Stanford researchers in the Woo Lab have designed an implantable prosthetic for patients with aortic valve dysfunction, particularly for use in valve-sparing aortic root replacement procedures.
Stanford researchers in the Woo Lab have developed a modular bioprosthetic valve that allows for customizable leaflet configurations, ranging from bi- to multi-leaflet designs.
Clinician-scientists at Stanford have proposed a WNT formulation that, when used in combination with a first-of-its-kind normothermic perfusion device, reconditions marginal organs and enables their safe transplantation.
Stanford researchers have developed a method for manufacturing high quality multifunctional soft electronic fibers based on conventional microfabrication techniques.
Stanford researchers at the Zhao Lab have designed milli-spinner thrombectomy devices that mechanically debulk clots by safely shredding the clots for fast and complete clot removal.
Stanford researchers in the Zhao Lab have developed a mechanical thrombectomy device for Pulmonary Embolism (PE) that mechanically debulks and reduces volume of large clots without causing fragmentation.
Stanford researchers in the Zhao Lab have designed and optimized a rotation device that can mechanically dissolve a clot for fast and complete clot retraction.
Stanford researchers at the Woo Lab have designed and manufactured a flexible, compact laparoscopic device for knot tying during cardiac, thoracic, and ENT operations.
To manage the development and progression of glaucoma, researchers at Stanford University have developed a biocompatible suprachoroidal spacer implant.
Stanford inventors have developed a mobile thermoelectric device designed to preserve organs during transit by maintaining 10°C (+/-1°C) for over 6 hours.
Researchers at Stanford University have developed a multilayered immiscible polymer system capable of autonomously realigning its layers to enhance the healing process after damage.
Stanford researchers at the Zhao Lab have developed a wireless, magnetically actuated amphibious origami millirobot that can locomote in narrow spaces and morph their shapes. The researchers have demonstrated that this millirobot can travel on surfaces and through liquid.