Patent application number | Description | Published |
20110213290 | Systems and Methods for Removing Undesirable Material Within a Circulatory System - A system for removing undesirable material from vessels and from chambers within the heart is provided. The system includes a suction cannula for removing the undesirable material from a site of interest within a patient. A filter device may be provided for capturing the undesirable material and removing it from the fluid flow. The system also includes pump for generating the necessary suction force through the suction cannula to dislodge the undesirable material from the site of interest and for generating a sufficient driving force to direct the fluid flow downstream within the system. The system further includes a reinfusion cannula for introducing fluid removed from the site of interest back into a patient. A method for removing undesirable material from vessels and from heart chambers is also provided. | 09-01-2011 |
20110213469 | Systems and Methods for Bariatric Therapy - The present invention provides bariatric therapy systems. One system includes a gastrointestinal implant device and a delivery mechanism therefor. The device can include a sleeve for placement into a small intestine and to minimize absorption of nutrients by its walls. An anchoring mechanism coupled to a proximal end of the sleeve and designed to be secured within the stomach can be provided. A passageway extending through the anchoring mechanism and the sleeve can also be provided, along which food can be directed from the stomach to the small intestine. The delivery mechanism can include a housing for accommodating the device, and a deploying balloon situated within the housing and which can be actuated to direct the sleeve of the device from within the housing to the site of implantation. Methods for providing bariatric therapy are also provided by the present invention. | 09-01-2011 |
20110224715 | Reversible Vascular Filter Devices and Methods for Using Same - The present invention provides, in one embodiment, a vascular filter device for capturing dislodged blood clots within a vessel. The vascular filter device includes an expandable framework for securing the device within a vessel. The device also includes a pathway extending through the framework. The device further includes at least one filter in alignment with the pathway for capturing dislodged clots or emboli. In an embodiment, the filter can be given form by a material that can be easily eliminated in situ to permit reestablishment of the pathway. | 09-15-2011 |
20120109144 | Systems and Methods for Tissue or Organ Removal - A system for tissue or organ removal is provided. The system has an outer bag having an exit end, and an inner bag situated within the outer bag and having an opening capable of receiving an organ or tissue. The inner bag may be sealed to the exit end of the outer bag about its opening. A fluid-tight space may be situated between the outer bag and the inner bag. The space may be designed to accommodate positive pressure which can act on the inner bag to cause the inner bag to evert and expel the organ or tissue. The system may also include an organ receiving component for receiving the organ as it is expelled. Methods for tissue or organ removal is also provided. | 05-03-2012 |
20120143225 | ENDOSCOPIC FASCIAL CLOSURE DEVICES AND METHODS FOR USING SAME - A system is disclosed including a first expandable anchor and a second expandable anchors. The anchors may be delivered to opposing sides of a fascial opening and expanding to a predetermined size to secure the anchor at the site of delivery. A strap, designed to pull the anchors together, may extend from the first anchor to the second anchor. Upon deployment, a tension force may be exerted on the strap in order to pull the anchors toward one another and close the fascial opening. Methods and apparatus for closing the fascial opening are also disclosed. | 06-07-2012 |
20120150193 | SYSTEM AND METHODS FOR HYSTEROSCOPIC TUBULAR LIGATION - A system for tubular ligation is disclosed. The system may include an anchor designed to advance into a channel and engage the walls of the channel. The anchor may have mechanisms that allow it to securely attach to walls of the channel and pull the channel. The system may also include a body for placement adjacent to the channel to align the anchor with the channel. The anchor and body may be arranged so that subsequent retreat of the anchor toward the body pulls and inverts a portion of the channel. The system may also include an occlusion mechanism for placement about the inverted portion of the channel to seal the channel. The occlusion mechanism may be configured to bias between an open state for placement on the body, and a compressed state for sealing the channel. A method for tubular ligation is also disclosed. | 06-14-2012 |
20120157760 | Tissue Restraining Devices and Methods of Use - Tissue restraining systems and devices as well as methods of using these devices are disclosed herein. According to aspects illustrated herein, there is provided a tissue restraining device that may include a first anchor having one or more contact points along a portion of the first anchor in a spaced relation to one another. The tissue restraining device may also include a second anchor for placement in a substantially opposing relation to the first anchor. A restraining matrix may extend from the contact points of the first anchor to the second anchor. | 06-21-2012 |
20120290077 | TISSUE RESTRAINING DEVICES AND METHODS OF USE - Tissue restraining systems and devices as well as methods of using these devices are disclosed herein. According to aspects illustrated herein, there is provided a tissue restraining device that may include an annuloplasty member having one or more contact points along a portion of the annuloplasty member in a spaced relation to one another. The tissue restraining device may also include a second anchor for placement in a substantially opposing, spaced relation to the annuloplasty member. A restraining matrix may extend from the contact points of the annuloplasty member to the second anchor. | 11-15-2012 |
20140180188 | SYSTEMS AND METHODS FOR BARIATRIC THERAPY - The present invention provides bariatric therapy systems. One system includes a gastrointestinal implant device and a delivery mechanism therefor. The device can include a sleeve for placement into a small intestine and to minimize absorption of nutrients by its walls. An anchoring mechanism coupled to a proximal end of the sleeve and designed to be secured within the stomach can be provided. A passageway extending through the anchoring mechanism and the sleeve can also be provided, along which food can be directed from the stomach to the small intestine. The delivery mechanism can include a housing for accommodating the device, and a deploying balloon situated within the housing and which can be actuated to direct the sleeve of the device from within the housing to the site of implantation. Methods for providing bariatric therapy are also provided by the present invention. | 06-26-2014 |
20160113769 | TISSUE RESTRAINING DEVICES AND METHODS OF USE - Tissue restraining systems and devices as well as methods of using these devices are disclosed herein. According to aspects illustrated herein, there is provided a tissue restraining device that may include an annuloplasty member having one or more contact points along a portion of the annuloplasty member in a spaced relation to one another. The tissue restraining device may also include a second anchor for placement in a substantially opposing, spaced relation to the annuloplasty member. A restraining matrix may extend from the contact points of the annuloplasty member to the second anchor. | 04-28-2016 |
Patent application number | Description | Published |
20130017714 | FLAT PLUG ELECTRICAL CONNECTORAANM Kao; SelvinAACI Ladera RanchAAST CAAACO USAAGP Kao; Selvin Ladera Ranch CA USAANM DeGuzman; Philip Carlo J.AACI FontanaAAST CAAACO USAAGP DeGuzman; Philip Carlo J. Fontana CA US - A low-profile flat plug electrical connector having an integrated strain relief section and an interlocking terminating end is disclosed. The flat plug electrical connector has a housing for holding the electrical cable and prongs, and a cap for covering the internal structure of the housing. The housing has an integrated strain relief section for preventing damage to the flat plug electrical connector from abrupt pulling or pushing of the electrical cords. The cap and the housing have interlocking terminating ends which are configured for preventing the cap from separating from the housing when the plug is pulled from an electrical outlet. The electrical prongs of the hot and neutral electrical wires and the ground pin are locked in place by posts protruding from the cap which urges the prong mounting tab against a mounting surface in the housing. | 01-17-2013 |
20130316557 | LOCKABLE ELECTRICAL CONNECTOR ASSEMBLIES - Lockable electrical connector assemblies that couple electrical connectors to prevent the electrical connectors from unintentionally disconnecting are disclosed. The electrical connector assembly has a first electrical connector, a second electrical connector, and a retention ring that has one end surrounding and able to rotate about the second electrical connector. The first electrical connector preferably has tabs that extend away from the first electrical connector. The retention ring has a second end shaped to receive and lock the tabs of the male electrical connector. To form a locked connection, a user rotates the retention ring that causes the retention ring to confine the tabs of the first electrical connector. The user continues to rotate the retention ring until retention ring is placed into a locked position. | 11-28-2013 |
20130334898 | AC POWER SYSTEMS FOR POWERING CORDLESS POWER TOOLS - Alternating current power systems for powering cordless power tools are disclosed. An electrical power assembly comprises an alternating current to direct current (“AC/DC”) converter connected to a power interface adapter. The AC/DC converter receives alternating current through an electrical socket and generates direct current. A power interface adapter shaped similarly to the replacement battery packs is connected to the cordless power tools and feeds the direct current to the cordless tool. The AC/DC converter may be located within the power interface adapter or a wall-mountable electrical connector. | 12-19-2013 |
20140248789 | LOCKABLE ELECTRICAL CONNECTOR ASSEMBLIES - Lockable electrical connector assemblies that couple electrical connectors to prevent the electrical connectors from unintentionally disconnecting are disclosed. The electrical connector assembly has a first electrical connector, a second electrical connector, and a retention ring that has one end surrounding and able to rotate about the second electrical connector. The first electrical connector preferably has tabs that extend away from the first electrical connector. The retention ring has a second end shaped to receive and lock the tabs of the male electrical connector. To form a locked connection, a user rotates the retention ring that causes the retention ring to confine the tabs of the first electrical connector. The user continues to rotate the retention ring until retention ring is placed into a locked position. | 09-04-2014 |
20150255915 | INSULATING ELECTRICAL PLUGS AND METHOD OF MANUFACTURE - Electrical plugs having single and double insulation as well as the method for manufacturing the double insulating electrical plugs are disclosed. The single insulated electrical plugs have internal walls which electrically isolate the electrical connectors. The single insulated electrical plug has a one-piece body with a central base which accepts the electrical connectors, as well as two covers hingably coupled to the base to secure the connectors in place. The double insulated electrical plugs are insulated by both an inner body as well as the overmold material. The inner body has vents which enable overmold material to be injected into the inner portions of the inner body as well as onto the outside of the inner body. During the manufacturing process, molten material flows over the outside of the inner body, and also flows into the interior of the inner body to provide two layers of electrical insulation. | 09-10-2015 |
20150255916 | INSULATING ELECTRICAL PLUGS AND METHOD OF MANUFACTURE - Electrical plugs having single and double insulation as well as the method for manufacturing the double insulating electrical plugs are disclosed. The single insulated electrical plugs have internal walls which electrically isolate the electrical connectors. The single insulated electrical plug has a one-piece body with a central base which accepts the electrical connectors, as well as two covers hingably coupled to the base to secure the connectors in place. The double insulated electrical plugs are insulated by both an inner body as well as the overmold material. The inner body has vents which enable overmold material to be injected into the inner portions of the inner body as well as onto the outside of the inner body. During the manufacturing process, molten material flows over the outside of the inner body, and also flows into the interior of the inner body to provide two layers of electrical insulation. | 09-10-2015 |
20150255941 | INSULATING ELECTRICAL PLUGS AND METHOD OF MANUFACTURE - Electrical plugs having single and double insulation as well as the method for manufacturing the double insulating electrical plugs are disclosed. The single insulated electrical plugs have internal walls which electrically isolate the electrical connectors. The single insulated electrical plug has a one-piece body with a central base which accepts the electrical connectors, as well as two covers hingably coupled to the base to secure the connectors in place. The double insulated electrical plugs are insulated by both an inner body as well as the overmold material. The inner body has vents which enable overmold material to be injected into the inner portions of the inner body as well as onto the outside of the inner body. During the manufacturing process, molten material flows over the outside of the inner body, and also flows into the interior of the inner body to provide two layers of electrical insulation. | 09-10-2015 |
20150357769 | INSULATING ELECTRICAL PLUGS AND METHOD OF MANUFACTURE - Electrical plugs having single and double insulation as well as the method for manufacturing the double insulating electrical plugs are disclosed. The single insulated electrical plugs have internal walls which electrically isolate the electrical connectors. The single insulated electrical plug has a one-piece body with a central base which accepts the electrical connectors, as well as two covers hingably coupled to the base to secure the connectors in place. The double insulated electrical plugs are insulated by both an inner body as well as the overmold material. The inner body has vents which enable overmold material to be injected into the inner portions of the inner body as well as onto the outside of the inner body. During the manufacturing process, molten material flows over the outside of the inner body, and also flows into the interior of the inner body to provide two layers of electrical insulation. | 12-10-2015 |