Mac-Thiong
Jean-Marc Mac-Thiong, Montreal CA
Patent application number | Description | Published |
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20110270397 | SPINAL COVERING DEVICE - A spinal covering device for covering exposed neural spinal elements after a spinal procedure includes a body at least substantially or completely free of openings and first and second support planes extending longitudinally along the body adapted to overlay or abut remaining tissues on opposite sides of the exposed neural spinal elements such that the device forms a spinal canal portion protecting the neural spinal elements. The device has an inner surface at least partially defining an inner surface of the spinal canal portion and an outer surface opposite of the inner surface, at least the outer surface allowing bone graft deposition or bone fusion thereon. | 11-03-2011 |
20140007437 | Apparatus for containment of a device equipped with an inclinometer - An apparatus enabling inclination measurements or irregular surfaces comprising a retaining end adapted to temporarily hold a device equipped with an inclinometer and a supporting end, fixed to the retaining end, conformed to abut an irregular surface whereby the apparatus enables the device equipped with an inclinometer to measure inclination of an irregular surface. | 01-09-2014 |
20150190187 | Bone screw fixation system - A bone screw for pelvic bone fixation, the bone screw comprising an elongate body having a first end which is threaded for engaging at least one bone in the pelvic region, a second end comprising a screw head, and at least one opening across the length of the elongate body for adjustably receiving a fastening means to limit movement of the bone screw away from the engaged bone in use, wherein the at least one opening is shaped such that the position of the fastening means relative to the elongate body of the bone screw can be adjusted. A system for bone fixation in the pelvic region includes the bone screw and the fastening means. | 07-09-2015 |
Jean-Marc Mac-Thiong, Mont-Royal CA
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20140076883 | Apparatus and method for per-operative modification of medical device stiffness - An apparatus for per-operative modification of a medical device stiffness comprising a body having at least two ends, an element attached to first end of said body providing heat and mechanical treatment and adapted to abut and deform at least one portion of the medical device, a second end, opposite to said first end of said body, adapted to be grasped, a means of connecting to a power source located anywhere between said ends of said body, whereby the apparatus provides a means to enable per-operative adjustment to the stiffness of a medical device. | 03-20-2014 |
Jean-Marc Mac-Thiong, Ville Mount-Royal CA
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20140135850 | BONE SCREW, AND BONE FIXATION SYSTEM AND METHOD - A bone screw for pelvic bone fixation, the bone screw comprising an elongate body having a first end which is threaded for engaging at least one bone in the pelvic region, a second end comprising a screw head, and at least one opening across the length of the elongate body for adjustably receiving a fastening means to limit movement of the bone screw away from the engaged bone in use, wherein the at least one opening is shaped such that the position of the fastening means relative to the elongate body of the bone screw can be adjusted. A system for bone fixation in the pelvic region includes the bone screw and the fastening means. | 05-15-2014 |
Jean-Marc Mac-Thiong, Ville Mont-Royal CA
Patent application number | Description | Published |
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20150287184 | SYSTEM AND METHOD FOR PREDICTING SCOLIOSIS PROGRESSION - There is described a system, method, and computer-readable medium having stored thereon executable program code for generating a final Cobb angle prediction for idiopathic scoliosis, the method comprising: receiving patient-specific 3D morphological spine parameters, a selected curve type, and a selected skeletal maturity; applying the patient-specific 3D morphological spine parameters, a selected curve type, and a selected skeletal maturity to a predictive model based on 3D morphological spine parameters, curve type, and skeletal maturity, and generating the final Cobb angle prediction by modeling a progression curve of the idiopathic scoliosis. | 10-08-2015 |