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104 results about "Lateral recess" patented technology

The lateral recess is a projection of the fourth ventricle which extends into, or rather below, the inferior cerebellar peduncle of the brainstem. The lateral aperture (Foramen of Luschka), an opening in each extremity of the lateral recess, provides a pathway for cerebrospinal fluid to flow from the brain's ventricular system into the subarachnoid space. The lateral aperture is the end point (and opening or foramen) of the lateral recess. Consider the lateral recess as a tunnel whose opening at one end is the lateral aperture.

Surgical Apparatus Including Surgical Buttress

A surgical stapling apparatus includes a housing and an end effector secured to the housing. The housing supports a knife assembly including a knife. The end effector has first and second jaw members. One or both of the first and second jaw members define a knife channel. The first jaw member defines fastener slots and the second jaw member defines fastener pockets. One or more of the knife channel, the fastener slots, and the fastener pockets includes lateral recesses. Fasteners are disposed in the fastener slots and formed by the fastener pockets. One or more surgical buttresses have a body that overlies one or both of the fastener slots and the fastener pockets. Portions of the body of the one or more surgical buttresses are disposed within the lateral recesses to secure the one or more surgical buttresses to one or both of the first jaw member and the second jaw member.
Owner:TYCO HEALTHCARE GRP LP

Devices and methods for tissue access

Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. In one variation, a tissue abrasion device is provided including a thin belt or ribbon with an abrasive cutting surface. The device may be placed through the neural foramina of the spine and around the anterior border of a facet joint. Once properly positioned, a medical practitioner may enlarge the lateral recess and neural foramina via frictional abrasion, i.e., by sliding the abrasive surface of the ribbon across impinging tissues. A nerve stimulator optionally may be provided to reduce a risk of inadvertent neural abrasion. Additionally, safe epidural placement of the working barrier and epidural tissue modification tools may be further improved with the use of electrical nerve stimulation capabilities within the invention that, when combined with neural stimulation monitors, provide neural localization capabilities to the surgeon. The device optionally may be placed within a protective sheath that exposes the abrasive surface of the ribbon only in the area where tissue removal is desired. Furthermore, an endoscope may be incorporated into the device in order to monitor safe tissue removal. Finally, tissue remodeling within the epidural space may be ensured through the placement of compression dressings against remodeled tissue surfaces, or through the placement of tissue retention straps, belts or cables that are wrapped around and pull under tension aspects of the impinging soft tissue and bone in the posterior spinal canal.
Owner:SPINAL ELEMENTS INC +1

Devices and methods for tissue access

InactiveUS20060122458A1Enabling symptomatic reliefApproach can be quite invasiveCannulasDiagnosticsSurgical departmentNerve stimulation
Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. In one variation, a tissue removal device is provided including a thin belt or ribbon with an abrasive cutting surface. The device may be placed through the neural foramina of the spine and around the anterior border of a facet joint. Once properly positioned, a medical practitioner may enlarge the lateral recess and neural foramina via frictional abrasion, i.e., by sliding the tissue removal surface of the ribbon across impinging tissues. A nerve stimulator optionally may be provided to reduce a risk of inadvertent neural abrasion. Additionally, safe epidural placement of the working barrier and epidural tissue modification tools may be further improved with the use of electrical nerve stimulation capabilities within the invention that, when combined with neural stimulation monitors, provide neural localization capabilities to the surgeon. The device optionally may be placed within a protective sheath that exposes the abrasive surface of the ribbon only in the area where tissue removal is desired. Furthermore, an endoscope may be incorporated into the device in order to monitor safe tissue removal. Finally, tissue remodeling within the epidural space may be ensured through the placement of compression dressings against remodeled tissue surfaces, or through the placement of tissue retention straps, belts or cables that are wrapped around and pull under tension aspects of the impinging soft tissue and bone in the posterior spinal canal.
Owner:BAXANO

Catheter anchor

A catheter anchoring or securement device and system in combination with or for securing a catheter system to a patient's skin in a fixed position, the invention having a flexible anchor sheet member having an adhesive backing that adheres the flexible anchor sheet member to the patient's skin, a catheter receiving body mounted to the flexible anchor sheet member, and releasable securing means comprising a cover or closure member covering the catheter receiving body, wherein the catheter receiving body is provided with a cavity or recess, the peripheral configuration of which corresponds to the footprint configuration of the catheter body member. The cavity has an axially-oriented channel extending the full width of the flexible anchor sheet member and opposing sets of retention walls defining lateral recesses, the combination of which precludes relative movement of the catheter fitting in all lateral directions.
Owner:ZEFON INT

Devices and methods for tissue modification

Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. In one variation, a tissue abrasion device is provided including a thin belt or ribbon with an abrasive cutting surface. The device may be placed through the neural foramina of the spine and around the anterior border of a facet joint. Once properly positioned, a medical practitioner may enlarge the lateral recess and neural foramina via frictional abrasion, i.e., by sliding the abrasive surface of the ribbon across impinging tissues. A nerve stimulator optionally may be provided to reduce a risk of inadvertent neural abrasion. Additionally, safe epidural placement of the working barrier and epidural tissue modification tools may be further improved with the use of electrical nerve stimulation capabilities within the invention that, when combined with neural stimulation monitors, provide neural localization capabilities to the surgeon. The device optionally may be placed within a protective sheath that exposes the abrasive surface of the ribbon only in the area where tissue removal is desired. Furthermore, an endoscope may be incorporated into the device in order to monitor safe tissue removal. Finally, tissue remodeling within the epidural space may be ensured through the placement of compression dressings against remodeled tissue surfaces, or through the placement of tissue retention straps, belts or cables that are wrapped around and pull under tension aspects of the impinging soft tissue and bone in the posterior spinal canal.
Owner:MIS IP HLDG LLC +1

Catheter anchor

A catheter anchoring or securement device and system in combination with or for securing a catheter system to a patient's skin in a fixed position, the invention having a flexible anchor sheet member having an adhesive backing that adheres the flexible anchor sheet member to the patient's skin, a compressible catheter receiving pad mounted to the flexible anchor sheet member, and releasable securing means comprising a cover or closure member covering the compressible catheter receiving pad, wherein the compressible catheter receiving pad is provided with a cavity or recess, the peripheral configuration of which corresponds to the footprint configuration of the catheter body member. The cavity has an axially-oriented channel extending the full width of the flexible anchor sheet member and opposing sets of retention walls defining lateral recesses, the combination of which precludes relative movement of the catheter fitting in all lateral directions.
Owner:TIDI PROD LLC

Devices and methods for tissue access

Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In some embodiments, a surgical tissue removal device includes a flexible elongate body that is adapted to conform with the target anatomy and a guidewire connector at the distal end region of the flexible elongate body configured to removably connect to the end of a guidewire so that the guidewire and flexible elongate body can be pulled distally. The body may have at least one blade edge, and the flexible elongate body may be a thin, flat, ribbon shaped flexible body that comprises a profile having a width that is substantially greater than a height.
Owner:SPINAL ELEMENTS INC

Devices and methods for selective surgical removal of tissue

Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. In one variation, a tissue removal device is provided including a thin belt or ribbon with an abrasive cutting surface. The device may be placed through the neural foramina of the spine and around the anterior border of a facet joint. Once properly positioned, a medical practitioner may enlarge the lateral recess and neural foramina via frictional abrasion, i.e., by sliding the tissue removal surface of the ribbon across impinging tissues. A nerve stimulator optionally may be provided to reduce a risk of inadvertent neural abrasion. Additionally, safe epidural placement of the working barrier and epidural tissue modification tools may be further improved with the use of electrical nerve stimulation capabilities within the invention that, when combined with neural stimulation monitors, provide neural localization capabilities to the surgeon. The device optionally may be placed within a protective sheath that exposes the abrasive surface of the ribbon only in the area where tissue removal is desired. Furthermore, an endoscope may be incorporated into the device in order to monitor safe tissue removal. Finally, tissue remodeling within the epidural space may be ensured through the placement of compression dressings against remodeled tissue surfaces, or through the placement of tissue retention straps, belts or cables that are wrapped around and pull under tension aspects of the impinging soft tissue and bone in the posterior spinal canal.
Owner:SPINAL ELEMENTS INC +1

Devices and methods for tissue access

Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. In one variation, a tissue removal device is provided including a thin belt or ribbon with an abrasive cutting surface. The device may be placed through the neural foramina of the spine and around the anterior border of a facet joint. Once properly positioned, a medical practitioner may enlarge the lateral recess and neural foramina via frictional abrasion, i.e., by sliding the tissue removal surface of the ribbon across impinging tissues. A nerve stimulator optionally may be provided to reduce a risk of inadvertent neural abrasion. Additionally, safe epidural placement of the working barrier and epidural tissue modification tools may be further improved with the use of electrical nerve stimulation capabilities within the invention that, when combined with neural stimulation monitors, provide neural localization capabilities to the surgeon. The device optionally may be placed within a protective sheath that exposes the abrasive surface of the ribbon only in the area where tissue removal is desired. Furthermore, an endoscope may be incorporated into the device in order to monitor safe tissue removal. Finally, tissue remodeling within the epidural space may be ensured through the placement of compression dressings against remodeled tissue surfaces, or through the placement of tissue retention straps, belts or cables that are wrapped around and pull under tension aspects of the impinging soft tissue and bone in the posterior spinal canal.
Owner:SPINAL ELEMENTS INC +1

Devices and methods for measuring the space around a nerve root

Described herein are method, systems and devices for measuring the region adjacent to or around a nerve root, such as the space within an intervertebral foramen before, during and / or after a spinal decompression procedure. Measurement devices may be advanced by pulling on them using a guidewire passing through the intervertebral foramen and out of the subject. The measurement device may include sounds for determining one or more dimensions of the space around a nerve root within an intervertebral space, lateral recess or central canal. Various embodiments of sounds, including calibrated, inflatable, expandable, moldable, and tapered sounds (or combinations of these) are described.
Owner:BAXANO

Hinge

InactiveUS20080307606A1Simple and reliable lateral adjustmentPower-operated mechanismPin hingesLateral recessEngineering
A hinge (3, 3′) with a frame part (4, 204) and a door part (5), which door part exhibits a holding box (8, 8′) for installation on a door (1) or equivalent, and a hinge leaf (7, 207) that is detachably attachable to the box, which box comprises a lateral recess (19) for the hinge leaf, and a receiving part (20, 20′, 220) for the hinge leaf present inside the box. In order to permit the simple and reliable lateral adjustment of the door and its simple installation and removal and the positive fixing of the position of the hinge leaf in the receiving part, the box (8, 8′) is capable of being caused to move relative to the receiving part (20, 20′) by the actuation from the outside of an adjustment device (32) for the purpose of providing lateral adjustment of the box and the door in the plane of the door, perpendicular to the axis (A) of the hinge, and the hinge comprises a spring-actuated snap element (39, 239) for the detachable attachment of the position of the hinge leaf (7, 207) in the receiving part.
Owner:ASSA ABLOY AB

Fracture fixation plate with cover sheath

A fracture fixation plate with cover sheath having a head element that is rigidly connected to a plate element in an upwardly angled direction. The head element is anatomically shaped and includes medial and lateral sheath recesses wherein non-threaded bone screw holes and a threaded sheath screw hole are located. Cylindrical head bone screws are inserted through the sheath recess and oriented at set angles allowing for bone fragment fixation and fracture reduction. Medial and lateral sheath elements are placed within the boundaries of their respective sheath recesses and are secured with a sheath screw. The sheath elements contact the heads of the inserted bone screws restricting and maintaining their implanted positions. Alternative sheath elements with outreaching medial, lateral and distal fragment capture flanges may also be utilized. The plate element includes at least one longitudinal slot with several bone screw holes for use with pivotable spherical headed bone screws.
Owner:HOWMEDICA OSTEONICS CORP

Synthetic resin container with thin wall

A container has a body which comprises front and rear walls, and the side walls. Each of the front and rear walls has an elliptic cross section, and is provided with a lateral recess. Each of the side walls is a vertical plane which intersects the elliptic cross section of the front and rear walls, and is provided with a plurality of reinforcements.The container has a bottom which comprises a peripheral wall connected to the body and a bottom wall. The peripheral wall comprises slightly inclined front and rear walls, and side walls inclined by a predetermined angle. The peripheral wall is provided with a reinforcing rib.
Owner:YOSHINO KOGYOSHO CO LTD

Non-replacement gate nanomesh field effect transistor with pad regions

A gate-first processing scheme for forming a nanomesh field effect transistor is provided. An alternating stack of two different semiconductor materials is patterned to include two pad regions and nanowire regions. A semiconductor material is laterally etched selective to another semiconductor material to form a nanomesh including suspended semiconductor nanowires. A stack of a gate dielectric, a gate electrode, and a gate cap dielectric is formed over the nanomesh. A dielectric spacer is formed around the gate electrode. An isotropic etch is employed to remove dielectric materials that are formed in lateral recesses of the patterned alternating stack. A selective epitaxy process can be employed to form a source region and a drain region.
Owner:GLOBALFOUNDRIES US INC

Enveloping needle stick protection device

It is, therefore, an object of the present invention to provide a needle stick protection device. The device includes a housing shaped and dimensioned for positioning about a syringe with an attached needle. The housing includes a first housing member telescopically coupled to a second housing member. A locking member is associated with a first slot of the first housing member for selectively engaging a first detent to control positioning of the second housing member relative to the first housing member. The locking member includes a first lateral retaining recess formed within the first slot for seating of the first detent when the second housing member is in its forward most position, the first lateral retaining recess being circumferentially located along a side of the first slot. The needle may be selectively covered and uncovered by selective alignment of the first detent with the slot in manner permitting controlled motion of the first housing member relative to the second housing member. The locking member further includes a lateral locking recess formed along the slot and adjacent a second side of the spring biased lock arm opposite the first side of the spring biased lock arm, wherein the needle is permanently covered when the detent is positioned within the lateral locking recess.
Owner:MILLER MEDICAL LLC

Modular decking tile

A tile for forming a modular deck with like-configured tiles, the tile having a web having a planar polygonal upper surface and a lower surface, a web strengthening structure on said lower surface, and a plurality of peripheral edges, where at least one of the edges includes a male connecting portion having a lateral tongue extending from the peripheral edge, and at least one of the edges includes a female connecting portion defining a lateral recess in the peripheral edge. In one embodiment, at least three of the peripheral edges include either of the male connecting portions or the female connecting portions.
Owner:SMART GREGORY JAMES +2

Floating gate with unique profile by means of undercutting for split-gate flash memory device

A split-gate flash memory device has a floating gate with a lateral recess at its bottom sidewall by adding an undercutting step. The split-gate flash memory device has a floating gate with a lateral recess on a substrate, an integrated dielectric layer lining the substrate, the sidewall and the lateral recess of the floating gate; a control gate on the integrated dielectric layer and covering at least part of the floating gate; and a dielectric spacer in the lateral recess between the integrated dielectric layer and the control gate.
Owner:TAIWAN SEMICON MFG CO LTD

Tube coupling

A tube coupling includes a body (1) to receive a tube (22). The body has lateral recesses (12) extending outwardly from an internal wall. An O-ring (3) is retained by the body distally of the recesses. A collet (5) includes a ring (6) and collet legs (7) to be received in the lateral recesses and having a tooth (8) facing the passageway. Proximal movement of the collet with respect to the body causes the fingers to deflect inwardly. A tube support (10) includes a ring (12) and has a key to align with the body. Castellations (13, 14) extend proximately from the tube support ring and are complementary to the collet legs to align the collet with respect to the body as the collet is inserted into the body.
Owner:JOHN GUEST INT LTD

Electronic equipment with display device

Portable terminal equipment as a mobile telephone includes a display device disposed with a front surface of a housing. A first touch sensor is provided in the display device. A lateral recess is formed in at least one side surface of the housing. A side touch sensor is disposed in the housing in a range including the lateral recess. Preferably, the lateral recess is constituted by plural lateral recesses formed in the one side surface. Also, a state detection device recognizes a lateral recess where contact is detected among the plural lateral recesses by use of the side touch sensor. A disabling device disables the side touch sensor from detecting contact in a lateral recess among the lateral recesses other than the lateral recess where contact is detected, for adaptation to finger operation of one of right and left hands.
Owner:FUJIFILM CORP

Multipurpose brush with ergonomic handle

An ergonomic handle for a multipurpose brush includes a gripping surface having a series of protrusions along a rear surface of the handle, a thumb recess formed along a front side of the handle and first and second opposed lateral recesses extending along sides of the proximal segment.
Owner:TUBMAN LOUIS

Semiconductor device and method for manufacturing the same

A semiconductor device and a method for manufacturing the same, wherein an example method may include: forming a first semiconductor layer and a second semiconductor layer sequentially on a substrate; patterning the second semiconductor layer to form an initial fin; performing anisotropic etching on the first semiconductor layer to form a Σ-shaped lateral recess therein; forming an isolation layer on the substrate to have a portion that fills the lateral recess, wherein the isolation layer, except the portion that fills the lateral recess, has a top surface located between a top surface and a bottom surface of the first semiconductor layer, and thus defines a fin above the isolation layer; and forming a gate stack intersecting the fin on the isolation layer.
Owner:INST OF MICROELECTRONICS CHINESE ACAD OF SCI

Sgvc 3D architecture with floating gate device in lateral recesses on sides of conductive strips and insulating strips

A memory device is provided that includes a plurality of memory cells. The memory device includes a plurality of stacks of conductive strips separated by insulating strips. Data storage structures including floating gates are disposed along the conductive strips in the stacks. Vertical channel films are disposed on sidewalls of the stacks. Memory cells in the plurality of memory cells have channels in the vertical channel films, and control gates in the conductive strips. A tunnel oxide layer is disposed between the vertical channel films and the floating gates. The floating gates can be coplanar with conductive strips in the plurality of stacks, or be disposed between the conductive strips in the plurality of stacks.
Owner:MACRONIX INT CO LTD
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