Patent application number | Description | Published |
20080255501 | PERCUTANEOUS DELIVERY AND RETRIEVAL SYSTEMS FOR SHAPE-CHANGING ORTHOPEDIC JOINT DEVICES - Delivery and retrieval systems for delivering or retrieving a shape-changing percutaneously implantable orthopedic device joint prosthesis that can move between a generally arcuate configuration and a substantially straightened or slightly curved configuration. The orthopedic device can be delivered with a needle that is joint expanding, actuating, pivotable, or can include a balloon. The orthopedic device acts as a soft compliant bearing surface or cushion that minimizes the bone-on-bone wear from articulation and loading and may include a covering or coating with tissue or an expanding hydrophilic material. The orthopedic device delivery system can include a loading device with a channel for storing the orthopedic device in a non-straightened configuration and orienting the orthopedic device in the proper implantation orientation. The orthopedic device can be advanced or retrieved through the loading device with a knob and/or a flexible plunger. | 10-16-2008 |
20090005871 | SUTURE-BASED ORTHOPEDIC JOINT DEVICES - Devices and treatments for various joint conditions include a resilient elongate orthopedic device inserted into a joint space using a suture. The suture is passed through the joint space and used to pull the orthopedic device into the joint space. The suture may be using a percutaneously inserted needle or other type of needle-based delivery instrument. The resilient elongate orthopedic device may be restrained to a reduced profile that permits minimally invasive implantation, but assume an enlarged profile when positioned at an implantation site. | 01-01-2009 |
20090012612 | DEVICES AND METHODS FOR PUSH-DELIVERY OF IMPLANTS - Devices and treatments for a joint include a resilient elongate orthopedic device inserted into a joint space using a delivery instrument. The orthopedic device is housed in a delivery cavity of the delivery instrument delivered to an implantation site using a push mechanism. The delivery instrument optionally comprises a guide or tongue structure to facilitate positioning of the delivery instrument about the implantation site. | 01-08-2009 |
20090012617 | SUTURE-BASED ORTHOPEDIC JOINT DEVICE DELIVERY METHODS - Devices and treatments for various joint conditions include a resilient elongate orthopedic device inserted into a joint space using a suture. The suture is passed through the joint space and used to pull the orthopedic device into the joint space. The suture may be using a percutaneously inserted needle or other type of needle-based delivery instrument. The resilient elongate orthopedic device may be restrained to a reduced profile that permits minimally invasive implantation, but assume an enlarged profile when positioned at an implantation site. | 01-08-2009 |
20100168864 | TENSIONED DELIVERY OF ORTHOPEDIC JOINT DEVICE - Devices and treatments for various joint conditions include a resilient elongate orthopedic device inserted into a joint space using a suture. The suture is passed through the joint space and used to pull the orthopedic device into the joint space. The suture may be using a percutaneously inserted needle or other type of needle-based delivery instrument. The resilient elongate orthopedic device may be restrained to a reduced profile that permits minimally invasive implantation, but assume an enlarged profile when positioned at an implantation site. To facilitate insertion of the orthopedic device through a minimally invasive or limited access procedure, a delivery system may be used to support and orient the orthopedic device during implantation. In some instances, the delivery system may also reduce the delivery profile of the device for insertion through a minimally invasive or limited access procedure. | 07-01-2010 |
20110029094 | RETRIEVAL OF ORTHOPEDIC JOINT DEVICE - Delivery and retrieval systems for delivering or retrieving a shape-changing percutaneously implantable orthopedic device joint prosthesis that can move between a generally arcuate configuration and a substantially straightened or slightly curved configuration. The orthopedic device can be delivered with a needle that is joint expanding, actuating, pivotable, or can include a balloon. The orthopedic device acts as a soft compliant bearing surface or cushion that minimizes the bone-on-bone wear from articulation and loading and may include a covering or coating with tissue or an expanding hydrophilic material. The orthopedic device delivery system can include a loading device with a channel for storing the orthopedic device in a non-straightened configuration and orienting the orthopedic device in the proper implantation orientation. The orthopedic device can be advanced or retrieved through the loading device with a knob and/or a flexible plunger. | 02-03-2011 |
20120016483 | SUTURE-BASED ORTHOPEDIC JOINT DEVICES - Devices and treatments for various joint conditions include a resilient elongate orthopedic device inserted into a joint space using a suture. The suture is passed through the joint space and used to pull the orthopedic device into the joint space. The suture may be using a percutaneously inserted needle or other type of needle-based delivery instrument. The resilient elongate orthopedic device may be restrained to a reduced profile that permits minimally invasive implantation, but assume an enlarged profile when positioned at an implantation site. | 01-19-2012 |
20130046386 | SUTURE-BASED ORTHOPEDIC JOINT DEVICES - Devices and treatments for various joint conditions include a resilient elongate orthopedic device inserted into a joint space using a suture. The suture is passed through the joint space and used to pull the orthopedic device into the joint space. The suture may be using a percutaneously inserted needle or other type of needle-based delivery instrument. The resilient elongate orthopedic device may be restrained to a reduced profile that permits minimally invasive implantation, but assume an enlarged profile when positioned at an implantation site. | 02-21-2013 |