by | Jan 15, 2025 | Cloonan, Paige, Kamath, Ashwin, Leuthardt, Eric, MacEwan, Matthew, Moore, Amy, Moran, Daniel, Qin, Yidan (Ida), Ray, Wilson, Zhang, Christopher
— Published date: 1/15/2025
Value Proposition: Implantable electrode device that can treat a plurality of medical diseases by stimulating or inhibiting select regions of sympathetic nervous system.
Technology Description
Researchers at Washington University in St. Louis have developed “SIMP…
by | Jan 15, 2025 | Genin, Guy, Haydon, Devon, Leuthardt, Eric, Limbrick, David, Marcus, Richard, McLaughlin, Aaron, Moran, Daniel, Shah, Manish, Smyth, Matthew, Stone, Samuel, Wang, Lihong, Winek, Michael, Yang, Alexander
— Published date: 1/15/2025
Value Proposition: New device that will reduce or eliminate the need for repeated surgeries to clear blocked catheter tips in ventriculoperitoneal shunts.
Technology Description
Researchers at Washington University in St. Louis have developed a self-powered, rotating c…
by | Jan 15, 2025 | Cloonan, Paige, Kamath, Ashwin, Leuthardt, Eric, MacEwan, Matthew, Moore, Amy, Moran, Daniel, Qin, Yidan (Ida), Ray, Wilson, Zhang, Christopher
— Published date: 1/15/2025
Value Proposition: Implantable electrode device that can treat a plurality of medical diseases by stimulating or inhibiting select regions of sympathetic nervous system.
Technology Description
Researchers at Washington University in St. Louis have developed “SIMP…
by | Jan 8, 2025 | Leuthardt, Eric, Moran, Daniel
— Published date: 1/9/2025
Value Proposition: Osteogenic device that provides a focal current through a bone construct to induce bone formation and fusion in patients.
Technology Description
Researchers at Washington University in St. Louis have developed an osteogenic screw system that can perfo…
by | Feb 23, 2023 | Brunner, Peter, Genin, Guy, Hacker, Carl, Leuthardt, Eric, Lowe, Halle, Molina, Camilo, Moran, Daniel, Repka, Alicia, Sandler, Jacob
— Technology Description
Researchers at Washington University in St. Louis have developed a system that uses lenticular arrays to better track pedicle screw placement during spinal fusion surgery. By enabling an accurate assessment of the screws’ locations, this system allows for computer-auto…
by | Jan 14, 2020 | Johnson, Tim, Leuthardt, Eric, Moran, Daniel, Reynolds, Benton, Stoev, Ivan, Wright, Neill
— Technology Description
A team of researchers at Washington University have developed ACALADE (Advanced Capability Lumbar Discectomy), a device designed to help surgeons safely access and quickly remove the back portions of herniated discs for faster, lower risk lumbar discectomy.
Currently, about…