Entries |
Document | Title | Date |
20080234737 | DYNAMIC SPINAL STABILIZATION SYSTEM AND METHOD OF USING THE SAME - A spinal stabilization system includes at least two anchors having a bone attachment portion and a head portion and a flexible assembly coupled to the anchors. The flexible assembly includes a flexible cord, at least two connectors slidably mounted to the flexible cord, and at least one spacer slidably mounted to the cord between adjacent connectors. Each connector couples with a head portion of an anchor. The flexible assembly may be assembled and appropriately adjusted outside the body prior to it being coupled to the anchors. In addition, the connectors may include angled outer surfaces that provide enhanced engagement with the ends of the spacer. A method of stabilizing the spine includes securing anchors to the spine, assembling a flexible assembly outside the body, and coupling the flexible assembly to the anchors. The method may further include providing connectors with angled surfaces to provide enhanced engagement with the spacer. | 09-25-2008 |
20080234738 | SYSTEM AND METHOD FOR INSERTION OF FLEXIBLE SPINAL STABILIZATION ELEMENT - Insertion of a spinal stabilization element into a patient generally includes positioning a cord within a sheath and inserting the sheath and cord through the patient's body along a path generally toward an anchor member. An advancement member may be mounted on the leading end of the cord to further facilitate this insertion. The sheath is then retracted to expose a first portion of the cord within the patient's body, and the first portion of the cord is moved into a desired position relative to the anchor member. After advancing a spacer over the sheath and cord, the sheath is retracted to expose a second portion of the cord. The second portion of the cord is then moved into a desired position relative to another anchor member such that the spacer is positioned between the two anchor members. | 09-25-2008 |
20080269804 | Apparatus and method for flexible spinal fixation - Apparatus for connecting and stabilizing adjacent vertebral segments, comprising a flexible composite connecting rod extending between the segments, and connection devices for connecting the rod to the vertebral segments. The rod comprises a rod member formed of a flexible plastic material having a predetermined compression strength, and a high tensile strength, low stretch, flexible reinforcing element extending longitudinally through the entire length of the rod member. The reinforcing element may be in the form of a single cord, rope, braid or monofilament, a plurality of substantially parallel cords, ropes, braids or monofilaments, or a tubular cord, rope, braid or woven or wire mesh strain relief device extending through the rod member in slidable relation or bonded thereto. | 10-30-2008 |
20080306540 | SPINE IMPLANT WITH A DEFELCTION ROD SYSTEM ANCHORED TO A BONE ANCHOR AND METHOD - A dynamic stabilization, motion preservation spinal implant system includes a deflection rod system implant. The system is modular so that various constructs and configurations can be created and customized to a patient. | 12-11-2008 |
20080306541 | SPINE IMPLANT WITH A DUAL DEFLECTION ROD SYSTEM INCLUDING A DEFLECTION LIMITING SHEILD ASSOCIATED WITH A BONE SCREW AND METHOD - A dynamic stabilization, motion preservation spinal implant system includes a deflection rod system implant. The system is modular so that various constructs and configurations can be created and customized to a patient. | 12-11-2008 |
20080306542 | SPINE IMPLANT WITH A DEFLECTION ROD SYSTEM AND CONNECTING LINKAGES AND METHOD - A dynamic stabilization, motion preservation spinal implant system includes a deflection rod system implant. The system is modular so that various constructs and configurations can be created and customized to a patient. | 12-11-2008 |
20090030464 | SPINE STIFFENING DEVICE AND ASSOCIATED METHOD - In various embodiments, a spinal stabilization system has a first and a second vertebral anchor each adapted to be coupled to one of a first and a second vertebrae. The system also includes a flexible connecting element coupled to each of the first and second vertebral anchors and extending between the vertebral anchors. The connecting element has a central member and a brace positioned about the central member and the central member is stiffer than the brace to provide the needed combination of support and stiffness to the construct while offering flexibility. These and other various embodiments of this invention offer an improvement over known systems by providing stabilization of the vertebral column while allowing for flexibility and axial dampening. | 01-29-2009 |
20090088803 | FLEXIBLE MEMBERS FOR CORRECTING SPINAL DEFORMITIES - The present application is directed to devices and methods for correcting a spinal deformity. The devices may include a member attached to one or more vertebral members of a deformed spine. The member may be constructed of a flexible material with elastic properties. The member is attached to the vertebral members in a stressed orientation. Due to the elastic properties of the material, the member exerts a corrective force on the vertebral members. In some embodiments, multiple members are attached to the vertebral members to apply the corrective force. | 04-02-2009 |
20090093844 | Elastic covered dynamic stabilization connector and assembly - A dynamic fixation medical implant having at least two bone anchors includes a dynamic longitudinal connector having a solid core with an elastic over-molded portion. The over-molded portion may be firmly adhered or clamped to at least a portion of the solid core. Alternatively, the over-molded portion may completely envelope the solid core and in some embodiments slide on the core. At least one bone anchor includes at least one insert for gripping the over-molded portion without crushing such portion into fixed relation with the core. | 04-09-2009 |
20090093845 | Flexible Member with Variable Flexibility for Providing Dynamic Stability to a Spine - The present invention relates to spinal support devices and, more specifically, to a flexible member having variable flexibility for use with a dynamic stabilization system or implant to provide dynamic stability to a person's spine. The flexible member generally includes a first material having a first portion including a first material having a first elasticity and a second portion including a second material having a second elasticity greater than the first to provide the flexible member with a variable flexibility. | 04-09-2009 |
20090099606 | FLEXIBLE MEMBER WITH VARIABLE FLEXIBILITY FOR PROVIDING DYNAMIC STABILITY TO A SPINE - The present invention relates to spinal support devices and, more specifically, to a flexible member having variable flexibility attributable to a specified configuration for use with a dynamic stabilization system or implant to provide dynamic stability to a person's spine. The flexible member generally includes a body having a lengthwise axis, an outer surface, and opposing first and second ends with an intermediate portion extending therebetween. The outer surface has one or more grooves providing the flexible member with a variable flexibility. The one or more grooves may be situated generally perpendicular to the lengthwise axis of the body and extending around less than the outer surface of the body, and/or situated generally perpendicular to the lengthwise axis of the body and extending around the outer surface of the body substantially directly in-between the ends. | 04-16-2009 |
20090112265 | FLEXIBLE MEMBER FOR USE IN A SPINAL COLUMN AND METHOD FOR MAKING - The present invention relates to flexible members for stabilizing a spinal column and methods for making the flexible members. In one embodiment, a flexible member comprises an inner elastomeric member and an outer fabric layer situated securely around the inner elastomeric member. The inner elastomeric member has a first elasticity to provide the flexible member with a desired flexibility. In another embodiment, the flexible member includes an outer covering that defines an outer elastomeric member. The outer elastomeric member may be situated securely around the outer fabric layer with the inner elastomeric member, the outer fabric layer, and the outer elastomeric member having the common lengthwise axis and defining the body including the opposing first and second ends. The outer elastomeric member may have a second elasticity that is less than the first elasticity. | 04-30-2009 |
20090182378 | FLEXIBLE ROD FOR FIXING VERTEBRAE - A flexible rod for fixing vertebrae is connected to a vertebral fixing device in order to maintain a damaged or deformed vertebra in an original stable state and impart flexibility. The flexible rod comprises a plurality of support bars, each of which has an insertion recess that has internal threads on an open side thereof; a plurality of rings, which is disposed between the support bars and has internal threads; a spring, which has a spiral structure so as to be able to be coupled into the support bars in engagement with the threads of the support bars; and an elastic bar, which is inserted into the support bars through the center of the spring. | 07-16-2009 |
20090240284 | STABILIZATION RODS - A rod, such as that used for spinal stabilization, made of both metal material and elastomeric material. The rod may have a metal infrastructure, which may be non-cylindrical, to provide a desired stiffness for bending in at least one direction and may also have metal exterior surfaces for engaging metal components of spinal fixation locking mechanisms. In addition, the elastomeric material may only partially circumferentially encapsulate the metal material so that the metal material forms part of the surface of the rod. | 09-24-2009 |
20090254123 | Dynamic Spinal Stabilization System - A dynamic stabilization system includes a stabilization element, such as a spinal rod, a plurality of bone anchors, such as bone bolts, and a like plurality of connectors for connecting the bolts to the spinal rod. At least some of the connectors include a flexible element between the bone anchor and the rod and an adjustment element for adjusting the flexibility of the flexible element, to thereby adjust the dynamic flexibility between the rod and the bone anchor. In one embodiment, the flexible element is a flexible bearing element of a rod end bearing. | 10-08-2009 |
20090270920 | System for Stabilizing at Least a Portion of the Spine - Disclosed are embodiments of a dynamic stabilizer system for dynamically stabilizing the sacrum and at least lumbar vertebra L5. The dynamic stabilizer system may comprise two anchoring members that can be implanted at distinct locations in the sacrum, a mechanical fastener element having two ends and a flexible portion that can be securely fastened on the spinous process of a lumbar vertebra, and two distinct rods, each securing onto the anchoring members and the mechanical fastener element. In some embodiments, the dynamic stabilizer system may further comprise one or more spacers, each interposed between two spinous processes. The mechanical fastener element further comprises features for securing the one or more spacers. | 10-29-2009 |
20090270921 | FLEXIBLE SPINE COMPONENTS HAVING A CONCENTRIC SLOT - The invention relates to a flexible spine stabilization and/or vertebral replacement system and having one or more flexible segments within a spinal element. The flexibility is created through the use of at least one circumferential slot formed in the spinal element. One or more fasteners are connected to the distal and proximal attachments and secured to the vertebra. The spinal element can The element can have an elastomeric material in any or all of the following combinations: filling at least one of the at least one slot; at least a portion of the inside core; encompass at least a portion of the exterior diameter. Vertebral replacement is achieved by securing the spinal element to healthy inferior and superior vertebra through use of securing members. | 10-29-2009 |
20090287251 | Composite spinal rod - A spinal rod including an elongated flexible component and a reinforcing component, the reinforcing component being resistant to damage from compressive forces and disposed circumferentially around at least a portion of the flexible component so as to define at least one compression slot. | 11-19-2009 |
20090318969 | BONE ANCHORING ASSEMBLY - A bone anchoring assembly includes a bone anchoring element having a shank to be anchored in a bone or a vertebra, and a receiving part for receiving a rod. The assembly includes a rod made at least partly of a material which exhibits a material flow under pressure. The receiving part includes a channel with an approximately U-shaped cross-section with two free legs, a first locking element cooperating with the legs to secure the rod in the channel, and a second locking element cooperating with the first locking element and acting independently from the first locking element onto the rod. A pin-shaped projection is provided at the second locking element which comes into contact with the rod when tightening the second locking element, and at least one pin-shaped projection is provided in the channel which comes into contact with the rod when tightening the first locking element. | 12-24-2009 |
20100010542 | Flexible spinal stbilization assembly with spacer having off-axis core member - A flexible stabilization assembly includes a flexible inner core, an outer spacer with an off-axis lumen that receives the inner core, and at least one end cap located on either end of the spacer and rotationally fixed with respect to the spacer. Bone screws cooperating with the end cap and spacer include structure for close cooperation and engagement with the end cap. When implanted, the flexible inner core is posteriorly biased with respect to the spacer. | 01-14-2010 |
20100010543 | Dynamic stabilization connecting member with floating core, compression spacer and over-mold - A dynamic fixation medical implant having at least two bone anchors includes a dynamic longitudinal connecting member assembly having the following features: a pair of elongate bone anchor engagement segments, a floating inner core disposed in apertures of both anchor segments, at least one compression spacer surrounding the core and located between the anchor segments and in some embodiments an over-mold surrounding the compression spacer and at least a portion of one of the anchor segments. The implant may further include a tubed sleeve surrounding the core and located between the anchor segments. | 01-14-2010 |
20100030270 | DYNAMIC SPINAL ROD ASSEMBLY AND METHOD FOR DYNAMIC STABILIZATION OF THE SPINE - A versatile dynamic spinal rod and bone anchor assembly for use in a dynamic stabilization system to support the spine while providing for the preservation of spinal motion. Alternative embodiments can be used for spine fusion. The dynamic bone anchor provides load sharing while preserving range of motion and reducing stress exerted upon the bone anchors and spinal anatomy. The dynamic bone anchor includes a deflectable post connected by a ball-joint to a threaded anchor. The dynamic rod connects different levels of the construct in a multilevel construct. The dynamic rod is connected to the dynamic bone anchor by a joint which permits relative movement of the deflectable post and rod reducing the stress exerted upon the bone anchors and spinal anatomy. | 02-04-2010 |
20100036421 | LOAD-SHARING COMPONENT HAVING A DEFLECTABLE POST AND METHOD FOR DYNAMIC STABILIZATION OF THE SPINE - A dynamic spinal stabilization component suitable for use in stabilizing of the spine. The component is selectably attachable to a bone anchor for implantation in a bone of the spine. The dynamic spinal stabilization component includes a deflectable post connectable by a joint to bone anchor. Deflection of the deflectable post is controlled by a compliant member. The force/deflection properties of the deflectable post may be adapted to the functional requirements and anatomy of the patient. The dynamic spinal stabilization component, when secured to a bone anchor, provide load sharing while preserving range of motion and reducing stress exerted upon the bone anchors and spinal anatomy. | 02-11-2010 |
20100042154 | FLEXIBLE STABILIZATION DEVICE INCLUDING A ROD AND TOOL FOR MANUFACTURING THE ROD - A flexible stabilization device for connecting at least two bone anchoring devices which are attached to vertebrae of the spinal column includes a flexible rod made of an elastomer material. The rod has a surface in which at least one recess is provided which is generated by separation of a portion of said elastomer material. | 02-18-2010 |
20100042155 | MODULAR SYSTEM FOR THE STABILIZATION OF THE SPINAL COLUMN - A modular system for stabilization the spinal column or other bones includes a first stabilization element, a second stabilization element to be connected to the first stabilization element, and an outer connection element to connect the first stabilization element to the second stabilization element. An end portion of the first stabilization element and an end portion of the second stabilization element each include a structure engaging with a corresponding structure provided in the outer connection element to establish a form-fit connection. | 02-18-2010 |
20100042156 | ROD-SHAPED IMPLANT ELEMENT WITH FLEXIBLE SECTION - A rod-shaped implant element for the connection of bone anchoring elements includes at least one rigid section that is configured to be placed in a receiver member of a bone anchoring element and a flexible section that is adjacent to the rigid section. The flexible section and the rigid section are formed as a continuous one-piece element. | 02-18-2010 |
20100069962 | ROD-LIKE ELEMENT FOR APPLICATION IN SPINAL OR TRAUMA SURGERY, AND STABILIZATION DEVICE WITH SUCH A ROD-LIKE ELEMENT - A rod-shaped element for use in spinal or trauma surgery, having a first section for connecting to a first bone anchoring element and a second section for connecting to a second bone anchoring element is described. The rod-shaped element also includes a first elastic flexible element that is capable of elastic deformation when a force acts on it transverse to the rod axis. The first section and the second section are capable of shifting relative to each other in the direction of the rod axis. | 03-18-2010 |
20100094347 | FRACTURE FIXATION DEVICE, TOOLS AND METHODS - A bone fixation device is provided with an elongate body having a longitudinal axis and having a first state in which at least a portion of the body is flexible and a second state in which the body is generally rigid, an actuateable gripper disposed at a distal location on the elongated body, and an actuator operably connected to the gripper to deploy the gripper from a retracted configuration to an expanded configuration. Methods of repairing a fracture of a bone are also disclosed. One such method comprises inserting a bone fixation device into an intramedullary space of the bone to place at least a portion of an elongate body of the fixation device in a flexible state on one side of the fracture and at least a portion of a hub on another side of the fracture, and operating an actuator to deploy at least one gripper of the fixation device to engage an inner surface of the intramedullary space to anchor the fixation device to the bone. | 04-15-2010 |
20100222818 | VERTEBRAL ROD AND RELATED METHOD OF MANUFACTURE - A vertebral rod includes a first elongated section, a second elongated section and an intermediate section disposed between the first section and the second section. The intermediate section has an inner surface and opposing end portions that define an open portion. A removable element extends from one of the first, second or intermediate sections and is disposable adjacent the opposing end portions. The element is configured to prevent engagement of the opposing end portions. A resistance member is configured for disposal with the intermediate section and engaging at least a portion of the inner surface. A method of manufacture is also disclosed. | 09-02-2010 |
20100222819 | Integral Spring Junction - Spinal stabilization devices, systems and methods are provided that include a spring junction wherein a structural member is mountable to a spine attachment fastener and a resilient element is affixed to the structural member along an attachment region of the resilient element. The attachment region is disposed physically separately with respect to an active region of the resilient element. The attachment region can include a weld region produced via an E-beam welding process involving temperatures of 1000° F. or greater, wherein a heat-affected zone adjacent the weld region is disposed physically separately with respect to the active region. The resilient element may be a coil spring including bend regions adjacent its outermost (i.e., last) coils wherein the material of the coil spring initially bends away from the last coil, then bends back toward the last coil before terminating near the last coil. | 09-02-2010 |
20100262189 | FLEXIBLE ROD MANUFACTURING APPARATUS AND METHOD FOR A SPINAL FIXATION AND THE FLEXIBLE ROD MANUFACTURED THROUGH THE SAME - The present invention relates to a rod capable of securely connecting pedicle screws in a pedicle screw system for correcting a damaged or transformed spine and a method and an apparatus for fabricating the same and, more particularly, to a flexible pedicle rod with superelasticity in order to provide a flexibility to a fixation between spine segments and a method and an apparatus capable of fabrication the same in mass production. The apparatus according to the present invention comprises a body; an X- and | 10-14-2010 |
20100298883 | Load Bearing Flexible Spinal Connecting Element - Devices and methods for spinal stabilization include first and second anchor assemblies engageable to respective ones of first and second vertebrae and a connecting element engageable to the first and second anchor assemblies. The connecting element includes opposite first and second end members and a bumper assembly between the end members that flexibly connects the end members so the connecting element can provide dynamic stabilization of the spinal column when engaged to the anchor assemblies. | 11-25-2010 |
20100318129 | DEFORMITY ALIGNMENT SYSTEM WITH REACTIVE FORCE BALANCING - Systems and methods for controlling a rotational effect on stabilizing vertebrae during and/or after deformity correction by directing reactive forces toward, on opposite sides of, and/or relatively closer to the transverse centers of rotation of the stabilizing vertebrae. | 12-16-2010 |
20100318130 | FLEXIBLE ROD ASSEMBLY FOR SPINAL FIXATION - A flexible spinal fixation rod assembly that provides relatively stiff bending compliance provided by a core rod or tube that is connected to surrounding spring and associated couplings in such a way that when the core rod is bent, the spring extends and the associated couplings move away from each other, with the core rod generating a force tending to return the core rod to its unbent configuration thereof and the spring generating a force tending to return the couplings to there unextended configuration thereof. Couplings connect each end of the rod or tube to corresponding pedicle screws for attachment to corresponding vertebrae. As the spine bends, this arrangement allows the spine to bend against limited resistance, exhibiting the necessary axial and compressive strength, and applies force to return the spine to its original configuration. | 12-16-2010 |
20110004249 | FLEXIBLE SPINAL FIXATION DEVICE AND ROD THEREOF - A flexible spinal fixation device and a rod thereof are provided. The flexible spinal fixation device includes at least two bone screws and a rod. The rod is fixedly coupled to the bone screws, and the bone screws are implanted into a patient's vertebrae. The rod has a flexible part and is thereby rendered flexible. After the flexible spinal fixation device is implanted into the patient's spine, the patient's spine can stoop as in a healthy condition. Moreover, vertebral stress around an injured vertebra and force between the bone screws and the rod can both be reduced. The flexible spinal fixation device also prevents premature vertebral aging and has an extended service life. | 01-06-2011 |
20110022092 | VERTEBRAL RODS AND METHODS OF USE - The present application is directed to vertebral rods and methods of use. In one embodiment, the rod includes upper and lower sections that are separated by an intermediate section. The intermediate section may include one or more members, and may have a variety of configurations. An elastic member may be positioned within the intermediate section. The intermediate section and the elastic member may provide for variable resistance during movement of the upper and lower sections. In one embodiment, the resistance increases the further away the upper and lower sections move from a first orientation. | 01-27-2011 |
20110022093 | SYSTEMS AND METHODS FOR SPINAL STABILIZATION WITH FLEXIBLE ELEMENTS - Systems and methods are provided for spinal stabilization with flexible elements and other elements engaged to the vertebrae. Also provided are instruments and methods for insertion of the flexible stabilization elements and other elements and for reduction of displacement between adjacent vertebrae in a minimally invasive surgical approach. | 01-27-2011 |
20110054534 | ELASTIC ELEMENT FOR THE USE IN A STABILIZATION DEVICE FOR BONES AND VERTEBRAE AND METHOD FOR THE MANUFACTURE OF SUCH ELASTIC ELEMENT - A stabilization device for bones or vertebrae comprises a substantially cylindrical elastic element. The elastic element has a first end and a second end opposite to the first end. An elastic section extends between the first end and the second end. The elastic section includes at least first and second helical coils. The first and second helical coils are arranged coaxially so that the first helical coil extends at least in a portion between the second helical coil. The elastic element may form, for example, a portion of a rod, bone anchoring element, or plate. | 03-03-2011 |
20110066187 | SPINAL STABILIZATION SYSTEM - A vertebral fixation system including an elongate rod and a vertebral anchor for securement to a vertebra. The vertebral anchor includes a head portion for receiving a portion of the rod. The elongate rod may be formed of a material having a modulus of elasticity less than or equal to 110 GPa and an ultimate strength greater than 1 GPa. The elongate rod may have a structural bending stiffness in the range of about 500,000 N-mm | 03-17-2011 |
20110071570 | COMPOSITE VERTEBRAL ROD SYSTEM AND METHODS OF USE - A vertebral rod includes a first elongated section including a first material having a first modulus of elasticity and a second elongated section including a second material having a second modulus of elasticity. A first intermediate section is disposed between the first section and the second section, and includes a third material having a third modulus of elasticity. The intermediate section has an arcuate inner surface that defines a cavity and an open end. The first modulus and the second modulus are each greater than the third modulus such that the first and second sections provide a reinforced configuration of the vertebral rod and the intermediate section has a relatively flexible configuration. | 03-24-2011 |
20110077687 | Systems, Methods And Devices For Correcting Spinal Deformities - Provided herein are systems, devices and methods for the correction of spinal deformities with the use one or more implantable rods configured to apply a corrective force to the spine. Methods of minimally invasive implantation of a corrective system are provided, such as where the corrective system is attached only to the spinous process of one or more vertebral bodies. Various corrective systems as well as components thereof are also provided, such as those that allow limited movement with respect to the spinal column. | 03-31-2011 |
20110087290 | DEVICE FOR DYNAMIC STABILIZATION OF BONES OR BONE FRAGMENTS - A device for dynamic stabilization of bones or bone fragments comprising at least one anchor member for attachment to vertebrae having an opening configured to receive a longitudinal member; and the longitudinal member being viscoelastically deformable and having a predetermined bending resilience. | 04-14-2011 |
20110106162 | Composite Connecting Elements for Spinal Stabilization Systems - Elongated connecting elements include bodies having composite cross-sections defined by a center core that is surrounded by an outer portion. The center core includes a first material and the outer portion includes a second material that is distinct from the first material. In one particular form, a connecting element includes a maximum dimension across an outer cross-sectional shape of the outer portion that is less than a minimum dimension across an oblong or round outer cross-sectional shape of a polyetheretherketone (PEEK) connecting element, and the connecting element exhibits mechanical properties that are at least equivalent to the mechanical properties of the polyetheretherketone (PEEK) connecting element. In another form, the center core has a non-circular cross-sectional shape and the first material is defined by a reinforcing material randomly dispersed throughout a polymer, and the outer portion includes a circular, outer cross-sectional shape. However, other embodiments, forms and applications are also envisioned. | 05-05-2011 |
20110245873 | LOW PROFILE SPINAL PROSTHESIS INCORPORATING A BONE ANCHOR HAVING A DEFLECTABLE POST AND A COMPOUND SPINAL ROD - A bone anchor comprising a self-centering ball-joint suitable for use in a spine stabilization prosthesis which supports the spine while providing for the preservation of spinal motion. The bone anchor has a deflectable ball-rod partially received in a socket of a housing formed in the head of the bone anchor. A centering rod received partially in the ball-rod and partially within the housing operates to align the ball-rod with the longitudinal axis of the bone anchor. Deflection of the ball-rod bends the centering rod which in turn applies a restoring force upon the ball-rod. | 10-06-2011 |
20110251643 | Spinal Osteosynthesis System - A spinal osteosynthesis system comprising at least one flexible rod mounted to slide freely and guided in pivoting in a member ( | 10-13-2011 |
20110301643 | Spinal Stabilization Device - A flexible connection unit for use in a spinal fixation device that includes: a longitudinal member having first and second ends and a flexible member interposed between the first and second ends, at least one of the first end and second end configured to be engaged by a first bone securing member; and at least one spacer located between the first and second ends, the spacer comprising a resilient element and a ring element encircling at least a portion of the resilient element, wherein the ring element is configured to be engaged by a second bone securing member. | 12-08-2011 |
20120016421 | SPINAL STABILIZATION SYSTEM WITH RIGID AND FLEXIBLE ELEMENTS - A spinal stabilization system generally comprises first and second anchor members configured to be secured to first and second vertebrae within a patient's body, a flexible element secured to the first anchor member, and a rigid element secured to the second anchor member. An end portion of the rigid element is coupled to an end portion of the flexible so that the system is able to provide both rigid and dynamic stabilization. The coupling is maintained even if the flexible element relaxes after a period of time within the patient's body. | 01-19-2012 |
20120089188 | Dynamic stabilization connecting member with slitted core and outer sleeve - A dynamic fixation medical implant having at least two bone anchors includes a longitudinal connecting member assembly having an elongate core and an outer sleeve. The core may be substantially cylindrical, of one-piece construction, and includes end portions for attachment to the bone anchors. A portion of the core extending between the bone anchors has at least one slit. The outer sleeve may include compression grooves. The sleeve surrounds the core and extends between the pair of bone anchors, the sleeve being compressible in a longitudinal direction between the bone anchors. | 04-12-2012 |
20120109207 | Enhanced Interfacial Conformance for a Composite Rod for Spinal Implant Systems with Higher Modulus Core and Lower Modulus Polymeric Sleeve - A spinal rod includes a core component and a tube. The core component has a diameter and an axial length. The tube has a diameter equal to or less than the diameter of the core component. A vibrational energy is applied between the core and the tube such that the core is received within the tube and the tube is advanced along the axial length of the tube. The spinal rod composite then has facial conformance forces maintaining the tube position along the axial length of the core. | 05-03-2012 |
20120136394 | MODULAR VERTEBRAL STABILIZER - A stabilizer device ( | 05-31-2012 |
20120209330 | Spinal Stabilization Device - A flexible connection unit for use in a spinal fixation device, including: a longitudinal member having first end portion, a second end portion and a flexible member interposed between the first end portion and the second end portion, at least one of the first end portion and the second end portion configured to be coupled to a first bone securing member; and a spacer located between the first and second end portions, wherein at least a portion of the flexible member passes through an axial channel of the spacer and wherein the spacer comprises a resilient element configured to be coupled to a second bone securing member. | 08-16-2012 |
20120221054 | Soft stabilization assemblies with pretensioned cords - A soft dynamic stabilization assembly includes a core, typically in the form of a tensioned cord, at least one pair of bone anchors, a spacer surrounding the core located between the bone anchors, typically, at least one elastic bumper and at least one fixing or blocking member. The core is slidable with respect to at least one of the bone anchors and cooperating spacer. | 08-30-2012 |
20120277797 | LONGITUDINAL MEMBER FOR USE IN SPINAL OR TRAUMA SURGERY AND STABILIZATION DEVICE WITH SUCH A LONGITUDINAL MEMBER - A longitudinal member for use in spinal or trauma surgery is provided which is sized to span a distance between at least two vertebrae or two bone parts, wherein the longitudinal member is made at least partially of a polymer material, such as an elastomer, which is extruded. The polymer chains of the longitudinal member are substantially aligned in the longitudinal direction of the member. The longitudinal member is included in a dynamic stabilization device having at least two bone anchoring elements and such a longitudinal member connecting the bone anchoring elements. | 11-01-2012 |
20120330361 | SPINAL IMPLANTABLE DEVICES MADE OF CARBON COMPOSITE MATERIALS AND USE THEREOF - A spinal implantable device may include composite material comprising matrix including PEEK. The PEEK matrix may be reinforced with carbon fibers that amount to at least 60% of the composite material. The carbon fibers are arranged in a substantially parallel arrangement and compressed in a direction perpendicular to a longitudinal direction of the carbon fibers. | 12-27-2012 |
20130072980 | FLEXIBLE STABILIZATION DEVICE INCLUDING A ROD AND TOOL FOR MANUFACTURING THE ROD - A flexible stabilization device for connecting at least two bone anchoring devices which are attached to vertebrae of the spinal column includes a flexible rod made of an elastomer material. The rod has a surface in which at least one recess is provided which is generated by separation of a portion of said elastomer material. | 03-21-2013 |
20130103090 | VERTEBRAL ROD SYSTEM AND METHODS OF USE - A vertebral rod comprises a first elongated rod portion and a second elongated rod portion. A flexible intermediate portion is disposed between the first rod portion and the second rod portion. The intermediate portion includes a wall defining at least one cavity through a surface of the wall. The at least one cavity includes a first cavity portion disposed in a first plane and a second cavity portion disposed in a second plane transverse to the first plane. The at least one cavity defines a first tab having a free end. Methods of use are disclosed. | 04-25-2013 |
20130110169 | VERTEBRAL ROD SYSTEM AND METHODS OF USE | 05-02-2013 |
20130197582 | VERTEBRAL CONSTRUCT AND METHODS OF USE - A vertebral construct comprises a longitudinal element extending between a first end and a second end. The longitudinal element defines a central axis. A first spacer is mounted to the longitudinal element. A second spacer is mounted to the longitudinal element. A flexible element is disposed about the longitudinal element and between the first spacer and the second spacer. The flexible element defines a central axis offset from the central axis of the longitudinal element. Methods of use are disclosed. | 08-01-2013 |
20130226241 | SYSTEMS, METHODS AND DEVICES FOR CORRECTING SPINAL DEFORMITIES - Provided herein are systems, devices and methods for the correction of spinal deformities with the use one or more implantable rods configured to apply a corrective force to the spine. Methods of minimally invasive implantation of a corrective system are provided, such as where the corrective system is attached only to the spinous process of one or more vertebral bodies. Various corrective systems as well as components thereof are also provided, such as those that allow limited movement with respect to the spinal column. | 08-29-2013 |
20130226242 | VERTEBRAL RODS AND METHODS OF USE - The present application is directed to vertebral rods and methods of use. In one embodiment, the rod includes upper and lower sections that are separated by an intermediate section. The intermediate section may include one or more members, and may have a variety of configurations. An elastic member may be positioned within the intermediate section. The intermediate section and the elastic member may provide for variable resistance during movement of the upper and lower sections. In one embodiment, the resistance increases the further away the upper and lower sections move from a first orientation. | 08-29-2013 |
20130282063 | Dynamic Stabilization Systems And Devices For A Spine - A dynamic stabilization device is disclosed. The device includes a dual spring member comprising an outer spring and an inner spring that have approximately equal working lengths. The dynamic stabilization device is also configured so that the dual spring member does not undergo stresses greater than an effective fatigue limit that is related to a fatigue limit of the spring. Methods for treating a deformity of a spine using a dynamic stabilization device are also disclosed. | 10-24-2013 |
20130304126 | ANCHORING SYSTEMS AND METHODS FOR CORRECTING SPINAL DEFORMITIES - Spinal anchoring methods and devices are provided that are effective to correct spinal deformities while allowing some flexibility to the spinal. In particular, the methods and devices allow a spinal fixation element to mate to several adjacent vertebrae to maintain the vertebrae at a fixed distance relative to one another, yet to allow the orientation of each vertebrae relative to the fixation element to adjust as the orientation of the patient's spine changes. | 11-14-2013 |
20140025115 | Clamping Device of a Flexible Rod for a Minimally Invasive Surgery - A clamping device of a flexible rod for a minimally invasive surgery contains a retaining set and a flexible rod. The retaining set includes a locking member and a clamping seat. The locking member has an inner hexagonal hole defined therein and outer threads formed on an outer rim thereof. The clamping seat has a concaved arcuate face defined on a bottom end thereof and axially connecting with the locking member. The flexible rod is circular and is retained with the concaved arcuate face of the clamping seat. | 01-23-2014 |
20140052184 | DYNAMIC STABILIZATION CONNECTING MEMBER WITH ELASTIC CORE AND OUTER SLEEVE - A dynamic fixation medical implant having at least two bone anchors includes a longitudinal connecting member assembly having an elongate+ core and an outer sleeve. The core is of one-piece construction, elastic, and includes end portions for attachment to the bone anchors. The outer sleeve may include compression grooves. The sleeve surrounds the core and extends between the pair of bone anchors, the sleeve being compressible between the bone anchors. | 02-20-2014 |
20140148854 | VERTEBRAL FIXATION SYSTEM - A vertebral fixing system having a flexible elongated member, a connecting part, and an anchor, where the anchor may engage a bone structure (e.g., a vertebra) through an opening of the connecting part and the flexible elongated member may connect to the connecting part. In some cases, the vertebral fixing system may include a tightening part configured to apply a tension to the elongated member and/or secure the elongated member with respect to the connecting part. The vertebral fixing system may be configured to receive a rod and may be capable of connecting thereto. The connecting part may have a plurality of connecting members, where at least one of the connecting members includes an opening for receiving the anchor and at least one of the connecting members connects to the elongated member. | 05-29-2014 |
20140180339 | Dynamic Fixation Device and Method of Use - A dynamic fixation device is provided that allows the vertebrae to which it is attached to move in flexion within the normal physiological limits of motion, while also providing structural support that limits the amount of translation motion beyond normal physiological limits. The present invention includes a flexible portion and two ends that are adapted for connection to pedicle screws. In at least one embodiment of the present invention, the normal axis of rotation of the vertebrae is substantially duplicated by the dynamic fixation device. The flexible portion of the dynamic fixation device can include a geometric shape and/or a hinge portion. | 06-26-2014 |
20140257393 | ROTATIONAL OFFSET OVAL VERTEBRAL ROD - A flexible connection unit for use in a spinal fixation device is provided. The flexible connection unit includes an elongated member, such as a vertebral rod, having a first end portion and a second end portion opposite each other with a transition portion extending therebetween. The first end portion of the vertebral rod comprises an oval shape and the second end portion contains an oval or non-oval shape. The major diameter of the oval shaped first end is parallel to the sagittal plane of a patient's body and provides the higher stiffness for fusion to resist flexion in the sagittal plane. The second end portion of the vertebral rod is perpendicular to the sagittal end of a patient's body and provides the lower stiffness for fusion. | 09-11-2014 |
20140316469 | ROD-SHAPED IMPLANT ELEMENT WITH FLEXIBLE SECTION - A rod-shaped implant element for the connection of bone anchoring elements includes at least one rigid section that is configured to be placed in a receiver member of a bone anchoring element and a flexible section that is adjacent to the rigid section. The flexible section and the rigid section are formed as a continuous one-piece element. | 10-23-2014 |
20150039033 | IMPLANT FOR BONES OR VERTEBRAE WITH SELF-CONSTRAINED FLEXIBILITY - As implant for the stabilization of bones or vertebrae is provided, the implant being a solid body including a longitudinal axis that defines a longitudinal direction and including a flexible section that has a surface and has a length in the longitudinal direction, the flexible section including at least one cavity located near the surface and having a width in the longitudinal direction that is smaller than the length of the flexible section, the at least one cavity being connected to the surface through at least one slit, and a width of the slit in the longitudinal direction being smaller than the width of the cavity. | 02-05-2015 |
20150080955 | CONNECTION ELEMENT AND SPINE STABILIZATION SYSTEM - The present invention relates to a connection element for a spine stabilization system comprises a first end for fixing to a first bone fixation device, a second end for fixing to a second bone fixation device and an intermediate portion arranged or formed between the two ends and defining a longitudinal axis. At least one of the two ends takes the form of a coupling element for fixing the connection element to a bone fixation device in at least one defined orientation relative to the longitudinal axis. The coupling element has a shape other than a circular cylinder. | 03-19-2015 |
20150305780 | VERTEBRAL FIXATION SYSTEM - A vertebral fixing system having a flexible elongated member, a connecting part, and an anchor, where the anchor may engage a bone structure (e.g., a vertebra) through an opening of the connecting part and the flexible elongated member may connect to the connecting part. In some cases, the vertebral fixing system may include a tightening part configured to apply a tension to the elongated member and/or secure the elongated member with respect to the connecting part. The vertebral fixing system may be configured to receive a rod and may be capable of connecting thereto. The connecting part may have a plurality of connecting members, where at least one of the connecting members includes an opening for receiving the anchor and at least one of the connecting members connects to the elongated member. | 10-29-2015 |
20150313644 | SYSTEM AND METHOD FOR INSERTION OF FLEXIBLE SPINAL STABILIZATION ELEMENT - A method of inserting a spinal stabilization system into a patient generally comprises inserting a first positioning tool through a first location on a patient's skin and along a path generally toward a first vertebral anchor, coupling an end of the first positioning tool to the first vertebral anchor, positioning at least a portion of a delivery device over a connecting element, and inserting the delivery device and the connecting element through the patient's skin at the first location and along at least a portion of the first positioning tool. The first positioning tool is configured to facilitate directing the delivery device and connecting element generally toward a second vertebral anchor within the patient's body. | 11-05-2015 |
20150320448 | DEVICE FOR FIXING A BONY STRUCTURE TO A SUPPORT MEMBER - Device for fixing a bony structure to a support member, the device comprising a first connecting member which comprises: a main body provided with a first passage configured for receiving the support member, and with a first opening configured for passing a flexible member therethrough; and a rod fixed to and/or monobloc with the main body and protruding therefrom. The device further comprises a first flexible member passing through the first opening of the main body and extending beyond the main body for attachment to the bony structure. | 11-12-2015 |
20160022316 | Spinal Rods Formed From Polymer and Hybrid Materials and Growth Rod Distraction System Including Same - A growth rod distraction system a domino having first and second bores provided therein. First and second spinal rods are respectively disposed within the first and second bores for movement relative to the domino First and second spur gears are disposed within the domino and respectively cooperate with the first and second growth rods such that rotation of the spur gears causes axial movements of the growth rods relative to the domino The spinal rods may be formed either from a flexible polymer material (such as a PEEK, carbon fiber PEEK, PEAK, or similar medical grade polymer material) or a hybrid combination of such flexible polymer material and a metallic material (such as nitinol or similar medical grade metallic material). The spinal rods can also be used for fusion or non-fusion surgery of the spine to stabilize two or more vertebrae. | 01-28-2016 |
20160249953 | FLEXIBLE SPINAL STABILIZATION SYSTEM AND METHOD | 09-01-2016 |
20190142473 | FLEXIBLE SPINAL STABILIZATION SYSTEM AND METHOD | 05-16-2019 |