Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Gabbay
Lynn D. Gabbay, Sunnyvale, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20080229217 | Component for Accessing and Displaying Internet Content - A software component for accessing and displaying Internet content includes a definition for rendering a graphical user interface within which Internet content may be presented outside of and without utilization of a web browser application. The component also includes a network reference, such as a URL, pointing to the Internet content such that the Internet Content may be downloaded and presented within said user interface. A component provider may thus create customized displays within which intended web-content may be rendered. An application component may be used in association with the software component to manage the collection, organization, sharing, and rendering of a plurality of such software components. | 09-18-2008 |
| 20100235757 | APPARATUS AND METHOD FOR INTERACTING WITH INTERNET CONTENT - The invention includes a method of presenting distributable computer readable media to a user in response to a user request. The method comprises the steps of identifying a definition of a Networked Information Monitor (NIM). A NIM frame is defined for the NIM using the definition. Content is then retrieved for the NIM. Then, the content is placed in NIM viewer defined by the frame. The invention also includes a method of altering a Networked Information Monitor (NIM). The method includes the step of receiving a message at a NIM. The message specifies a configurable feature of the NIM. The NIM is altered in accordance with the configurable feature of the message. | 09-16-2010 |
Shlomo Gabbay, Baca Raton, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20110029072 | Heart valve prosthesis and method of implantation thereof - A heart valve prosthesis can include a supported valve including a biological valve portion mounted within a support structure. The supported valve is configured to provide for substantially unidirectional flow of blood through the supported valve. The supported valve has inflow and outflow ends that are spaced axially apart from each other. A fixation support member includes inflow and outflow portions. The inflow portion of the fixation support member extends from a radially inner contact surface of the fixation support member radially outwardly and axially in a direction of the inflow end of the supported valve. The outflow portion of the fixation support member extends from the radially inner contact surface radially outwardly and axially in a direction away from the inflow portion of the fixation support member. The radially inner contact surface is attached to a radially outer surface of the supported valve adjacent the inflow end of the supported valve. The supported valve and the fixation support member are deformable between a reduced cross-sectional dimension and an expanded cross-sectional dimension thereof, whereby implantation of the heart valve prosthesis is facilitated. | 02-03-2011 |
Shlomo Gabbay, Boca Raton, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20090248149 | INJECTABLE HEART VALVE PROSTHESIS FOR LOW-INVASIVE IMPLANTATION - A heart valve prosthesis may include a cylindrical support extending between axially spaced apart ends thereof, the cylindrical support including a plurality of support features extend generally axially between the opposed ends of the support, adjacent pairs of the support features being interconnected so as to bias the cylindrical support radially outwardly. A valve is mounted within the support to define a supported valve. The supported valve can include a sidewall portion extending between inflow and outflow ends thereof, the inflow and outflow ends of the valve sidewall portion being mounted within the cylindrical support such that ends of the sidewall portion are spaced axially apart from the spaced apart ends of the cylindrical support. The supported valve can also include a valve portion residing within the sidewall portion and configured to provide for substantially unidirectional flow of blood through the supported valve, the supported valve being deformable between a reduced cross-sectional condition and an expanded cross-sectional condition, whereby implantation of the supported valve is facilitated when in the reduced cross-sectional condition. | 10-01-2009 |
| 20110224678 | METHOD AND IMPLANTATION SYSTEM FOR IMPLANTING A CARDIOVASCULAR PROSTHESIS - A method of implanting a cardiac prosthesis is disclosed. The method can include placing a cardiac prosthesis into an elongated barrel of an implanter, the barrel comprising an open discharge end. An introducer apparatus is attached onto the open discharge end of the barrel, the introducer apparatus comprising a sidewall portion that extends from a first end portion and terminates in a distal end portion that gradually tapers to cross-sectional dimension that is less than cross-sectional dimension at the first end portion. The introducer apparatus can be configured to permit movement of the barrel, including the discharge end, axially through and beyond the distal end portion of the introducer apparatus. An opening can be created in tissue that provides a path from the opening to an implantation site. The introducer apparatus is inserted into the opening and the barrel axially can be moved through the introducer apparatus to position the discharge end of the barrel near the implantation site. The prosthesis can then be discharged from the barrel at the implantation site. | 09-15-2011 |
Shlomo Gabbay, New York, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20110238166 | METHOD FOR DIRECT IMPLANTATION OF A HEART VALVE PROSTHESIS - A method for implanting a heart valve into a patient's heart can include inserting the heart valve prosthesis into a barrel of an implanter apparatus, such that the heart valve prosthesis has a reduced cross-sectional dimension relative to a fully expanded cross-sectional dimension of the heart valve prosthesis. An opening is created in muscle tissue of the patient's heart to provide a substantially direct path that extends from the opening to a desired implantation site in the heart. A length of the barrel is inserted through the opening in the tissue such that an end of the barrel and the opening are along the direct path to the implantation site. The heart valve prosthesis is advanced through the barrel to the implantation site. The heart valve prosthesis is positioned at the desired implantation site. The heart valve prosthesis can be expanded at the desired implantation site from the reduced cross-sectional dimension toward the expanded cross-sectional dimension, such that an exterior portion of the heart valve prosthesis engages adjacent tissue to mitigate movement of the heart valve prosthesis relative to the adjacent tissue. | 09-29-2011 |