Stanford researchers at the Woo Lab have designed and manufactured a flexible, compact laparoscopic device for knot tying during cardiac, thoracic, and ENT operations.
Stanford researchers at the Woo Lab have invented a composite inclusion graft that addresses several challenges associated with the Ross procedure, such as late autograft dilation.
Stanford researchers at the Woo Lab have developed an innovative supra-hemostasis aortic graft, an advanced version of conventional aortic grafts. Current aortic grafts do not have reinforced suture area which can cause bleeding around the anastomosis line.
Stanford researchers at the Woo Lab have designed an innovative prosthetic valve to address challenges in mitral valve replacement for patients with severe mitral annular calcification (MAC).
Stanford scientists developed a comprehensive, minimally invasive, dual-catheter pulsed field device that utilizes a rapid and simple integrated mapping/ablation strategy for the treatment of Atrial Fibrillation.
Stanford researchers in the Woo Lab have developed a novel device that allows for direct visual assessment of the aortic valve apparatus under physiologic pressure in aortic valve procedures.
Stanford researchers have developed a contrastive learning approach that can significantly reduce the amount of labeled electrocardiogram (ECG) data required for downstream healthcare tasks, such as arrhythmia identification.
Stanford researchers have developed a new transcatheter, minimally invasive neochordal device for repair of mitral regurgitation, which does not require open heart surgery nor cardiopulmonary bypass.
Researchers from Prof. Karl Deisseroth's laboratory have developed techniques for specifically modulating the activity of excitable cells in vivo. This approach introduces light-responsive proteins to create photo-sensitive cells.
Stanford researchers at the Taylor Lab have developed software subroutines that can be used together with the open source software system Simvascular to improve the simulation of blood flow in modeling coronary arteries.
Developed at the Taylor Lab, Simvascular is an open source software package encompassing an entire cardiovascular modeling and simulation pipeline from image segmentation, three-dimensional (3D) solid modeling, and mesh generation, to