Patent application number | Description | Published |
20130015975 | Distributed Medical Sensing System and Method - A method of communicating medical sensing data including receiving, at a patient communication system, medical sensing data collected by a medical sensing device during a medical sensing procedure. The method also includes creating, with the patient communication system, a data message, the data message including at least a portion of the medical sensing data, information about the medical sensing procedure, and information about the medical sensing data and transmitting, with the patient communication system, the data message to a centralized computing device over a data network. | 01-17-2013 |
20130023762 | Distributed Medical Sensing System and Method - A distributed medical sensing system including a first body sensing device configured to sense medical characteristics, the first body sensing device being located in a first sterile field and a second body sensing device configured to sense medical characteristics, the second body sensing device being located in a second sterile field, the second sterile field being spaced from the first sterile field. The syJostem also includes a computing device outside of the first and second sterile fields and communicatively coupled to the first and second body sensing devices, the computing device configured to respectively receive first and second medical characteristic data from the first and second body sensing devices, process the first and second medical characteristic data, and transmit the processed first and second medical characteristic data to respective first and second user interface devices. | 01-24-2013 |
20130023763 | Distributed Medical Sensing System and Method - A distributed medical sensing system including a first hub configured to receive first medical characteristic data from a first body sensing device, the first body sensing device being located in a first sterile field and a second hub configured to receive second medical characteristic data from a second body sensing device, the second body sensing device being located in a second sterile field spaced from the first sterile field. The system also includes a computing device outside of the first and second sterile fields and communicatively coupled to the first and second hubs, the computing device configured to receive the first and second medical characteristic data from the respective first and second hubs, process the first and second medical characteristic data, and transmit the processed first and second medical characteristic data to the respective first and second hubs. | 01-24-2013 |
Patent application number | Description | Published |
20140039276 | Devices, Systems, and Methods for Assessing a Vessel - Embodiments of the present disclosure are configured to assess the severity of a blockage in a vessel and, in particular, a stenosis in a blood vessel. In some particular embodiments, the devices, systems, and methods of the present disclosure are configured to assess the severity of a stenosis in the coronary arteries utilizing external imaging. | 02-06-2014 |
20140180034 | SIMULTANEOUS IMAGING, MONITORING, AND THERAPY - Using the disclosed intravascular devices it is possible to image tissues, deliver therapy, and evaluate the tissue after the therapy is delivered. One embodiment is a catheter configured to provide ultrasound imaging, drug delivery, and Doppler flow analysis. The devices can use ultrasound imaging as well as optical coherence tomography (OCT). | 06-26-2014 |
20140180077 | TISSUE ABLATION CATHETER AND METHODS OF ABLATING TISSUE - Catheters having expandable members, e.g., balloons, incorporating heating elements and temperature sensors for controlled delivering of energy to tissues, i.e., to treat diseases, especially hypertension. The invention also describes methods for monitoring and controlling the amount of energy delivered to the tissue. | 06-26-2014 |
20140276038 | SYSTEMS AND METHODS FOR PREDICTING IMPACT OF A CATHETER ON CURVATURE OF A VESSEL - The invention generally relates to systems and methods for predicting impact of a catheter on curvature of a vessel. In certain aspects, the invention provides a system for predicting impact of a catheter on curvature of a vessel. The system includes a central processing unit (CPU) and storage coupled to the CPU for storing instructions. The stored instructions, when executed by the CPU, cause the CPU to accept as input data representative of stiffness of a catheter. The CPU is additionally caused to compare the data to a material parameters data set. The material parameters data set includes vessel displacement values for catheters of different stiffness. The CPU is additionally caused to predict impact of the catheter on a curvature of a vessel based on the comparison of the data to the material parameters data set, and to provide the prediction as an output. | 09-18-2014 |
20140276684 | ATHERECTOMY METHODS USING COREGISTERED SETS OF DATA - The present invention generally relates to methods for removing plaque from a vessel. The method can involve obtaining a first image of a blood vessel using a first imaging modality, obtaining a second image of the blood vessel using a second imaging modality, and coregistering the first and second images, thereby generating a coregistered data set. The method can further involve inserting an atherectomy catheter into the blood vessel and removing plaque from the vessel with the atherectomy catheter based on plaque identified in the coregistered set of data. | 09-18-2014 |