Patent application number | Description | Published |
20090024071 | U-Shaped Disc Shunt and Delivery Device - The intervertebral disc contains no blood vessels. Nutrients and waste are diffused mainly through adjacent vertebral bodies. As we age, calcified layers form between the disc and vertebral bodies, blocking diffusion. The disc begins to starve and flatten. The weight shifts abnormally from disc to the facet joints causing strain and back pain. Under anaerobic conditions, lactic acid is produced causing acidic irritation and unspecific pain. A U-shaped disc shunt ( | 01-22-2009 |
20090082719 | Injection device for the intervertebral disc - The intervertebral disc is avascular. With aging, calcified layers occlude the cartilaginous endplates, blocking the diffusion of nutrients and oxygen into the avascular disc. Under anaerobic condition, excessive production of lactic acid irritates nerves and further hinders transport of sodium sulfate essential for biosynthesis of the water retaining and load sustaining sulfated glycosaminoglycans. As the result of acid irritation and load shifting to facet joints, pain ensues. Through the pedicle, calcified endplate is punctured by a well-supported and elastically curved needle, injecting antacid to neutralize the lactic acid and enhance transport of sodium sulfate into the shielded discs between ilia. Disc filler or nutrients can also be injected through the curved needle into the degenerated disc. | 03-26-2009 |
20090198248 | Device for disc shunt implantation and peri-shunt injection - A Quincke tipped introducer needle contains two shafts with lumens, one recessed, both connected by a slit for housing a U- or V-shaped disc shunt. The recessed shaft minimizes the penetration size of the introducer needle for insertion into a narrow and nerve laden space adjacent to a degenerated intervertebral disc. The longitudinal slit connecting the two lumens allows passage of the distal portion of the U-shaped disc shunt through the introducer needle, to be delivered into the intervertebral disc. | 08-06-2009 |
20100030241 | Spooled filament to repair tissue - A filament-guiding device directs a filament to spool over a rotating device within tissue. The filament-guiding device has both closed and open positions. In the closed position, the filament-guiding device is resiliently straightened for delivering into tissue. Within tissue, the filament-guiding device resumes a curved configuration in the open position to orient the filament perpendicular to the rotating device for spooling. The spooled filament is deployed by withdrawing the rotating device and filament-guiding device to bulk and repair the tissue. | 02-04-2010 |
20110029016 | Elastic tissue closure with elastic staple - The staple legs with tissue gripping elements are elastically curved. Curvatures of the legs are resiliently straightened and spearheaded by a pair of trocars for puncturing into tissue. While the staple is held stationary by a sleeve, the trocars are withdrawn to allow the legs to resume curvatures, elastically fastening the tissue. | 02-03-2011 |
20110098628 | Internal and external disc shunts alleviate back pain - The intervertebral disc is avascular. Nutrients and waste are diffused through adjacent vertebral bodies into the disc. As we age, calcified layers form between the disc and vertebral bodies, blocking diffusion of nutrients, oxygen and pH buffer in blood. Under anaerobic conditions, lactic acid is produced, irritating nerve endings and causing nonspecific pain. In addition, the disc begins to starve and flatten. The weight shifts abnormally from disc to the facet joints causing strain and back pain. | 04-28-2011 |
20120029412 | INTERNAL AND EXTERNAL DISC SHUNT ALLEVIATE BACK PAIN - The intervertebral disc is avascular. Nutrients and waste are diffused through adjacent vertebral bodies into the disc. As we age, calcified layers form between the disc and vertebral bodies, blocking diffusion of nutrients, oxygen and pH buffer in blood. Under anaerobic conditions, lactic acid is produced, irritating nerve endings and causing nonspecific pain. In addition, the disc begins to starve and flatten. The weight shifts abnormally from disc to the facet joints causing strain and back pain. Shunt coils are formed and spiraled over the distal shaft of a twistable needle, then deployed into the nucleus of a degenerated disc by a sliding sleeve. The coils serve as an internal shunt, drawing nutrients, oxygen and buffering solute from the superior and inferior diffusion zones to neutralize lactic acid in the mid layer of the degenerated disc. The coils also serve as a bulking agent within the repaired disc to sustain compression and reduce facet loading and segmental instability. The end strands of the shunt coils can also extend from the disc to draw blood plasma from muscle or bodily circulation to expedite neutralization of lactic acid and rebuild disc matrix for pain relief and disc regeneration. | 02-02-2012 |
20120065570 | Disc shunt delivery with stepped needle - A solid stepped needle delivers a disc shunt bridging between muscle and a degenerated disc, drawing blood plasma from muscle into the degenerated disc to alleviate back pain and regenerate the disc. The device further includes pull lines attached to the ends of the disc shunt for withdrawing and repositioning the stepped needle during shunt delivery. | 03-15-2012 |
20130261665 | METHODS FOR ANCHORING SUTURE AND APPROXIMATING TISSUE - An elastically curved suture anchor is resiliently straightened and delivered into tissue by a needle. When the needle is withdrawn, resumption of the curvature provides leverage for anchor rotation as the attached suture is pulled to fasten the anchor within the tissue. A fin at the proximal end of the anchor further increases the rotational leverage and expedites anchor fastening. When two or more anchors with connecting suture are delivered in series on a needle, the tension of the suture helps to draw the anchors together and approximates the pierced tissue. | 10-03-2013 |
20140277457 | Tissue Repair with Space-Seeking Spirals of Filament - The distal portion of a shape-memory filament extends from a needle containing at least one filament gripping element. To implant the shape-memory filament in tissue, the needle is inserted into a cannula with a flexible and removable hook. During partial withdrawal of the needle, the hook holds the distal portion of the filament stationary to deposit a section of filament in the distal portion of the cannula. The needle is re-advanced, pushing the section of the shape-memory filament to coil or fold within the tissue. Rotation of the needle with the filament gripping element further tightens the coiled or folded filament. Partial withdrawal, re-advancement, rotation and pushing of the needle are repeated to fill, pack, strengthen, enlarge or augment the tissue with the shape-memory filament. | 09-18-2014 |
20140288600 | Methods for Anchoring Suture and Approximating Tissue - An elastically curved suture anchor is resiliently straightened and delivered into tissue by a needle. When the needle is withdrawn, resumption of the curvature provides leverage for anchor rotation as the attached suture is pulled to fasten the anchor within the tissue. A fin at the proximal end of the anchor further increases the rotational leverage and expedites anchor fastening. When two or more anchors with connecting suture are delivered in series on a needle, the tension of the suture helps to draw the anchors together and approximates the pierced tissue. | 09-25-2014 |