Patent application number | Description | Published |
20100314553 | ARTICLE SANITIZER - An article sanitizer includes a rigid opaque enclosure open at a door side thereof An enclosure door is adapted to selectively close the door side of the enclosure. At least one UV bulb is fixed to at least one bulb fixture within the enclosure and extends at least partially into the open internal space of the enclosure. A cage is fixed around each sanitizer bulb. An article fastener is fixed with the cage and is adapted to be selectively fastened to the article for securing the article thereto. An electronic circuit is electrically connected to each sanitizer bulb and is adapted to power each bulb for a present period of time. A switch may be included proximate the door and adapted to electrically close when the door is closed to prevent bulb activation when the door is open. A wheeled support stand may be fixed with the enclosure. | 12-16-2010 |
20120181447 | ARTICLE SANITIZER - An article sanitizer includes a rigid opaque enclosure open at a door side thereof. An enclosure door is adapted to selectively close the door side of the enclosure. At least one UV bulb is fixed to at least one bulb fixture within the enclosure and extends at least partially into the open internal space of the enclosure. A cage is fixed around each sanitizer bulb. An article fastener is fixed with the cage and is adapted to be selectively fastened to the article for securing the article thereto. An electronic circuit is electrically connected to each sanitizer bulb and is adapted to power each bulb for a present period of time. A switch may be included proximate the door and adapted to electrically close when the door is closed to prevent bulb activation when the door is open. A wheeled support stand may be fixed with the enclosure. | 07-19-2012 |
20130256560 | APPARATUS AND METHOD FOR SANITIZING ARTICLES - An apparatus is provided for sanitizing an article, the apparatus comprising a housing defining an enclosed internal chamber and having an opening at a door side into the chamber. A door is configured to selectively close the door side of the housing for substantially sealing the chamber. A UV light source is disposed internally of the housing for irradiating the chamber, and an electronic circuit is electrically connected to the UV light source and adapted to power the UV light source for a predetermined period of time. A reflector unit is disposed on one of the walls, the reflector unit including a reflective section projecting outwardly at an angle with respect to the wall. With the article placed in the chamber and the door closed and the electronic circuit activated, the UV lamp is illuminated for the predetermined period of time for sanitizing the article. | 10-03-2013 |
20140203188 | ARTICLE SANITIZER - A sanitizer for an article comprises an enclosure defining an internal space. A cage is mounted to the enclosure and extends into the internal space. A sanitizer bulb is disposed within the cage. At least one hanging element is fixed to the cage, the hanging element adapted to hang an article therefrom. A sanitizer for a bag including at least two handles comprises an enclosure defining an internal space and including a floor and a ceiling. A cage is mounted to the ceiling of the enclosure and extends into the internal space. A sanitizer bulb is disposed within the cage. A pair of handle hooks is fixed to the cage and each adapted to engage one handle of the bag for securing the bag around the cage. | 07-24-2014 |
Patent application number | Description | Published |
20110022176 | Intervertebral body fusion cage with keels and implantation methods - An intervertebral implant has a fusion body with at least one keel that anchors the implant into cancellous bone of at least one vertebral body. A method for implantation includes lateral implantation of the implant. | 01-27-2011 |
20110071568 | Spacer Devices Having Retainers And Systems For The Treatment Of Spinal Stenosis And Methods For Using The Same - Spacer devices for treating spinal stenosis are provided herein, as are methods for using the same. In some example embodiments, these devices are configured for attachment over or through the interspinous ligaments. These devices generally include a spacer portion and an attachable retainer. Also provided are systems for the delivery of the spacer devices and methods for using the same. | 03-24-2011 |
20110213410 | METHOD FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 09-01-2011 |
20110213411 | METHOD FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 09-01-2011 |
20110213412 | APPARATUS FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 09-01-2011 |
20110213449 | APPARATUS FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 09-01-2011 |
20110288580 | SYSTEM AND METHOD FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 11-24-2011 |
20110295316 | SYSTEM AND METHOD FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 12-01-2011 |
20120065668 | SYSTEM AND METHOD FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 03-15-2012 |
20120083829 | SYSTEM AND METHOD FOR VESSEL ACCESS CLOSURE - Embodiments are described for closing vascular access ports, such as arteriotomies, which involve placement and deployment of an expandable device configured to prevent blood flow across a subject arteriotomy while also keeping disturbance of intravascular flow to a minimum. Suitable prostheses may comprise one or more frames constructed from lengths of flexible materials, such as shape memory alloys or polymers. Such frames may be coupled to sheetlike or tube-like structures configured to spread loads, minimize thrombosis which may be related to intravascular flow, and maintain hemostasis. | 04-05-2012 |
20130218215 | METHOD FOR SACRO-ILIAC STABILIZATION - Configurations are described for conducting minimally invasive medical interventions utilizing elongate instruments and assemblies thereof to stabilize and/or fixate a sacro-iliac joint. In one embodiment, a tool assembly may be advanced from a posterior approach into the SI junction and configured to create a defect defined at least in part by portions of both the sacrum and the ilium, the defect having a three dimensional shape defined in part by at least one noncircular cross sectional shape in a plane substantially perpendicular to the longitudinal axis of the tool assembly. After a defect is created, the tool assembly may be retracted and a prosthesis deployed into the defect. | 08-22-2013 |
20130231746 | SYSTEM FOR SACRO-ILIAC STABILIZATION - Configurations are described for conducting minimally invasive medical interventions utilizing elongate instruments and assemblies thereof to stabilize and/or fixate a sacro-iliac joint. In one embodiment, a tool assembly may be advanced from a posterior approach into the SI junction and configured to create a defect defined at least in part by portions of both the sacrum and the ilium, the defect having a three dimensional shape defined in part by at least one noncircular cross sectional shape in a plane substantially perpendicular to the longitudinal axis of the tool assembly. After a defect is created, the tool assembly may be retracted and a prosthesis deployed into the defect. | 09-05-2013 |
Patent application number | Description | Published |
20080221692 | INTERSPINOUS PROCESS IMPLANTS AND METHODS OF USE - Systems and method in accordance with an embodiment of the present invention can includes an implant comprising a first wing, a spacer extending from the first wing, and a distraction guide. The distraction guide is arranged in a first configuration to pierce and/or distract tissue associated with adjacent spinous processes extending from vertebrae of a targeted motion segment. The implant can be positioned between the adjacent spinous processes and once positioned, the implant can be arranged in a second configuration. When arranged in a second configuration, the distraction guide can act as a second wing. The first wing and the second wing can limit or block movement of the implant along a longitudinal axis of the implant. | 09-11-2008 |
20100262243 | SPINE DISTRACTION IMPLANT - A spine distraction implant alleviates pain associated with spinal stenosis and facet arthropathy by expanding the volume in the spine canal and/or neural foramen. The implant provides a spinal extension stop while allowing freedom of spinal flexion. An interspinous process implant with a selectably expandable spacer can be placed between adjacent spinous processes. a device implanted between the spinous processes of adjacent vertebrae of the spine can be used for relieving pain associated with the vertebrae and surrounding tissues and structures by maintaining and/or adding distraction between adjacent vertebrae. A tissue expander can be adapted to move from a first insertion position, for ease of implantation between spinous processes, to a second retention position that prevents displacement of the implant. An embodiment of a system can include an implant having a spacer with a thickness and a wing, wherein a first configuration of the wing has a first height substantially similar to the thickness and wherein the wing is adapted to be selectably arranged in a second configuration such that the wing has a second height greater than the first height. A periphery of the implant has a shape generally conformal with a shape of an inner surface of a cannula and a cross-sectional diameter smaller than an inner diameter of the cannula. The cannula is inserted such that a proximal end of the cannula is arranged between the adjacent spinous processes. The implant is then urged into position between the adjacent spinous processes by way of the cannula, and subsequently arranged in a second configuration to fix the implant in position. | 10-14-2010 |
20110112577 | INTERSPINOUS PROCESS IMPLANT HAVING DEPLOYABLE WINGS AND METHOD OF IMPLANTATION - An embodiment of a system in accordance with the present invention can include an implant having a spacer with a thickness and a wing, wherein a first configuration of the wing has a first height substantially similar to the thickness and wherein the wing is adapted to be selectably arranged in a second configuration such that the wing has a second height greater than the first height. A periphery of the implant has a shape generally conformal with a shape of an inner surface of a cannula and a cross-sectional diameter smaller than an inner diameter of the cannula. The cannula is inserted such that a proximal end of the cannula is arranged between the adjacent spinous processes. The implant is then urged into position between the adjacent spinous processes by way of the cannula, and subsequently arranged in a second configuration to fix the implant in position. | 05-12-2011 |
20120083843 | Interspinous Process Implant Having a Thread-Shaped Wing and Method of Implantation - A spinal implant adapted to be inserted into an interspinous space between adjacent spinous processes includes a proximal section, a central section, and a distal section disposed sequentially along a longitudinal axis. The distal section has feature(s) that allow the implant to be inserted laterally into the interspinous space, such as an approximately helical groove and/or a thread-like structure. The distal tip of the implant tapers inwardly, and may be rounded. The proximal section may include an outwardly extending wing or flange. The implant may include a main body that includes the wing or flange and a spacer slidably mated to the main body through the wing or flange. | 04-05-2012 |
20120109205 | Systems and Methods for In Situ Assembly of an Interspinous Process Distraction Implant - An implant system for implantation between adjacent spinous processes for the relief of pain associated with the spine. The implant has a series of spacers which may be inserted over a shaft located between adjacent spinous processes thus allowing the implant to be assembled in situ. The spacers may rotate on the shaft relative to the wings. To minimize trauma to the patient, each spacer has a tapered tissue expander to distract the opening between the spinous processes during assembly. The shaft is connected to a wing, and a second wing or deployable wing may be inserted over the shaft and locked into place. | 05-03-2012 |
20130267836 | GUIDE PIN - This application relates generally to guide pins and wires. More specifically, this application relates to guide pins and wires used in medical procedures such as bone fixation or fusion. One embodiment of the guide pin includes a distal end with a ball end cutter. Other embodiments of the guide pin include expandable prongs that can impede further advancement of the guide pin. | 10-10-2013 |
20130267961 | IMPACTOR - This application relates generally to impactors. More specifically, this application relates to impactors used in medical procedures such as bone fixation or fusion. In some embodiments, the impactors include features that prevent or reduce the likelihood of over-insertion of an implant within a bone cavity. | 10-10-2013 |
20130296953 | FENESTRATED IMPLANT - The present invention relates generally to implants used in medical procedures such as bone fixation or fusion. More specifically, this application relates to fenestrated implants used in bone fixation or fusion. | 11-07-2013 |
20140276846 | SYSTEMS AND METHODS FOR IMPLANTING BONE GRAFT AND IMPLANT - This application relates generally to broaches. More specifically, this application relates to broaches used to shape bores in bone. The broaches can shape the bores to receive an implant and also cut additional tubes or channels for receiving bone graft material and/or biologic aids. | 09-18-2014 |
20140276851 | SYSTEMS AND METHODS FOR REMOVING AN IMPLANT - A system for removing an implant from bone can include a guidepin that can be attached to the implant; an osteotome having a flat, elongate body and a sharp, blade portion for cutting bone; an osteotome guide having a elongate body having a plurality of planar faces and a rectilinear cross-section that corresponds in shape to the rectilinear cross-section of the implant, a lumen extending through the elongate body of the osteotome for receiving the guidepin, and a plurality of channels for receiving the osteotome, wherein one of the plurality of channels is disposed along each one of the plurality of planar faces. | 09-18-2014 |
20140277462 | IMPLANTS FOR FACET FUSION - Assemblies of one or more implant structures make possible the achievement of diverse interventions involving the fusion and/or stabilization of lumbar and sacral vertebra in a non-invasive manner, with minimal incision, and without the necessitating the removing the intervertebral disc. The representative lumbar spine interventions, which can be performed on adults or children, include, but are not limited to, translaminar lumbar fusion and lumbar facet fusion involving a curved implant structure. | 09-18-2014 |
20140277463 | LONG IMPLANT FOR SACROILIAC JOINT FUSION - Systems, devices and methods for fusing both sacroiliac joints of a patient using a long implant are provided. The method can include inserting a guide pin through the first ilium and across the first SI-Joint, through the sacrum and above the S1 foramen, across the second SI-Joint, and through the second ilium; forming a first rectilinear cavity through the first ilium and the first SI-Joint; forming a second rectilinear cavity through the second ilium and the second SI-Joint, wherein the first rectilinear cavity and the second rectilinear cavity are aligned; and inserting an implant through the first cavity, across the first SI-Joint, through the sacrum, across the second SI-Joint, and through the second cavity. | 09-18-2014 |
20140288605 | IMPLANTS FOR SPINAL FIXATION OR FUSION - The present invention generally relates to bone implants. More specifically, the present invention relates to bone implants used for the fixation or fusion of the sacroiliac joint and/or the spine. For example, a system for fusing or stabilizing a plurality of bones is provided. The system includes an implant structure having stem portion and a head portion, the stem portion having a rectilinear cross sectional area. A tulip or saddle structure can be attached to the head portion, and a rod can be secured within the tulip or saddle structure. | 09-25-2014 |