Patents by Inventor Pascal Boileau
Pascal Boileau has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20170164992Abstract: The instrumentation makes it possible to implant in a long bone, such as the humerus, the femur or the tibia, an implant, such as an osteosynthesis nail or a prosthetic rod, defining a longitudinal axis and including, in alignment along the longitudinal axis, two opposite terminal parts and a running part that separates the two terminal parts from one another. The instrumentation comprises a targeting ancillary tool that is adapted to target one and/or the other of the terminal parts of the implant, if applicable percutaneously, along at least one targeting axis that is transverse, or even perpendicular, to the longitudinal axis. The targeting ancillary tool is designed to be fastened laterally to the running part of the implant so as to position the targeting ancillary tool and the implant relative to one another in a predetermined configuration.Type: ApplicationFiled: December 5, 2016Publication date: June 15, 2017Inventors: Benjamin Dassonville, Pierric Deransart, Jean-Emmanuel Cardon, Gilles Walch, Pascal Boileau
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Patent number: 9636102Abstract: A surgical device includes a first fastener having a planar profile, a second fastener having a concave surface, and a suture that can be manipulated to change a distance between the first and second fasteners. The second fastener has a curvature that substantially matches the curvature of a top surface of a clavicle bone in a direction perpendicular to a long axis of the clavicle bone. A method of treating an acromioclavicular joint injury includes forming axially aligned passages through a patient's clavicle and coracoid process, passing a fastener having a concave surface through the passages, positioning the concave surface of the fastener against a top surface of the patient's clavicle with a long axis of the fastener extending perpendicular to a long axis of the clavicle, positioning a fastener having a planar profile below the patient's coracoid process, and adjusting a suture that couples the fasteners.Type: GrantFiled: October 17, 2014Date of Patent: May 2, 2017Assignee: Smith & Nephew, Inc.Inventors: George J. Sikora, James J. Sullivan, Pascal Boileau, Stephen Anthony Santangelo
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Publication number: 20170095336Abstract: This glenoidal component for a shoulder prosthesis comprises a base which may be immobilized on the glenoid cavity of a shoulder, and an element provided to be mounted on this base and forming a convex surface of articulation centred on an axis of symmetry. This axis of symmetry is non perpendicular to a rear face of the base intended to abut against the glenoid cavity, this making it possible to compensate a defect in parallelism between the resectioned surface of the glenoid cavity and the axis of the patient's spinal column. A surgeon can select the component in which the axes of symmetry of the components are oriented differently with respect to their rear faces.Type: ApplicationFiled: December 14, 2016Publication date: April 6, 2017Inventors: Alain Tornier, Francois Sirveaux, Gilles Walch, Daniel Mole, Christophe Levigne, Pascal Boileau, Luc Favard
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Publication number: 20170079668Abstract: The abrasion tool including a generally elongate body having a proximal end and a distal end, the proximal end including a first proximal segment, a head formed in the distal end of the body, and a lumen formed within the body and extending from the first proximal segment to the head. The head further includes an opening spanning a portion of the width of the head and in communication with the lumen, and a plurality of teeth extending transversely to the longitudinal axis and spanning the width of the opening, where the plurality of teeth are longitudinally spaced apart by a plurality of gaps. The first proximal segment of the body is further adapted to communicate with a vacuum source and wherein the lumen is adapted to convey a vacuum force applied by the vacuum source from the first proximal segment to the plurality of gaps.Type: ApplicationFiled: June 2, 2015Publication date: March 23, 2017Applicant: Smith & Nephew, Inc.Inventors: Pascal Boileau, Oliver Steit
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Patent number: 9597128Abstract: A method and apparatus of reattaching a bone fragment to a proximal humerus of a humerus in a shoulder joint. The method includes introducing a distal end of the humeral nail into a medullary canal of the humerus. A first proximal screw is engaged with the bone fragment and a first proximal bore in the proximal end of the humeral nail to move the bone fragment toward the proximal humerus. The humeral nail and the attached bone fragment are rotated relative to the medullary canal of the humerus to position the bone fragment to an anatomically optimal location. The bone fragment is preferably one of a greater or lesser tuberosity of the proximal humerus. The method and apparatus can be used to reattach bone fragments in a variety of other joints.Type: GrantFiled: May 5, 2014Date of Patent: March 21, 2017Assignee: Tornier, Inc.Inventors: Pascal Boileau, Loïc Barouch, Armodios Hatzidakis, Edward Fehringer, Jean-Marie Berger, Brian C. Hodorek
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Publication number: 20170042690Abstract: A glenoid implant for a shoulder prosthesis for implantation in the glenoid of a scapula according to embodiments of the present invention includes a central fixation element; an articular body configured for articulation with a humerus, the articular body comprising a plate, the plate comprising a side configured to be oriented toward the glenoid, the side comprising a central protrusion, wherein the central fixation element comprises a means for mechanically engaging with the central protrusion; a first means for locking rotation of the central fixation element with respect to the glenoid; and a second means for locking rotation of the articular body with respect to the glenoid.Type: ApplicationFiled: October 27, 2016Publication date: February 16, 2017Inventors: Wayne Z. Burkhead, JR., Pascal Boileau, Gilles Walch, Pierric Deransart
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Publication number: 20170042687Abstract: Method and set of surgical instruments for fitting a shoulder prosthesis, and the shoulder prosthesis. The proposed method seeks to interpose a bone graft between the previously prepared glenoid surface (G) of a scapula (S) of a patient's shoulder and the face of a glenoid prosthetic component opposite the articular surface. The set of instruments permit the bone graft to be taken from the upper epiphysis of the humerus (H), either in situ or ex vivo.Type: ApplicationFiled: October 28, 2016Publication date: February 16, 2017Inventors: Pascal Boileau, Gilles Walch
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Publication number: 20170027737Abstract: A brace for restricting the movement of a shoulder joint, the brace including a trunk module attachable to a human body, wherein the trunk module includes a strap for attaching the brace to the body; and at least one first part of a locking mechanism; a forearm module pivotable relative to the trunk module, the forearm module further including a second part of a locking mechanism capable of engaging and disengaging with said first part of the locking mechanism; and a posterior upper arm support attached to the trunk module in a fixed position; wherein in a first orientation the at least one first part of the locking mechanism is engaged with the second part of the locking mechanism; and wherein in a second orientation the at least one first part of the locking mechanism is disengaged from the second part of the locking mechanism.Type: ApplicationFiled: June 24, 2016Publication date: February 2, 2017Inventors: Pascal Boileau, Jean Christophe Bouletrean
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Patent number: 9545312Abstract: This glenoidal component for a shoulder prosthesis comprises a base which may be immobilized on the glenoid cavity of a shoulder, and an element provided to be mounted on this base and forming a convex surface of articulation centered on an axis of symmetry. This axis of symmetry is non perpendicular to a rear face of the base intended to abut against the glenoid cavity, this making it possible to compensate a defect in parallelism between the resectioned surface of the glenoid cavity and the axis of the patient's spinal column. A surgeon can select the component in which the axes of symmetry of the components are oriented differently with respect to their rear faces.Type: GrantFiled: October 1, 2014Date of Patent: January 17, 2017Assignee: Tornier SASInventors: Alain Tornier, Francois Sirveaux, Gilles Walch, Daniel Mole, Christophe Levigne, Pascal Boileau, Luc Favard
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Patent number: 9498345Abstract: A glenoid implant for a shoulder prosthesis for implantation in the glenoid of a scapula according to embodiments of the present invention includes a central fixation element; an articular body configured for articulation with a humerus, the articular body comprising a plate, the plate comprising a side configured to be oriented toward the glenoid, the side comprising a central protrusion, wherein the central fixation element comprises a means for mechanically engaging with the central protrusion; a first means for locking rotation of the central fixation element with respect to the glenoid; and a second means for locking rotation of the articular body with respect to the glenoid.Type: GrantFiled: January 31, 2012Date of Patent: November 22, 2016Assignee: Tornier SASInventors: Wayne Z. Burkhead, Jr., Pascal Boileau, Gilles Walch, Pierric Deransart
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Publication number: 20160331555Abstract: Methods of implanting a prosthesis to repair a joint include displacing a first bone from the joint formed by an intersection between the first bone and a second bone. An end portion of the first bone is resected to define a resected end. A concavity is formed into the resected end using a shaping tool. The bone is compacted to form a support layer lining the concavity. The prosthesis is implanted in the concavity against the support layer without attaching the prosthesis to the support layer. The joint is reformed with the prosthesis such that the prosthesis remains unattached to the support layer and the first and second bones articulate about the prosthesis.Type: ApplicationFiled: July 29, 2016Publication date: November 17, 2016Inventors: Michel Hassler, Gilles Walch, Pierric Deransart, Lucile Ferrand, Pascal Boileau
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Publication number: 20160242933Abstract: A patient specific glenoid guide is provided to facilitate properly aligned implantation of a glenoid prosthesis into a patient. The guide shape is designed preoperatively based on the unique configuration of the scapula of the patient. The guide orientation is chosen preoperatively based on one or more of the bone structure of the patient, the wear pattern of the patient's glenoid cavity, the anchoring means of the glenoid prosthesis, or other aspects.Type: ApplicationFiled: November 11, 2014Publication date: August 25, 2016Inventors: Pierric Deransart, Emmanuel Francois Marie Lizee, Delphine Claire Michelle Henry, Jean Chaoui, Gilles Walch, Pascal Boileau
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Publication number: 20160242921Abstract: This set (J) comprises glenoid components (S1, S2, M1, M2, L1, L2) that each include a body (S1.1, S2.1, M1.1, M2.1, L1.1, L2.1) defining, on two of its opposite faces, respectively, a joint surface (S1.2, S2.2, M1.2, M2.2, L1.2, L2.2), intended to cooperate with a humeral head, and a bearing surface (S1.3, S2.3, M1.3, M2.3, L1.3, L2.3) bearing against the socket of a shoulder blade. In this set, the glenoid components are provided in several different sizes (S, M, L), respectively defined by the dimensions of the joint surface of their body. At least two glenoid components (S1 and S2, M1 and M2, L1 and L2) of which the bearing surfaces (S1.3 and S2.3, M1.3 and M2.3, L1.3 and L2.3) respectively have different dimensional geometries are provided so as to allow the surgeon to improve the durability of the mechanical cooperation between the implanted component and the operated socket.Type: ApplicationFiled: May 3, 2016Publication date: August 25, 2016Inventors: Gilles Walch, Pascal Boileau, Chrstophe Levigne, Lucile Ferrand, Pierric Deransart
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Publication number: 20160235457Abstract: Techniques disclosed herein include systems and methods for a bone screw and self-retaining driver. The system includes a mechanism that enables a bone screw to be rigidly attached to a screwdriver for manipulation and transfer of bone fragments and grafts to a fixation site, such as during surgery. The system includes a cannulated bone screw that has a drive connection that engages with a drive structures of a screwdriver. The bone screw also includes a structural connector that securely attaches to or receives an internal shaft or rod of the screwdriver. The internal shaft or rod of the screwdriver can rotate and slide independent of an outer shaft of screwdriver. Accordingly, the internal shaft of the screwdriver can rigidly connect with the bone screw enabling applied torque to the screwdriver to be transferred to the bone screw, without the bone screw falling off of the drive connection.Type: ApplicationFiled: April 26, 2016Publication date: August 18, 2016Applicant: Smith & Nephew, Inc.Inventors: Stephen Anthony Santangelo, Jeffrey Wyman, Neil J. Etherington, Pascal Boileau
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Publication number: 20160228119Abstract: Methods of joint repair employing sutures and attached fixation devices are discussed. For example, a bone block graft procedure (e.g., Latarjet) is discussed which employs fixation devices to secure contact between graft surfaces of two bones. A suture construct, including a continuous suture loop routed through a first fastener, is secured to a first bone. Looped ends of the suture loop are passed through passageways formed in the two bones. The looped suture ends are further routed through a second fastener. The second fastener is mounted to the second bone and a sliding knot, formed in the looped suture ends, is advanced into contact with the second fastener. The suture is further tensioned using a tensioner device to secure the two bones together.Type: ApplicationFiled: April 13, 2016Publication date: August 11, 2016Applicant: Smith & Nephew, Inc.Inventors: Pascal Boileau, Mason James Bettenga, Christoph Haessig, Dirk Wunderle, Alexander Iwan Seidl, Oliver Streit, Stephen Anthony Santangelo
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Patent number: 9408652Abstract: Methods of implanting a prosthesis to repair a joint include displacing a first bone from the joint formed by an intersection between the first bone and a second bone. An end portion of the first bone is resected to define a resected end. A concavity is formed into the resected end using a shaping tool. The bone is compacted to form a support layer lining the concavity. The prosthesis is implanted in the concavity against the support layer without attaching the prosthesis to the support layer. The joint is reformed with the prosthesis such that the prosthesis remains unattached to the support layer and the first and second bones articulate about the prosthesis.Type: GrantFiled: April 27, 2010Date of Patent: August 9, 2016Assignee: Tornier SASInventors: Michel Hassler, Gilles Walch, Pierric Deransart, Lucile Ferrand, Pascal Boileau
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Patent number: 9402650Abstract: Methods of joint repair employing sutures and attached fixation devices are discussed. For example, a bone block graft procedure (e.g., Latarjet) is discussed which employs fixation devices to secure contact between graft surfaces of two bones. A suture construct, including a continuous suture loop routed through a first fastener, is secured to a first bone. Looped ends of the suture loop are passed through passageways formed in the two bones. The looped suture ends are further routed through a second fastener. The second fastener is mounted to the second bone and a sliding knot, formed in the looped suture ends, is advanced into contact with the second fastener. The suture is further tensioned using a tensioner device to secure the two bones together.Type: GrantFiled: March 14, 2014Date of Patent: August 2, 2016Assignee: Smith & Nephew, Inc.Inventors: Pascal Boileau, Mason James Bettenga, Christoph Haessig, Dirk Wunderle, Alexander Iwan Seidl, Oliver Streit, Stephen Anthony Santangelo
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Patent number: 9387025Abstract: Techniques disclosed herein include systems and methods for a bone screw and self-retaining driver. The system includes a mechanism that enables a bone screw to be rigidly attached to a screwdriver for manipulation and transfer of bone fragments and grafts to a fixation site, such as during surgery. The system includes a cannulated bone screw that has a drive connection that engages with a drive structures of a screwdriver. The bone screw also includes a structural connector that securely attaches to or receives an internal shaft or rod of the screwdriver. The internal shaft or rod of the screwdriver can rotate and slide independent of an outer shaft of screwdriver. Accordingly, the internal shaft of the screwdriver can rigidly connect with the bone screw enabling applied torque to the screwdriver to be transferred to the bone screw, without the bone screw falling off of the drive connection.Type: GrantFiled: April 4, 2012Date of Patent: July 12, 2016Assignee: Smith & Nephew, Inc.Inventors: Stephen Anthony Santangelo, Jeffrey Wyman, Neil J. Etherington, Pascal Boileau
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Patent number: 9351844Abstract: A set includes glenoid components that each include a body defining, on two of its opposite faces, respectively, a joint surface, intended to cooperate with a humeral head, and a bearing surface bearing against the socket of a shoulder blade. In this set, the glenoid components are provided in several different sizes, respectively defined by the dimensions of the joint surface of their body. At least two glenoid components of which the bearing surfaces respectively have different dimensional geometrics are provided so as to allow the surgeon to improve the durability of the mechanical cooperation between the implanted component and the operated socket.Type: GrantFiled: October 21, 2011Date of Patent: May 31, 2016Assignee: Tornier, Inc.Inventors: Gilles Walch, Pascal Boileau, Christophe Levigne, Lucile Ferrand, Pierric Deransart
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Publication number: 20150297354Abstract: A method of forming a shoulder prosthesis includes resecting an end portion of a humerus to form a resected end of the humerus and a resected portion separated from the humerus, the resected portion having an outer convex surface and an inner surface. The inner surface of the resected portion is processed to include a concave articular surface. The outer convex surface of the resected portion is implanted in the resected end of the humerus. An implant having a convex articular surface is secured to a glenoid. The concave articular surface of the resected portion is articulated with the convex articular surface of the implant.Type: ApplicationFiled: June 29, 2015Publication date: October 22, 2015Inventors: Gilles WALCH, Yves-Alain RATRON, Irene FERRARI, Pascal BOILEAU