Odd angle internal bone fixation device for use in a transverse fracture of a humerus
First Claim
1. An improved internal fixation device for use in a transverse fracture of the humerus, the internal fixation device comprising:
- a. a generally rectangular shaped guide plate capable of abutting against a diaphysis cortex of the humerus on one side of the fracture and having a front side, a back side and a bore containing threads therethrough located adjacent to one end of the guide plate, the guide plate being slightly transversely curved wherein the front side is concave and the back side convex, the guide plate having four small holes extending perpendicularly through the guide plate and respectively located adjacent each corner of the rectangular plate, the front side of the plate further having four tips extending perpendicularly to the plate wherein each tip extends transversely from the back side to the front side of the plate and each tip is respectively located adjacent each corner of the rectangular plate, the tips located further away from each corner than the holes, the plate used exclusively for fixing the transverse fracture and having one additional medium size hole for hosting a screw located at a position along a longitudinal center line of the plate close to a proximal end of a barrel portion;
b. a short barrel portion with a cylindrical hollow structure having the length of the barrel portion being sufficiently short so as not to cross the fracture line and also to rest a sufficient distance from the fracture line to leave a bone mass between the fracture line and a distal end of the short barrel portion, the short barrel portion used exclusively to be capable of fixing the transverse fracture to have a distal end with an opening, a proximal end with an opposite opening, an inner sidewall adjacent to the opposite opening, an opening wall adjacent to the distal end, an inner cylindrical wall adjacent to the opening, and a threaded wall adjacent to the inner sidewall, the inner sidewall and the threaded wall and the inner cylindrical wall and the opening wall in series defining a passage extending from the proximal end to the distal end, an internal diameter of the opening wall being the smallest and also being slightly bigger than that of threaded teeth of a distal threaded portion of an elongated solid lag screw, a diameter of the inner sidewall being the largest, and a diameter of the threaded wall being intermediate, a length of the threaded wall being slightly less than a height of a locking screw, a length of the inner cylindrical wall is the same as a length of a proximal head of the lag screw;
c. said proximal end of the barrel portion integrally attached to the front side of the guide plate, such that the passage is communicating with the bore of the guide plate, the short barrel portion used for adapting within the diaphysis cortex of the humerus such that the front side of the guide plate is placed against the diaphysis cortex of the humerus, the barrel portion attached to the plate at a preferred inclined angle, the inclined angle having the first option exclusively for fixing the transverse fracture to be either 150 degrees or 160 degrees;
d. said elongated solid lag screw capable of internally cross fixing the fracture line and settling in the depth of the epiphysis and having the distal threaded portion and a proximal portion, the proximal portion having a proximal cylinder and the proximal head having a hexagonal cavity with means for receiving a driving tool in said cavity, a diameter of the proximal cylinder being smallest, a diameter of threaded teeth of the distal threaded portion being larger than that of the proximal cylinder, and a diameter of the proximal head being the largest;
e. said lag screw being slidably received within the passage of the barrel portion and extending out of the barrel portion following a pre-drilled mall guide hole capable of cross fixing the fracture line of the diaphysis cortex of the humerus with the distal threaded portion of the lag screw being located within the depth of the epiphysis, the proximal head of the lag screw being press-fitted within the distal end opening of the barrel portion such that the proximal head of the lag screw is contacting the inner cylinder wall of the short barrel portion and rests within the barrel portion for preventing the proximal head from extending out of the barrel portion when the guide plate is compressed against the diaphysis cortex of the humerus, and the guide plate adapted to be capable of being fixed to the diaphysis cortex of the humerus by the lag screw and dissipates all of the compression forces of the internal fixation device; and
f. said locking screw being applied into the cylindrical hollow structure of the barrel through the proximal end opening, said locking screw being pressed and turned to contact the surface of the proximal head of the lag screw for securely locking in the lag screw residing in the epiphysis;
g. whereby the guide plate dissipates all of the compression forces of the internal fixation device that are applied against the diaphysis cortex of the humerus, and thereby the diaphysis cortex of the humerus remains healthy and intact.
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Accused Products
Abstract
The present invention is an improved unique odd angle internal fixation device for both a transverse and longitudinal fracture located at the junction of the metaphysis and diaphysis of a long bone such as the proximal humerus. The improved odd angle internal fixation device includes an elongated lag screw and a rectangular shaped guide plate having multiple holes throughout the plate to host pins and screws and four tips on the front side of the plate. A lag screw with a cylindric head having a hexagonal cavity introduced through the diaphyseal segment of the fracture at three angles, 90, and 150 and 160 degrees, cross fixing the respective bone longitudinal and transverse fracture line and settling in the depth of the epiphysis. An additional locking screw is introduced on the top of the lag screw head to securely lock the lag screw after being settled into the epiphysis. The guide plate serves as a guide for the lag screw and allows the engagement of the head of the lag screw to the inner wall of its short barrel portion. The engagement would cause the guide plate which is attached to the barrel, to be compressed against the diaphyseal cortex as the lag screw advances deeper into the epiphysis at said three angles.
61 Citations
21 Claims
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1. An improved internal fixation device for use in a transverse fracture of the humerus, the internal fixation device comprising:
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a. a generally rectangular shaped guide plate capable of abutting against a diaphysis cortex of the humerus on one side of the fracture and having a front side, a back side and a bore containing threads therethrough located adjacent to one end of the guide plate, the guide plate being slightly transversely curved wherein the front side is concave and the back side convex, the guide plate having four small holes extending perpendicularly through the guide plate and respectively located adjacent each corner of the rectangular plate, the front side of the plate further having four tips extending perpendicularly to the plate wherein each tip extends transversely from the back side to the front side of the plate and each tip is respectively located adjacent each corner of the rectangular plate, the tips located further away from each corner than the holes, the plate used exclusively for fixing the transverse fracture and having one additional medium size hole for hosting a screw located at a position along a longitudinal center line of the plate close to a proximal end of a barrel portion; b. a short barrel portion with a cylindrical hollow structure having the length of the barrel portion being sufficiently short so as not to cross the fracture line and also to rest a sufficient distance from the fracture line to leave a bone mass between the fracture line and a distal end of the short barrel portion, the short barrel portion used exclusively to be capable of fixing the transverse fracture to have a distal end with an opening, a proximal end with an opposite opening, an inner sidewall adjacent to the opposite opening, an opening wall adjacent to the distal end, an inner cylindrical wall adjacent to the opening, and a threaded wall adjacent to the inner sidewall, the inner sidewall and the threaded wall and the inner cylindrical wall and the opening wall in series defining a passage extending from the proximal end to the distal end, an internal diameter of the opening wall being the smallest and also being slightly bigger than that of threaded teeth of a distal threaded portion of an elongated solid lag screw, a diameter of the inner sidewall being the largest, and a diameter of the threaded wall being intermediate, a length of the threaded wall being slightly less than a height of a locking screw, a length of the inner cylindrical wall is the same as a length of a proximal head of the lag screw; c. said proximal end of the barrel portion integrally attached to the front side of the guide plate, such that the passage is communicating with the bore of the guide plate, the short barrel portion used for adapting within the diaphysis cortex of the humerus such that the front side of the guide plate is placed against the diaphysis cortex of the humerus, the barrel portion attached to the plate at a preferred inclined angle, the inclined angle having the first option exclusively for fixing the transverse fracture to be either 150 degrees or 160 degrees; d. said elongated solid lag screw capable of internally cross fixing the fracture line and settling in the depth of the epiphysis and having the distal threaded portion and a proximal portion, the proximal portion having a proximal cylinder and the proximal head having a hexagonal cavity with means for receiving a driving tool in said cavity, a diameter of the proximal cylinder being smallest, a diameter of threaded teeth of the distal threaded portion being larger than that of the proximal cylinder, and a diameter of the proximal head being the largest; e. said lag screw being slidably received within the passage of the barrel portion and extending out of the barrel portion following a pre-drilled mall guide hole capable of cross fixing the fracture line of the diaphysis cortex of the humerus with the distal threaded portion of the lag screw being located within the depth of the epiphysis, the proximal head of the lag screw being press-fitted within the distal end opening of the barrel portion such that the proximal head of the lag screw is contacting the inner cylinder wall of the short barrel portion and rests within the barrel portion for preventing the proximal head from extending out of the barrel portion when the guide plate is compressed against the diaphysis cortex of the humerus, and the guide plate adapted to be capable of being fixed to the diaphysis cortex of the humerus by the lag screw and dissipates all of the compression forces of the internal fixation device; and f. said locking screw being applied into the cylindrical hollow structure of the barrel through the proximal end opening, said locking screw being pressed and turned to contact the surface of the proximal head of the lag screw for securely locking in the lag screw residing in the epiphysis; g. whereby the guide plate dissipates all of the compression forces of the internal fixation device that are applied against the diaphysis cortex of the humerus, and thereby the diaphysis cortex of the humerus remains healthy and intact.
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2. An improved internal fixation device for use in a transverse surgical fracture of the humerus, the internal fixation device comprising:
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a. a generally rectangular shaped guide plate capable of abutting against the diaphysis cortex of the humerus on one side of the fracture, said guide plate being slightly curved wherein a front side is transversely concave and a back side is transversely convex, with the front side and back side being linear in the longitudinal direction, the guide plate having four small holes respectively located adjacent each corner of the plate and capable of positioning the device and four tips extending perpendicularly to the plate, the medium sized hole located adjacent one end of the guide plate and the tips respectively located adjacent each corner of the rectangular plate, the guide plate further comprising a short barrel portion with a cylindrical hollow structure having a length of the barrel portion being sufficiently short so as not to cross the fracture line and also to rest a sufficient distance from the fracture line to leave a bone mass between the fracture line and a distal end of the short barrel portion, the short barrel portion further comprising a proximal end integrally attached to the front side of the profile guide plate, the short barrel portion capable of adapting within the diaphysis cortex of the humerus such that the front side of the guide plate is placed against the diaphysis cortex of the humerus, the barrel portion attached to the guide plate at a preferred inclined angle; b. an elongated solid lag screw capable of internally cross fixing the fracture line and settling in a depth of the epiphysis and having a distal threaded portion and a proximal portion, the proximal portion having a proximal cylinder and a proximal head having a cavity with means for receiving a driving tool in the cavity; c. said lag screw being slidably and rotatably received within a cylindrical hollow passage of the barrel portion and extending out of the barrel portion following a pre-drilled small guide hole to provide a rotating and sliding forward movement relative to the guide plate to be capable of cross fixing the fracture line of the diaphysis cortex of the humerus with the distal threaded portion of the lag screw being located within a depth of the epiphysis, and the guide plate adapted to be capable of being fixed to the diaphysis cortex of the humerus by the lag screw, wherein the four tips are capable of penetrating through the cortex of the humerus to provide additional affixing forces to stabilize the device; and d. a locking screw being applied into the cylindrical hollow passage of the barrel through a proximal end opening, said locking screw being pressed and turned to contact an entire portion of the top surface of the proximal head of the lag screw capable of securely locking in the lag screw which resides in the epiphysis; e. whereby the guide plate dissipates all compression forces of the internal fixation device that are applied against the diaphysis cortex of the humerus, and thereby the diaphysis cortex of the humerus remains healthy and intact. - View Dependent Claims (3, 4, 5, 6)
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7. An improved internal fixation device for use in a transverse surgical fracture of the humerus, comprising:
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a. a generally rectangular shaped guide plate curved in a transverse direction and linear in a longitudinal direction and capable of abutting against a diaphysis cortex of the humerus on one side of the fracture, the guide plate having a medium sized hole extending perpendicularly through the plate and tips extending perpendicularly to the plate, said guide plate further comprising a short barrel portion with a cylindrical hollow structure having a length of the barrel portion being sufficiently short so as not to cross the fracture line and also to rest a sufficient distance from the fracture line to leave a bone mass between the fracture line and the distal end of the short barrel portion, said short barrel portion further comprising a proximal end which is integrally affixed to the front side of the guide plate and positioned at a fixed distance from said medium sized hole, said barrel portion integrally affixed to said guide plate at a preferred inclined angle; b. a solid lag screw for internally cross fixing the fracture line having a distal threaded portion and a proximal portion with a head, said lag screw being slidably and rotatably received within a passage of the barrel portion and extending out of the barrel portion following a pre-drilled small guide hole to provide a rotating and sliding forward movement relative to said guide plate to cross fix the fracture line of the diaphysis cortex of the humerus, so that the guide plate is compressed against the diaphysis cortex of the humerus by the lag screw, wherein the tips are capable of penetrating through the cortex of the humerus to provide additional affixation forces to stabilize the device; and c. a locking screw being applied to contact an entire top surface of the head of the lag screw for securely locking the lag screw; d. whereby the low profile guide plate dissipates all of the compression forces of the internal fixation device that are applied against the diaphysis cortex of the humerus, and thereby the diaphysis cortex of the humerus remains healthy and intact. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
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15. An improved internal fixation device for using to fix a transverse surgical fracture of the humerus, comprising:
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a. a guide plate curved in a transverse direction and linear in a longitudinal direction and capable of abutting against a diaphysis cortex of the humerus on one side of the fracture, the guide plate having tips extending perpendicularly to the plate and a medium sized hole capable of fixing said guide plate to said diaphysis cortex, said guide plate further comprising a short hollow barrel portion having a length being sufficiently short so that said short hollow barrel portion does not cross the fracture, said hollow short barrel portion is integrally affixed to a front side of said guide plate with a preferred inclined angle and positioned at a fixed distance from said medium sized hole; b. a solid lag screw capable of internally cross fixing the fracture line having a distal threaded portion and a proximal portion, said lag screw being rotatably and slidably received by said short hollow barrel portion and extending out of the barrel portion from a rotating and sliding forward movement relative to said guide plate to be capable of cross fixing the fracture line of the diaphysis cortex of the humerus, which causes said guide plate that is compressed to be affixed to the diaphysis cortex of the humerus, wherein the tips are capable of penetrating through the cortex of the humerus to provide additional affixation forces to stabilize the device; and c. whereby said guide plate dissipates all of compression forces of said internal fixation device that are applied against said diaphysis cortex of the humerus, and thereby said diaphysis cortex of the humerus remains healthy and intact. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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Specification