Home /Research /Soft Robotic Deployable Origami Actuators for Neurosurgical Brain Retraction
SURGICAL

Soft Robotic Deployable Origami Actuators for Neurosurgical Brain Retraction

Tomas Amadeo, Daniel Van Lewen, Taylor Janke, Tommaso Ranzani, Anand K. Devaiah, Urvashi Upadhyay, Sheila Russo

Year
2022
Citations
25
Access
Open access

Abstract

Metallic tools such as graspers, forceps, spatulas, and clamps have been used in proximity to delicate neurological tissue and the risk of damage to this tissue is a primary concern for neurosurgeons. Novel soft robotic technologies have the opportunity to shift the design paradigm for these tools towards safer and more compliant, minimally invasive methods. Here, we present a pneumatically actuated, origami-inspired deployable brain retractor aimed at atraumatic surgical workspace generation inside the cranial cavity. We discuss clinical requirements, design, fabrication, analytical modeling, experimental characterization, and in-vitro validation of the proposed device on a brain model.

Keywords

WorkspaceComputer scienceSAFERSoft roboticsForcepsActuatorRetractor3D printingRobotBiomedical engineering

Related papers

Browse all SURGICAL papers