Granada
Juan Granada, Orangeburg, NY US
Patent application number | Description | Published |
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20090118673 | NEEDLE INJECTION CATHETER - A needle injection catheter includes a delivery tube that slidably surrounds a hypotube that has at least three hollow needle portions connected to and extending outwardly at its distal end. The needle portions are formed of resilient material and curve outwardly from the delivery tube. The ends of the needle portions are shaped to penetrate tissue when the hypotube is urged out of the delivery tube. A first sensor is located adjacent the distal end of the delivery tube and a second sensor is located adjacent the end of the needle portion. The sensors are electrically connected to first and second notification devices located adjacent a first end of the delivery tube. Radiopaque markers are affixed to the delivery tube to locate the tip using an enhanced imaging system. The markers are sized, shaped, positioned and of different densities to locate the tip both axially and radially within body structures. | 05-07-2009 |
20090312617 | NEEDLE INJECTION CATHETER - The needle injection catheter includes a delivery tube and at least one hypotube that fits slidably within the delivery tube. The hypotube has at least three hollow needle portions extending outwardly at its distal end. The needle portions curve outwardly and have ends shaped to penetrate tissue. At least one reference electrode is located on the delivery tube, spaced from the second end. At least one proximal electrode is located adjacent and spaced from the end of the needle portion. The proximal electrode is electrically connected to a first notification device. A microcircuit is electrically connected to the proximal electrode, the reference electrode and to a power supply. A distal electrode is located adjacent the end of the needle portion and electrically connected to the microcircuit. A tip electrode is located adjacent the second end of the delivery tube and electrically connected to a second notification device and the microcircuit. | 12-17-2009 |
Juan Granada, Pearland, TX US
Patent application number | Description | Published |
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20090099652 | Composite Vascular Prosthesis - A novel treatment for atherosclerotic vascular disease is described utilizing the implantation of a thin, conformable biocompatible prosthesis constructed from a composite of various structural and therapeutic scaffolds in combination with one or more bioactive agents. This prosthesis can be delivered into position over a lesion in order to passivate atherosclerotic plaques with minimal remodeling of the artery, or alternatively can be applied with a balloon to passivate the remodeled site. The composite prosthesis itself provides mild structural reinforcement of the vessel wall and an evenly distributed platform for the introduction of bioactive therapeutic agents. | 04-16-2009 |
20090216309 | CONFORMABLE VASCULAR PROSTHESIS DELIVERY SYSTEM - Novel approaches for a conformable vascular prosthesis delivery system are provided which overcome the limitations of existing high pressure balloons for delivering intravascular prostheses to the site of high-risk plaques. One embodiment involves a short balloon segment which is inflated at one end of the prosthesis and then pulled to traverse the length of the prosthesis, dilating the surrounding prosthesis and securing it to the vessel wall as it traverses the length of the prosthesis. The short balloon segment causes less local trauma to the vessel relative to a full length balloon. Another embodiment involves use of a self-expandable mesh to expand the surrounding prosthesis and secure it to the vessel wall. The self expandable mesh is less traumatic than a typical angioplasty balloon because of the lower radial forces applied and the relatively higher transverse flexibility of the mesh. | 08-27-2009 |
20110313502 | COMPOSITE VASCULAR PROSTHESIS - A novel treatment for atherosclerotic vascular disease is described utilizing the implantation of a thin, conformable biocompatible prosthesis constructed from a composite of various structural and therapeutic scaffolds in combination with one or more bioactive agents. This prosthesis can be delivered into position over a lesion in order to passivate atherosclerotic plaques with minimal remodeling of the artery, or alternatively can be applied with a balloon to passivate the remodeled site. The composite prosthesis itself provides mild structural reinforcement of the vessel wall and an evenly distributed platform for the introduction of bioactive therapeutic agents. | 12-22-2011 |
Juan Granada, Upper Saddle River, NJ US
Patent application number | Description | Published |
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20140221961 | INSERTABLE MEDICAL DEVICE FOR DELIVERING NANO-CARRIERS OF MITOMYCIN (AND ITS ANALOGUES) TO A TARGET SITE, AND METHODS FOR PREPARING AND USING THE SAME - A nano-carrier comprising an antiproliferative drug encapsulated by a lipophilic enhancement agent. | 08-07-2014 |
Juan F. Granada, Upper Saddle River, NJ US
Patent application number | Description | Published |
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20090306582 | SCORING CATHETER AND METHOD FOR TREATING DISEASED HEART VALVES - The present invention provides a valvuloplasty catheter which has a scoring element at its distal part to score stenotic, calcified heart valves in radial direction and to make the single valve flaps/leaflets work again. In addition to this, the device could comprise an attached balloon to post-dilate the valve after the scoring procedure. To reduce a future recalcification, the scoring element and/or the balloon have a pharmacologic coating on their outer surface. | 12-10-2009 |
20100016940 | BIODEGRADABLE SELF-EXPANDING PROSTHESIS - Disclosed herein is a biodegradable prosthesis that includes a first end, a second end, and an elongate tubular body with a lumen therethrough. The prosthesis can have a first layer comprising a set of flexible interbraided bioabsorbable filaments, and optionally a set of flexible interbraided metallic filaments. Also, the prosthesis can have a second layer comprising a porous thermoplastic material that can be either an outer layer or an inner layer relative to the first layer. The prosthesis can include other features including branch apertures, folded portions, and attachment mechanisms for the first and second layers. | 01-21-2010 |
20130060327 | BIODEGRADABLE SELF-EXPANDING PROSTHESIS - Disclosed herein is a biodegradable prosthesis that includes a first end, a second end, and an elongate tubular body with a lumen therethrough. The prosthesis can have a first layer comprising a set of flexible interbraided bioabsorbable filaments, and optionally a set of flexible interbraided metallic filaments. Also, the prosthesis can have a second layer comprising a porous thermoplastic material that can be either an outer layer or an inner layer relative to the first layer. The prosthesis can include other features including branch apertures, folded portions, and attachment mechanisms for the first and second layers. | 03-07-2013 |
20140025164 | Disk-Based Valve Apparatus and Method for the Treatment of Valve Dysfunction - The present invention comprises a novel and safer mechanism of deployment using a self-positioning, self-centering, and self-anchoring method. To embody the present invention, a disk-based valve apparatus allowing the repositioning and retrieval of the implantable valve while working on a dysfunctional valve structure is disclosed. The disk-based valve apparatus may comprise one or more disks, either proximal or distal, a valve-housing component and a valve component. The one or more disks may be either proximal or distal, may be either connected to each other or disconnected from each other and may either be symmetrical or have different shapes and dimensions. The disk-based valve apparatus may be self anchoring, such as anchored by pressure from the one or more disk, or may be anchored using any anchoring. | 01-23-2014 |
20140257476 | Disk-Based Valve Apparatus and Method for the Treatment of Valve Dysfunction - The present invention comprises a novel and safer mechanism of deployment using a self-positioning, self-centering, and self-anchoring method. To embody the present invention, a disk-based valve apparatus allowing the repositioning and retrieval of the implantable valve while working on a dysfunctional valve structure is disclosed. The disk-based valve apparatus may comprise one or more disks, either proximal or distal, a valve-housing component and a valve component. The one or more disks may be either proximal or distal, may be either connected to each other or disconnected from each other and may either be symmetrical or have different shapes and dimensions. The disk-based valve apparatus may be self anchoring, such as anchored by pressure from the one or more disk, or may be anchored using any anchoring. | 09-11-2014 |
20150025623 | SYSTEM AND METHOD FOR CARDIAC VALVE REPAIR AND REPLACEMENT - A method of delivering a prosthetic mitral valve includes delivering a distal anchor from a delivery sheath such that the distal anchor self-expands inside a first heart chamber on a first side of the mitral valve annulus, pulling proximally on the distal anchor such that the distal anchor self-aligns within the mitral valve annulus and the distal anchor rests against tissue of the ventricular heart chamber, and delivering a proximal anchor from the delivery sheath to a second heart chamber on a second side of the mitral valve annulus such that the proximal anchor self-expands and moves towards the distal anchor to rest against tissue of the second heart chamber. The self-expansion of the proximal anchor captures tissue of the mitral valve annulus therebetween. | 01-22-2015 |