Patent application number | Description | Published |
20090319021 | BIFURCATED MEDICAL APPLIANCE DELIVERY APPARATUS AND METHOD - The present invention, in preferred embodiments, provides delivery and deployment apparatuses for bifurcated stents capable of comfortably cradling the corina of bifurcated target tissue between the arms of the bifurcated stent as each arm of the bifurcated stent is delivered to a respective side branch. In particular, a family of apparatuses is provided that may be indicated for vascular and non-vascular intervention. | 12-24-2009 |
20100004732 | MEDICAL APPLIANCE DELIVERY APPARATUS AND METHOD OF USE - The present invention, in an exemplary embodiment, provides a stent deployment apparatus comprising safety and stent placement and deployment features. An exemplary stent deployment apparatus includes a longitudinally extending outer tubular member and a safety mechanism coupled thereto, wherein the safety mechanism includes a diverted channel. The apparatus also includes a longitudinally extending inner tubular member being longitudinally and axially displaceable relative to the outer tubular member, wherein the inner tubular member further comprises at least one detent along the longitudinal expanse thereof for operative interaction with the diverted channel. The extent of displaceability of the outer tubular member and inner tubular member relative to the other is limited to a predetermined threshold corresponding to engagement of the detent with the diverted channel absent intervention by the user of the device such that the degree of stent deployment is limited absent the user intervention. | 01-07-2010 |
20100057183 | MEDICAL APPLIANCE OPTICAL DELIVERY AND DEPLOYMENT APPARATUS AND METHOD - Embodiments of the present invention are directed to devices for allowing a user to deploy a stent in an anatomical lumen of a patient. For example, one embodiment is directed to a device including a longitudinally extending inner tubular member and a longitudinally extending outer tubular member that are longitudinally and axially displaceable relative to one another. The outer tubular member includes at least one longitudinally extending channel formed between the exterior and interior diameter of the outer tubular member. In addition, the device includes a handle configured to displace the outer tubular member and inner tubular member relative to each other in response to user intervention and a stop configured to coaxially engage the handle to form a safety mechanism. Displaceability of the outer tubular member and inner tubular member relative to each other is limited by the safety mechanism to a predetermined threshold. | 03-04-2010 |
20100173066 | COATED STENT WITH GEOMETRY DETERMINATED FUNCTIONALITY AND METHOD OF MAKING THE SAME - The present invention, in an exemplary embodiment, provides a stent, which combines many of the excellent characteristics of both silicone and metal stents while eliminating the undesirable ones. In particular, a principal objective in accordance with the present invention is to provide a family of stents where the relative hardness/softness of regions of the stent can differ from other regions of the stent to provide additional patient comfort and resistance to compression forces. Exemplary embodiments provide a stent that is coated in a manner that limits the amount of coating surface area that is in direct contact with the target lumen. In particular, a covered stent is provided that is coated internally such that the outer scaffolding surface of the stent is raised from the outer surface of the coating. To this end, cilia function is only partially limited and mucociliary clearance is not significantly affected. Moreover, the coating itself has anti-adherent properties such that bacteria, fungi or other microbials cannot colonize the cover in particular and the stent generally. | 07-08-2010 |
20110046710 | IMPLANTATION DEVICE WITH HANDLE AND METHOD OF USE THEREOF - An instrument for deploying an implantable medical device into a body lumen is disclosed. The instrument comprises a base member having a base handle and a deployment extension, a first tubular member having a first tubular body and a first handle, and a second tubular member having a second tubular body and a second handle. The first tubular member fits over the deployment extension and is longitudinally slidable over the deployment extension, and the second tubular member fits over the first tubular member and is longitudinally slidable over the first tubular member. The distal ends of the deployment extension, the first tubular body, and the second tubular body are adapted to hold and deploy the implantable medical device. | 02-24-2011 |
20110082392 | LUMEN-MEASURING DEVICES AND METHOD - The present invention provides a lumen measuring device and method that allows the user to calculate the exact length and diameter of a suitable interventional prosthesis as well as the height and length of stenosis during the same exploratory procedure. | 04-07-2011 |
20110301696 | DEVICE AND METHOD FOR MANAGEMENT OF ANEURISM, PERFORATION AND OTHER VASCULAR ABNORMALITIES - This application is directed to a device comprising a covering attached to the device. A process of making a device with a specific covering attached is also disclosed. The application further discloses a method for the treatment of perforations, fistulas, ruptures, dehiscence and aneurisms in luminal vessels and organs of a subject. | 12-08-2011 |
20120010503 | OPACITY TECHNOLOGY - A catheter device comprising a chamber containing an opacity enhancing substance is disclosed. The opacity enhancing substance is in a dried or semi-dried form within the chamber of the device. Release of a liquid into the chamber suspends the substance and forms an opacity enhancing solution that is released into the lumen of the device in order to enhance the opacity of the device for imaging. | 01-12-2012 |
20120238806 | IMPLANTATION SYSTEM WITH HANDLE AND CATHETER AND METHOD OF USE THEREOF - A system for deploying an implantable medical device into a body lumen is disclosed. The system comprises a catheter having functional zones for stability, protection, flexibility, trackability and pushability. The system further comprises a device for deploying an implantable medical device with the catheter. A method for deploying an implantable medical device into a body lumen using the system is also disclosed. | 09-20-2012 |
20130236498 | BIODEGRADABLE SUPPORTING DEVICE - A biodegradable in vivo supporting device is disclosed. The in vivo supporting device comprises a biodegradable metal scaffold and a biodegradable polymer coating covering at least a portion of the biodegradable metal scaffold, wherein the biodegradable polymer coating has a degradation rate that is faster than the degradation rate of the biodegradable metal scaffold. | 09-12-2013 |
20130310915 | IMPLANTATION SYSTEM WITH HANDLE AND CATHETER AND METHOD OF USE THEREOF - A system for deploying an implantable medical device into a body lumen is disclosed. The system comprises a catheter having functional zones for stability, protection, flexibility, trackability and pushability. The system further comprises a device for deploying an implantable medical device with the catheter. A method for deploying an implantable medical device into a body lumen using the system is also disclosed. | 11-21-2013 |
20130310916 | IMPLANTATION SYSTEM WITH HANDLE AND CATHETER AND METHOD OF USE THEREOF - A system for deploying an implantable medical device into a body lumen is disclosed. The system comprises a catheter having functional zones for stability, protection, flexibility, trackability and pushability. The system further comprises a device for deploying an implantable medical device with the catheter. A method for deploying an implantable medical device into a body lumen using the system is also disclosed. | 11-21-2013 |
20130317354 | OPACITY TECHNOLOGY - A catheter device comprising a chamber containing an opacity enhancing substance is disclosed. The opacity enhancing substance is in a dried or semi-dried form within the chamber of the device. Release of a liquid into the chamber suspends the substance and forms an opacity enhancing solution that is released into the lumen of the device in order to enhance the opacity of the device for imaging. | 11-28-2013 |
20140012308 | DEVICE AND METHOD FOR MANAGEMENT OF ANEURISM, PERFORATION AND OTHER VASCULAR ABNORMALITIES - This application is directed to a device comprising a covering attached to the device. A process of making a device with a specific covering attached is also disclosed. The application further discloses a method for the treatment of perforations, fistulas, ruptures, dehiscence and aneurisms in luminal vessels and organs of a subject. | 01-09-2014 |
20140147575 | BIODEGRADABLE SUPPORTING DEVICE - A biodegradable in vivo supporting device is disclosed. The in vivo supporting device comprises a biodegradable metal scaffold and a biodegradable polymer coating covering at least a portion of the biodegradable metal scaffold, wherein the biodegradable polymer coating has a degradation rate that is faster than the degradation rate of the biodegradable metal scaffold. | 05-29-2014 |
20140180206 | OPACITY TECHNOLOGY - A catheter device comprising a chamber containing an opacity enhancing substance is disclosed. The opacity enhancing substance is in a dried or semi-dried form within the chamber of the device. Release of a liquid into the chamber suspends the substance and forms an opacity enhancing solution that is released into the lumen of the device in order to enhance the opacity of the device for imaging. | 06-26-2014 |
20140194877 | ORTHOPEDIC FASTENER DEVICE - Orthopedic fastener devices for fixation of fractured bones are disclosed. The orthopedic fastener device is in the form of an orthopedic fastener having an IM nail coated on its external surface with a bioabsorbable or biodegradable hydrogel. Also disclosed are hydrogel coated orthopedic fastener devices in the form of a K-wire or bone screw, a method for stabilizing a fractured long bone fracture by inserting an orthopedic fastener into the medullary canal of the bone and a kit for fastener implantation. | 07-10-2014 |
20140356407 | BIODEGRADABLE SUPPORTING DEVICE - A biodegradable in vivo supporting device is disclosed. The in vivo supporting device comprises a biodegradable metal scaffold and a biodegradable polymer coating covering at least a portion of the biodegradable metal scaffold, wherein the biodegradable polymer coating has a degradation rate that is faster than the degradation rate of the biodegradable metal scaffold. | 12-04-2014 |
20150045791 | ORTHOPEDIC FASTENER DEVICE - Orthopedic fastener devices for fixation of fractured bones are disclosed. The orthopedic fastener device is in the form of an orthopedic fastener having an IM nail coated on its external surface with a bioabsorbable or biodegradable hydrogel. Also disclosed are hydrogel coated orthopedic fastener devices in the form of a K-wire or bone screw, a method for stabilizing a fractured long bone fracture by inserting an orthopedic fastener into the medullary canal of the bone and a kit for fastener implantation. | 02-12-2015 |
20150045792 | ORTHOPEDIC FASTENER DEVICE - Orthopedic fastener devices for fixation of fractured bones are disclosed. The orthopedic fastener device is in the form of an orthopedic fastener having an IM nail coated on its external surface with a bioabsorbable or biodegradable hydrogel. Also disclosed are hydrogel coated orthopedic fastener devices in the form of a K-wire or bone screw, a method for stabilizing a fractured long bone fracture by inserting an orthopedic fastener into the medullary canal of the bone and a kit for fastener implantation. | 02-12-2015 |