| Patent application number | Description | Published |
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| 20090142027 | Method and apparatus for treating a mating portion of a fiber optic connector - A method and apparatus for treating a mating portion of a fiber optic connector for reducing an insertion force for the mating portion includes providing a mating portion of a fiber optic connector and treating the mating portion of the fiber optic connector by applying a cleaning and/or lubricating solution thereto to reduce the insertion force of the mating portion. | 06-04-2009 |
| 20100054679 | Fiber optic cable assembly with floating tap - A fiber optic cable assembly with a floating tap is disclosed, wherein the assembly comprises a fiber optic cable having a cable fiber assembly, such as in the form of a ribbon stack. The assembly includes at least one network access point (NAP) for accessing at least one cable fiber in the cable fiber assembly and at least one strength area for example a strength member. At least one cable fiber is extracted from the cable fiber assembly and held by a transition assembly. A buffer conduit loosely contains the at least one cable fiber and guides it to an intermediate buffer conduit, which in turn guides the at least one cable fiber to a splice tube. The intermediate buffer conduit can translate relative to the splice tube. At least one tether fiber is spliced to the at least one cable fiber. Alternatively, the at least one cable fiber has sufficient length to serve as the at least one tether fiber so that splicing to another fiber is not required. Each strength member is covered by a movable member. A bonding structure bonds the cable fiber assembly, buffer conduit and movable member so that the cable fiber assembly can translate but not rotate relative to the cable within the NAP. This allows the tap point to “float” within the NAP when the cable fiber assembly needs to translate within the cable. | 03-04-2010 |
| 20100054681 | High-density patch-panel assemblies for optical fiber telecommunications - Patch panel assemblies ( | 03-04-2010 |
| 20100129031 | Optical Ferrule Assemblies and Methods of Making the Same - Disclosed are multifiber ferrule assemblies and methods for manufacturing the same. In one embodiment, a finished multifiber ferrule can be provided with a front end having a first front surface that extends beyond a second front surface, thereby inhibiting interaction with a laser beam during processing. A plurality of optical fibers can be fixed within respective optical fiber bores and extend from respective optical fiber bore openings to a position beyond the first front surface. The plurality of optical fibers can be processed by cutting and polishing with a laser beam for providing each optical fiber with a final polished end surface located beyond the first front surface. In further embodiments, an offset structure is positioned with respect to a finished multifiber ferrule after cutting and polishing the optical fibers. | 05-27-2010 |
| 20100213214 | METHOD AND APPARATUS FOR TREATING A MATING PORTION OF A FIBER OPTIC CONNECTOR - A method and apparatus for treating a mating portion of a fiber optic connector for reducing an insertion force for the mating portion includes providing a mating portion of a fiber optic connector and treating the mating portion of the fiber optic connector by applying a cleaning and/or lubricating solution thereto to reduce the insertion force of the mating portion. | 08-26-2010 |
| 20100278495 | FIBER OPTIC CABLE ASSEMBLY WITH FLOATING TAP - A fiber optic cable assembly with a floating tap is disclosed, wherein the assembly comprises a fiber optic cable having a cable fiber assembly, such as in the form of a ribbon stack. The assembly includes at least one network access point (NAP) for accessing at least one cable fiber in the cable fiber assembly and at least one strength area for example a strength member. At least one cable fiber is extracted from the cable fiber assembly and held by a transition assembly. A buffer conduit loosely contains the at least one cable fiber and guides it to an intermediate buffer conduit, which in turn guides the at least one cable fiber to a splice tube. The intermediate buffer conduit can translate relative to the splice tube. At least one tether fiber is spliced to the at least one cable fiber. Alternatively, the at least one cable fiber has sufficient length to serve as the at least one tether fiber so that splicing to another fiber is not required. Each strength member is covered by a movable member. A bonding structure bonds the cable fiber assembly, buffer conduit and movable member so that the cable fiber assembly can translate but not rotate relative to the cable within the NAP. This allows the tap point to “float” within the NAP when the cable fiber assembly needs to translate within the cable. | 11-04-2010 |
| 20110085776 | High-Density Patch-Panel Assemblies for Optical Fiber Telecommunications - Patch panel assemblies ( | 04-14-2011 |
| Patent application number | Description | Published |
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| 20090043387 | IMPLANTATION OF MAGNETS IN BONE TO REDUCE CONTACT PRESSURE - Permanent magnets are implanted in bone to unload compressive forces at joints using the repulsive force therebetween. A porous metal container is implanted first and becomes fixed in place by bone growth. The permanent magnet is then inserted in the container and retained in place. A magnet prescription system includes a display and input device which enables a user to alter parameters such as magnet size, strength and placement and calculate and display the repulsive force that will result. | 02-12-2009 |
| 20100114127 | Soft Tissue Attachment Device - Methods and devices are disclosed for the attachment of a soft tissue structure (e.g., tendon or ligament) to bone or a prosthetic implant. In one form, the device includes a clamp comprising a porous metallic material. The clamp includes a convex tissue engaging surface. The device also includes a fastener for compressing the soft tissue between the tissue engaging surface and the bone or the prosthetic implant. The porous metallic material allows the ingrowth of soft tissue into the clamp. In another form, the device includes a second clamp comprising a porous metallic material. The second clamp including a first surface, a concave tissue engaging surface opposite the first surface, and a throughhole extending from the first surface to the concave tissue engaging surface. The second clamp is placed adjacent the bone, the soft tissue is placed adjacent the second clamp, and the first clamp is placed adjacent the soft tissue. A fastener is inserted through the throughhole of the first clamp, through the soft tissue, through the throughhole of the second clamp and into the bone such that the soft tissue is compressed between the convex tissue engaging surface of the first clamp and the concave tissue engaging surface of the second clamp. | 05-06-2010 |
| 20100145452 | PROSTHETIC IMPLANT SUPPORT STRUCTURE - A prosthetic system that includes a prosthetic implant and a support structure secured to an inner surface of a cavity of a bone is disclosed. The support structure defines a channel that extends through the length of the support structure. The prosthetic implant is received in the channel, and a portion of the prosthetic implant is secured to an inner surface of the support structure by an adhesive. The support structure may comprise a pair of partially hemispherical components arranged in spaced apart relationship thereby defining the channel between the pair of components. | 06-10-2010 |
| 20110009974 | TIBIAL AUGMENTS FOR USE WITH KNEE JOINT PROSTHESES, METHOD OF IMPLANTING THE TIBIAL AUGMENT, AND ASSOCIATED TOOLS - A tibial augment for use with a knee joint prosthesis, composed of annular members of different stock sizes, each size being configured to fit within a cavity formed in a human tibia. The augment may include a stepped distal surface. A provisional (temporary) tibial augment used to ensure a proper fit for the permanent augment is also provided. The provisional may include grooves configured to cooperate with a set of ribs on a tong-like holder used for removing the provisional from the cavity. A pusher for use implanting the tibial augment is also provided. In addition, a system for creating a cavity in a human tibia is also described. The system preferably includes a guide with a slot therein and a set of osteotomes that are inserted within different portions of the slot. Methods for using the tools and/or implanting the prosthetic devices discussed above are also described. | 01-13-2011 |
| 20110066252 | PROSTHETIC IMPLANT SUPPORT STRUCTURE - A prosthetic system that includes a prosthetic implant and a support structure secured to an inner surface of a cavity of a bone is disclosed. The support structure defines a channel that extends through the length of the support structure. The prosthetic implant is received in the channel, and a portion of the prosthetic implant is secured to an inner surface of the support structure by an adhesive. The support structure may comprise a pair of partially hemispherical components arranged in spaced apart relationship thereby defining the channel between the pair of components. | 03-17-2011 |
| 20110112651 | FEMORAL AUGMENTS FOR USE WITH KNEE JOINT PROSTHESIS - A femoral augment, or set of augments, for use with a knee joint prosthesis, where the femoral augment includes a main body portion, an aperture formed within the main body portion and extending in a generally distal/proximal direction, and a pair of legs extending outwardly from said main body portion in a generally posterior direction. In the preferred embodiment, the aperture is configured to receive a stem extension implant, and to allow it to pass through. Additionally, the legs of the femoral augment are preferably configured to be seated proximal of a proximal side of a pair of condylar portions of a femoral component of a knee joint prosthesis. The present invention is intended for situations in which the distal portion of the femur is defective, and it provides a method and devices that allow for preservation of healthy peripheral bone, while still providing the necessary augmentation to the distal portion of the femur. | 05-12-2011 |
| 20110295382 | PROSTHETIC IMPLANT SUPPORT STRUCTURE - A prosthetic system that includes a prosthetic implant and a support structure secured to an inner surface of the cavity in the end of the bone is disclosed. The support structure defines a channel that extends through the length of the support structure. The prosthetic implant is received in the channel, and a portion of the prosthetic implant is secured to an inner surface of the channel by an adhesive. The stem of the prosthesis beyond the channel may be cemented or uncemented. The support structure may have an approximately funnel shape. The support structure may be a hollow porous cylindrical sleeve. The support structure may comprise a pair of partially hemispherical components arranged in spaced apart relationship thereby defining a channel between the pair of components. The support structure may comprise a plurality of pedestals secured to the inner surface of the cavity of the bone. | 12-01-2011 |
