and integration with neuronavigation stylets. This approach can reduce the rate of iatrogenic injury and improve clinical outcomes for brain lesion operations. Furthermore, we illustrate the efficacy of this device in use compared to those of conventional tubular and blade retractors in a pig cadaver.Entities:
Keywords: balloon catheter; brain retraction; medical device; minimally-invasive; neurosurgery; retraction-induced injury
Year: 2021 PMID: 35233564 PMCID: PMC8883836 DOI: 10.1115/dmd2021-1023
Source DB: PubMed Journal: Proc 2021 Des Med Devices Conf DMD2021 (2021)