JPWO2020006089A5

JPWO2020006089A5 -

Info

Publication number: JPWO2020006089A5
Application number: JP2020573246A
Authority: JP
Publication date: 2022-04-22
Anticipated expiration: 2039-06-26

Claims

Bone plate system:
Bone plate;
A plurality of stretch-through openings of the bone plate, each having a pair of end portions across the stretch-through opening;
Multiple bone screws, each having a head portion and a shank portion, the shank portion being configured to be driven into the bone;
A plurality of sliders having through holes configured to receive the head portion of the bone screw within the stretch penetration opening, the slider and the head of the bone screw received within the slider. A plurality of sliders in which the portion is shiftable with respect to the bone plate within the stretch through opening;
It is at least one elastic member having a load configuration, and in the load configuration, the at least one elastic member applies a bias force to the plurality of sliders, and each slider is subjected to one end portion of each extension penetration opening. At least one elastic member configured to urge towards; and at least one actuator that retains the at least one elastic member in said load configuration and the slider is each said stretch-through opening. An interference position in which the actuator suppresses a shift toward the one end portion of the portion, and the stretch penetration of the slider and the bone screw received by the slider by the at least one elastic member. An actuator having a clearance position that allows the actuator to urge along the opening towards the one end portion of the stretch through opening;
Including
The at least one elastic member in the load configuration comes into contact with the bone plate and the slider, and applies a bias force to the slider to urge the slider toward the one end portion of the extension through opening. do,
Bone plate system.

The bone plate system of claim 1, wherein the at least one actuator in the interference position holds each slider at the opposite end portion of the respective extension through opening.

The bone plate system of claim 1, wherein the at least one elastic member comprises a plurality of stretched elastic wires each associated with one of the sliders.

Bone plate system:
Bone plate;
A plurality of stretch-through openings of the bone plate, each having a pair of end portions across the stretch-through opening;
Multiple bone screws, each having a head portion and a shank portion, the shank portion being configured to be driven into the bone;
A plurality of sliders having through holes configured to receive the head portion of the bone screw within the stretch penetration opening, the slider and the head of the bone screw received within the slider. A plurality of sliders in which the portion is shiftable with respect to the bone plate within the extension through opening;
At least one elastic member configured to apply a bias force to the plurality of sliders and urge each slider toward one end portion of the respective stretch-through opening;
At least one actuator, the interference position where the actuator suppresses the shift of the slider toward the one end portion of each of the extension through openings, and the at least one elastic member are the slider and the slider. A clearance position that allows the actuator to urge the bone screw received by the slider toward the one end portion of the stretch penetration opening along the stretch penetration opening of the bone plate. Actuator with;
Including
The at least one elastic member comprises a plurality of stretched elastic members, each elastic member having a pair of opposing ends and an intermediate portion between the ends, the intermediate portion being by one of the sliders. Supported, said end is supported by said bone plate,
Bone plate system.

Bone plate system:
Bone plate;
A plurality of stretch-through openings of the bone plate, each having a pair of end portions across the stretch-through opening;
Multiple bone screws, each having a head portion and a shank portion, the shank portion being configured to be driven into the bone;
A plurality of sliders having through holes configured to receive the head portion of the bone screw within the stretch penetration opening, the slider and the head of the bone screw received within the slider. A plurality of sliders in which the portion is shiftable with respect to the bone plate within the stretch through opening;
At least one elastic member configured to apply a bias force to the plurality of sliders and urge each slider toward one end portion of the respective stretch-through opening;
At least one actuator, the interference position where the actuator suppresses the shift of the slider toward the one end portion of each of the extension through openings, and the at least one elastic member are the slider and the slider. A clearance position that allows the actuator to urge the bone screw received by the slider toward the one end portion of the stretch penetration opening along the stretch penetration opening of the bone plate. Actuator with;
Including
The at least one elastic member comprises a plurality of elastic members each extending between one of the sliders and the bone plate, each elastic member when the at least one actuator is in the interference position. It has a deformed configuration that includes a bent portion, and when the at least one actuator is in the clearance position, the bent portion can extend straight toward a non-deformed configuration.
Bone plate system.

The bone according to claim 1, wherein the at least one elastic member comprises a pair of elastic members fixed to each of the sliders, and each elastic member has a pair of portions connecting the slider to the bone plate. Plate system.

The at least one actuator includes a plurality of actuators, each of which has a head portion configured to be engaged by an actuator removing device and one of the sliders when the actuator is in the interference position. The bone plate system according to claim 1, further comprising a body portion held between the bone plate and the bone plate.

A flat wall portion in which the bone plate comprises a flat wall portion extending along one of the stretch through openings and one of the sliders faces the flat wall portion of the bone plate. And that the at least one actuator engages with the flat wall portion of the bone plate and the flat wall portion of the slider when the actuator is in the interference position, respectively. Have;
The bone plate system according to claim 1.

The bone plate system of claim 1, wherein at least one of the sliders comprises a pair of through holes sized to receive a head portion of the pair of bone screws.

The bone plate system according to claim 1, wherein the bone plate has a single integral structure.

The bone plate system according to claim 1, wherein the slider is rigid and does not deform even when the head portion of the bone screw is seated in the through hole of the slider.

With the at least one actuator in the interference position, the at least one elastic member is in a load configuration and a bias force is applied to each of the sliders to apply a bias force between the slider and the bone plate. Clamp one actuator,
With the at least one actuator in the clearance position, the at least one elastic member shifts towards a no- load configuration.
The bone plate system according to claim 1.

The bone plate system of claim 1, wherein a single slider is present in each of the stretch-through openings of the bone plate.

A bone plate system for fixing a pair of bones:
Bone plate;
A pair of stretch-through openings in the bone plate;
A pair of bone screws for fixing the bone plate to the pair of bones, each having a head portion and a shank portion;
A pair of sliders in the extension through opening of the bone plate, each of which has a through hole, and the shank portion of one of the bone screws is driven into the bone through the through hole. The through hole is configured such that the head portion is seated in the through hole;
At least one actuator configured to be clamped between the slider and the bone plate; and
Extending between the bone plate and the slider within the stretch-through opening of the bone plate, a bias force is applied to the slider to urge the slider against the at least one actuator and the slider. At least one elastic member configured to clamp the at least one actuator between the slider and the bone plate;
Including
The at least one actuator can be removed from the clamp between the slider and the bone plate, whereby the bias force applied by the at least one elastic member extending within the extension through opening is: Each of the sliders and the bone screw in the slider is urged toward the other slider and the bone screw to press the pair of bones together.
Bone plate system.

14. The bone plate system of claim 14, wherein the at least one elastic member comprises at least one stretched elastic wire.

A bone plate system for fixing a pair of bones:
Bone plate;
A pair of stretch-through openings in the bone plate;
A pair of bone screws for fixing the bone plate to the pair of bones, each having a head portion and a shank portion;
A pair of sliders in the extension through opening of the bone plate, each of which has a through hole, and the shank portion of one of the bone screws is driven into the bone through the through hole. The through hole is configured such that the head portion is seated in the through hole;
At least one actuator configured to be clamped between the slider and the bone plate; and
Extending between the bone plate and the slider within the stretch-through opening of the bone plate, a bias force is applied to the slider to urge the slider against the at least one actuator and the slider. At least one elastic member configured to clamp the at least one actuator between the slider and the bone plate;
Including
The at least one actuator can be removed from the clamp between the slider and the bone plate, whereby the bias force applied by the at least one elastic member extending within the extension through opening is: Each of the sliders and the bone screw in it is urged toward the other slider and the bone screw to press the pair of bones together.
The at least one elastic member comprises at least one stretched elastic wire.
The at least one stretched elastic wire comprises a pair of stretch elastic wires secured to each of the sliders to connect the slider to the bone plate.
Bone plate system.

A bone plate system for fixing a pair of bones:
Bone plate;
A pair of stretch-through openings in the bone plate;
A pair of bone screws for fixing the bone plate to the pair of bones, each having a head portion and a shank portion;
A pair of sliders in the extension through opening of the bone plate, each of which has a through hole, and the shank portion of one of the bone screws is driven into the bone through the through hole. The through hole is configured such that the head portion is seated in the through hole;
At least one actuator configured to be clamped between the slider and the bone plate; and
Extending between the bone plate and the slider within the stretch-through opening of the bone plate, a bias force is applied to the slider to urge the slider against the at least one actuator and the slider. At least one elastic member configured to clamp the at least one actuator between the slider and the bone plate;
Including
The at least one actuator can be removed from the clamp between the slider and the bone plate, whereby the bias force applied by the at least one elastic member extending within the extension through opening is: Each of the sliders and the bone screw in it is urged toward the other slider and the bone screw to press the pair of bones together.
With the actuator clamped between the slider and the bone plate, the at least one elastic member comprises at least one bend and the at least one actuator is between the slider and the bone plate. At least one bend is straightened in response to being removed from the clamp.
Bone plate system.

14. The bone plate system of claim 14, wherein the at least one elastic member comprises at least one elastic member associated with each of the sliders.

18. The bone plate system of claim 18, wherein the at least one elastic member connects the associated slider to the bone plate and supports the slider within the stretch-through opening of the bone plate.

Each said slider comprises a pair of supporting surfaces that extend laterally to each other.
The at least one elastic member related to the slider has a load configuration in which a part of the elastic member extends along the support surface, and the part of the elastic member is separated from the support surface. 18. The bone plate system of claim 18, comprising a load configuration.

14. The bone plate system of claim 14, wherein each slider comprises both ends and at least one passage extending in the middle of the ends, dimensioned to penetrate the at least one elastic member.

A bone plate system for fixing a pair of bones:
Bone plate;
A pair of stretch-through openings in the bone plate;
A pair of bone screws for fixing the bone plate to the pair of bones, each having a head portion and a shank portion;
A pair of sliders in the extension through opening of the bone plate, each of which has a through hole, and the shank portion of one of the bone screws is driven into the bone through the through hole. The through hole is configured such that the head portion is seated in the through hole;
At least one actuator configured to be clamped between the slider and the bone plate; and
Extending between the bone plate and the slider within the stretch-through opening of the bone plate, a bias force is applied to the slider to urge the slider against the at least one actuator and the slider. At least one elastic member configured to clamp the at least one actuator between the slider and the bone plate;
Including
The at least one actuator can be removed from the clamp between the slider and the bone plate, whereby the bias force applied by the at least one elastic member extending within the extension through opening is: Each of the sliders and the bone screw in it is urged toward the other slider and the bone screw to press the pair of bones together.
Each said slider includes both ends and at least one passage extending in the middle of the ends, dimensioned to penetrate the at least one elastic member.
The at least one elastic member has a pair of portions that swivel in the passage in response to removal of the at least one actuator from a clamp between the slider and the bone plate.
The at least one passage comprises an enlarged portion at each of the ends that allows the swivel movement of the portion of the elastic member.
Bone plate system.

A bone plate system for fixing a pair of bones:
Bone plate;
A pair of stretch-through openings in the bone plate;
A pair of bone screws for fixing the bone plate to the pair of bones, each having a head portion and a shank portion;
A pair of sliders in the extension through opening of the bone plate, each of which has a through hole, and the shank portion of one of the bone screws is driven into the bone through the through hole. The through hole is configured such that the head portion is seated in the through hole;
At least one actuator configured to be clamped between the slider and the bone plate; and
Extending between the bone plate and the slider within the stretch-through opening of the bone plate, a bias force is applied to the slider to urge the slider against the at least one actuator and the slider. At least one elastic member configured to clamp the at least one actuator between the slider and the bone plate;
Including
The at least one actuator can be removed from the clamp between the slider and the bone plate, whereby the bias force applied by the at least one elastic member extending within the extension through opening is: Each of the sliders and the bone screw in it is urged toward the other slider and the bone screw to press the pair of bones together.
Each said slider includes both ends and at least one passage extending in the middle of the ends, dimensioned to penetrate the at least one elastic member.
The at least one passage comprises a pair of passages extending in the middle of the ends.
The at least one elastic member comprises a pair of elastic wires associated with each of the sliders extending through each of the pair of passages.
Bone plate system.

The at least one actuator includes a plurality of actuators.
Each of the actuators is clamped between a head portion configured to be engaged by an actuator removing device and one of the sliders and the bone plate, with one slider shifting towards the other slider. Has a body part to resist
The bone plate system according to claim 14.

The bone plate system of claim 14, wherein the at least one elastic member comprises superelastic nitinol.

The bone plate and the slider have an opening and a surface defining the opening;
The at least one elastic member extends into the opening; and when the actuator is in the interference position, the at least one elastic member engages the surface defining the opening in the bone plate. do;
The bone plate system according to claim 1.

The at least one elastic member includes an stretched elastic member;
The stretched elastic member is the first portion fixed to the bone plate, the second portion fixed to one of the sliders, and the one from the bone plate along the stretched elastic member. It has an intermediate portion extending to the slider and between the first portion and the second portion.
The bone plate system according to claim 14.

The bone plate contains a first opening and the slider contains a second opening;
The at least one elastic member extends into the first opening and the second opening;
The bone plate system according to claim 14.