JP3182021U - Measuring device for knee replacement surgery - Google Patents

Abstract

A measuring device for knee joint replacement surgery capable of measuring a tension acting on one of a portion on an inner collateral ligament side and a portion on an outer collateral ligament side in a knee joint.
A measuring apparatus for knee joint replacement surgery includes a main body part, a movable part, a drive mechanism, and a scale part. The tibial side plate 30 of the main body 10 is formed by the end 61 a on one side, which is a portion on the inner collateral ligament side or the outer collateral ligament side, at the distal end 61 of the femur 60, The femoral side plate 41 of the movable part 40 is disposed between the other surface of the tibial plate 30 and one end 61 a of the distal end 61 of the femur 60. When the drive mechanism 35 is driven, the slide portion slides, and the femur side plate 41 moves in a direction away from the tibial plate 30.
[Selection] Figure 1

Description

  The present invention relates to a measurement apparatus for knee joint replacement surgery for measuring a tension acting on a knee joint.

  Conventionally, a measurement device for knee joint replacement surgery for measuring a load between a distal end of a femur and a proximal end of a tibia caused by tension of a ligament around a knee joint is known. This measuring device for knee joint replacement surgery is used to select an appropriately sized artificial knee joint component or to place an artificial knee joint component at an appropriate position.

  As such a measurement device for knee joint replacement surgery, for example, Patent Document 1 discloses a measurement for knee joint replacement surgery capable of measuring the inclinations of the inner and outer condyle positions of the knee joint and the tension of the entire knee joint. An apparatus is disclosed.

Patent No. 4095919

  By the way, the measurement apparatus for knee joint replacement surgery described in Patent Document 1 is configured to be able to measure the tension acting on the entire knee joint as described above. That is, in the measuring apparatus described in Patent Document 1, excessive tension is applied only to the inner collateral ligament side portion (inner condyle side portion) or outer collateral ligament side portion (external condyle side portion) of the knee joint. Even if it occurs, it cannot be detected.

  The present invention has been made in view of the above circumstances, and its purpose is to replace a knee joint that can measure the tension acting on one of the inner collateral ligament side portion and the outer collateral ligament side portion of the knee joint. It is to provide a measuring device for surgery.

  (1) In order to solve the above-described problem, a knee joint replacement measuring instrument according to a certain aspect of the present invention is a portion on the inner collateral ligament side or a portion on the outer collateral ligament side at the distal end of the femur. A tibial plate disposed between one end and the proximal end of the tibia so that one surface faces the proximal end of the tibia, and a base to which the tibial plate is fixed; Between the main body portion, the other surface of the tibial plate and the one end portion of the distal end of the femur, with one surface facing the one end portion. A femoral-side plate, and a linear slide portion that is slidable with respect to the base so that the femoral-side plate is fixed and the femoral-side plate moves away from the tibial plate. The movable part and the input rotation operation A drive mechanism for converting the slide motion to drive the slide part, a surface facing the proximal end of the tibia in the tibial side plate, and a surface facing the distal end of the femur in the femoral side plate And a scale portion for measuring the distance between them.

  When measuring the tension acting on the knee joint, the measurement device for knee joint replacement surgery is set on the knee joint as follows. Specifically, first, one surface of the tibial plate is disposed so as to abut a proximal end of the tibia or a trial attached to the proximal end of the tibia. And, one side of the femoral side plate is the inner side (inner side collateral ligament side) or the outer side (outer side collateral ligament side) of the distal end of the femur, or the end part It is arranged to face the trial attached to the.

  After the apparatus is set as described above, the rotational operation is input to the drive mechanism, so that the femoral plate moves in a direction away from the tibial plate. Then, the femur-side plate presses the end on the one side at the distal end of the femur or the trial attached to the end toward the side opposite to the tibia.

  At this time, a ligament tension acting on one of the inner side and the outer side of the distal end of the femur is applied between the tibial plate and the femoral side plate. The operator reads the scale of the scale at this time, and measures the load between both plates, so that the inner part or the outer part of the knee joint according to the distance between the femur side and the tibia side The tension acting on the can be measured.

  The load between the tibial side plate and the femoral side plate is displayed when a rotational operation for driving the drive mechanism is performed by a torque measuring instrument such as a direct-reading torque driver or a torque wrench. It can be obtained from the torque value.

  The distal end 61 of the femur 60 is the end of the femur 60 that is far from the trunk (torso), and the proximal end 51 of the tibia 50 is the closer to the trunk of the tibia 50. It is an end.

  (2) Preferably, the drive mechanism is rotatably provided at the base and is rotated and a rack is provided at the slide and converts the rotation of the pinion into the slide. And have.

  According to this configuration, since the rotation operation input to the pinion portion can be reliably transmitted to the rack portion, the slide portion can be reliably slid.

  (3) Preferably, the femoral side plate has a distal end side portion opposed to the one end portion at a distal end of the femur, and a proximal end side portion to which the slide portion is fixed. The thickness of the proximal side portion of the femoral plate is thicker than the thickness of the distal side portion.

  When the tension acting on the knee joint is measured with the knee joint replacement measuring device having the above-described configuration, a relatively large load is applied to the proximal end portion away from the distal end portion that contacts the femoral side portion of the knee joint. It takes.

  On the other hand, the risk that the base end side portion is damaged can be reduced by making the thickness of the base end side portion thicker than the tip end side portion as described above.

  (4) More preferably, the femoral side plate has an inclined portion whose thickness decreases from the proximal end side portion toward the distal end side portion between the proximal end side portion and the distal end side portion. Have.

  According to this configuration, since the thickness of the femoral side plate can be gradually changed in the direction from the proximal end side to the distal end side portion of the femoral side plate, stress concentration occurs in the femoral side plate. It becomes difficult. Therefore, the risk that the femoral plate is damaged can be reduced.

  (5) Preferably, an insertion hole through which the slide portion is inserted is formed in the base portion so that the slide portion can slide.

  According to this configuration, since the slide portion slides with respect to the base in a state where the outer peripheral surface of the slide portion is surrounded by the inner peripheral surface of the insertion hole of the base portion, the slide portion is surely secured along the longitudinal direction of the slide portion. Can guide you.

  (6) Preferably, a movable portion side rib is formed between the slide portion and the femur side plate at a corner portion between the slide portion and the femur side plate, and the base portion And a rib portion between the tibial side plate and the tibial side plate are formed with a main body side rib extending between the base portion and the tibial side plate. A concave portion for accommodating the movable portion side rib is formed in a state where the tibial side plate is overlaid.

  In the measurement apparatus for knee joint replacement surgery having the above configuration, a load is relatively easily applied to the corner portion between the slide portion and the femur side plate and the corner portion between the base portion and the tibial plate.

  On the other hand, as described above, by providing the movable portion side ribs and the main body portion side ribs at these corner portions, the risk of damaging these corner portions can be reduced.

  In addition, according to this configuration, the movable portion side rib is fitted into the main body portion side rib in a state where the femoral side plate and the tibial side plate are overlapped. That is, in the state where the femoral side plate and the tibial side plate are overlapped, the above-mentioned ribs avoid interference with the mating rib or with the plate on which the mating rib is formed. it can.

  Therefore, according to the above configuration, it is possible to increase the load resistance of the femoral side plate and the tibial side plate while avoiding an increase in the distance of the measurable knee joint gap.

  (7) Preferably, each of the measurement devices for knee joint replacement surgery includes a first measurement unit and a second measurement unit each having the main body unit, the movable unit, the drive mechanism, and the scale unit, The tibial side plate and the femur side plate of the first measurement unit are disposed between the one end portion at the distal end of the femur and the proximal end of the tibia, and the second measurement unit The tibial plate and the femoral plate are disposed between the other end of the distal end of the femur and the proximal end of the tibia.

  According to this configuration, the first measuring unit can measure the tension acting on one side (inside or outside) of the knee joint, and the second measuring unit can measure the tension acting on the other side of the knee joint. That is, according to this configuration, the tension acting on the inner portion and the tension acting on the outer portion of the knee joint can be measured separately.

  (8) More preferably, the measurement device for knee joint replacement surgery further includes a connecting member that connects the first measurement unit and the second measurement unit.

  According to this configuration, since the first measurement unit and the second measurement unit can be integrated, the measurement device for the knee joint replacement surgery when measuring the tension acting on each of the inner part and the outer part of the knee joint is provided. Handling becomes easy.

  ADVANTAGE OF THE INVENTION According to this invention, the measuring apparatus for knee joint replacement surgery which can measure the tension | tensile_strength which acts on one of the part by the side of an inner side collateral ligament and the part by the side of an outer side collateral ligament in a knee joint can be provided.

It is a perspective view which shows an example of the usage type of the measuring apparatus for knee joint replacement surgery which concerns on 1st Embodiment. It is a perspective view of the measuring apparatus for knee joint replacement surgery. It is the perspective view of the measuring apparatus for knee joint replacement surgery, Comprising: It is the figure seen from the direction different from FIG. It is a perspective view of a main-body part. It is a front view of the main-body part shown in FIG. It is a side view of the main-body part shown in FIG. It is a figure for demonstrating a ball | bowl stopper mechanism, Comprising: It is AA sectional drawing of FIG. 5 in the state which the slide part of the movable part inserted in the insertion hole of the main-body part. It is a perspective view of a movable part. It is a front view of the movable part shown in FIG. It is a side view of the movable part shown in FIG. It is a perspective view which shows an example of the usage condition of the measuring apparatus for knee joint replacement surgery which concerns on 2nd Embodiment. It is a perspective view of the measuring apparatus for knee joint replacement surgery concerning a 2nd embodiment, and is a figure showing the state where a connecting member was removed.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. The present invention can be widely applied as a measurement apparatus for knee joint replacement surgery for measuring the tension acting on the knee joint.

[First Embodiment]
FIG. 1 is a perspective view showing an example of a usage pattern of the measurement apparatus 1 for knee joint replacement surgery according to the first embodiment. 2 and 3 are perspective views of the measurement apparatus 1 for knee joint replacement surgery according to the first embodiment.

[Constitution]
As shown in FIGS. 2 and 3, the measurement apparatus 1 for knee joint replacement surgery includes a main body portion 10, a movable portion 40, and a drive mechanism 35 for driving the movable portion 40 with respect to the main body portion 10. ing. These are made of a stainless alloy such as SUS630.

  In the following, for convenience of explanation, in FIG. 2, the direction indicated by the arrow indicated as the front is referred to as the front side or the front, the direction indicated by the arrow indicated as the rear is referred to as the rear side or the rear, and The direction indicated by the indicated arrow is referred to as the upper side or the upper direction, the direction indicated by the arrow indicated as the lower is referred to as the lower side or the lower side, the direction indicated by the arrow indicated as the right is referred to as the right side, and left The direction indicated by the indicated arrow is referred to as the left side.

  4 to 6 are a perspective view, a front view, and a side view of the main body 10, respectively. As shown in FIGS. 4 to 6 and the like, the main body 10 includes a base 11, a pinion 15, a ball stopper mechanism 20, and a tibial plate 30.

  The base 11 is a member that is formed in a substantially block shape that is slightly elongated in the vertical direction. The base 11 is formed with an insertion hole 11a penetrating in the longitudinal direction (vertical direction in FIG. 2) having a rectangular cross section perpendicular to the axis. Further, an upper space in which the pinion portion 15 is accommodated is formed in the upper portion of the base portion 11. Further, a lower space in which the ball stopper mechanism 20 is accommodated is formed in a lower portion of the base portion 11.

  Further, as shown in FIGS. 5 and 6 and the like, the base portion 11 is formed with a pair of groove portions 11b. The groove 11b is formed in the center portion in the vertical direction on the front surface and the rear surface of the base 11 so as to extend in the left-right direction.

  The pinion part 15 is accommodated in the upper space inside the base part 11. The pinion part 15 constitutes a drive mechanism 35 together with a rack part 47 described later in detail. That is, the drive mechanism 35 is configured by a so-called rack and pinion.

  As shown in FIGS. 5 and 6 and the like, the pinion portion 15 includes a pinion body 16 composed of a spur gear having a plurality (20 in this embodiment) of tooth portions 16a, and a surface on one side of the pinion body 16. And an operating portion 18 provided on the other surface of the pinion body 16.

  The pinion body 16 is disposed in the base 11 so that the central axis is in the front-rear direction and the tip of the tooth portion 16a is exposed to the insertion hole 11a formed in the base 11. The pinion body 16 is rotatably attached to the base 11 via the shaft portion 17 and the operation portion 18.

  The shaft portion 17 is a round bar member. As shown in FIG. 5, one end of the shaft portion 17 is fixed to the pinion body 16 so that the center axis thereof is coaxial with the center axis of the pinion body 16. On the other hand, the other end portion of the shaft portion 17 protrudes from the base portion 11. A retaining portion 19 for preventing the shaft portion 17 from falling off the base portion 11 is attached to the protruding portion of the shaft portion 17.

  As shown in FIGS. 4 to 6 and the like, the operation unit 18 is formed in a slightly thick disc shape. The operation unit 18 is arranged so that its central axis is coaxial with the central axis of the pinion body 16. The operation unit 18 has a surface on one side fixed to the pinion body 16 and a surface on the other side exposed from the base 11. A hexagonal hole 18a is formed in the exposed surface of the operation unit 18. The tip of a bit of a torque driver (not shown) is fitted into the hexagonal hole 18a.

  FIG. 7 is a view for explaining the ball stopper mechanism 20, and is a cross-sectional view taken along the line AA of FIG. 5 in a state where the slide portion 46 of the movable portion 40 is inserted into the insertion hole 11 a of the main body portion 10. The ball stopper mechanism 20 is for holding the slide portion 46 inserted into the insertion hole 11 a of the base portion 11 with respect to the base portion 11. The ball stopper mechanism 20 includes a pair of expansion / contraction mechanisms 21 and a lever portion 25, as shown in FIGS.

  Each of the pair of expansion / contraction mechanisms 21 includes a spring portion 22 formed of a compression spring and a ball portion 23. The ball portion 23 is provided on one end side (lower side in FIG. 7) of the spring portion 22, and in a state where the slide portion 46 is not inserted into the insertion hole 11a, a part thereof protrudes into the insertion hole 11a. Has been placed. As shown in FIG. 7, each expansion / contraction mechanism 21 is disposed in the base 11 so as to hold the side surface of the slide portion 46 with the two ball portions 23 by the urging force of the spring portion 22.

  The lever portion 25 is for releasing the holding of the slide portion 46 by the pair of extension mechanisms 21. When the lever portion 25 is pressed toward the base portion 11 side, the distal end portion of the lever portion 25 that has entered the base portion 11 resists the urging force of the spring portion 22 and pushes each ball portion 23 of the pair of expansion / contraction mechanisms 21. Press upward (tibia side plate 30 side). As a result, the pair of ball portions 23 move away from each other, and thus the holding of the slide portion 46 by the pair of ball portions 23 is released.

  As shown in FIGS. 2 and 4 to 6, the tibial plate 30 is formed in a substantially plate shape that is integrally formed with the base 11 and fixed to the base 11, extending forward from the upper end of the base 11. Is formed. On the upper surface 31 of the tibial plate 30, a groove 31 a is formed that extends over both ends of the tibial plate 30 in the longitudinal direction. The lower surface 32 of the tibial plate 30 is a flat surface. The tibial plate 30 formed separately from the base 11 may be fixed to the base 11 by welding or the like.

  Further, at the corner portion between the tibial plate 30 and the base portion 11, as shown in FIG. The main body side ribs 33 are bridged between the upper portion of the base portion 11 and the proximal end portion of the tibial plate 30.

  Specifically, as shown in FIG. 5, the main body portion side rib 33 is formed in a substantially right triangle shape in a front view. The portion corresponding to the hypotenuse of the right triangle in the main body side rib 33 is formed so as to extend between the midway portion in the vertical direction in the base portion 11 and the midway portion in the front-rear direction in the tibial plate 30. A portion of the main body side rib 33 corresponding to one adjacent side of the right triangle is disposed so as to extend in the vertical direction along the base 11 and is formed integrally with the base 11. A portion corresponding to the other adjacent side of the right triangle in the main body side rib 33 is disposed so as to extend in the front-rear direction along the tibial plate 30 and is formed integrally with the lower surface 32 of the tibial plate 30. .

  Further, as shown in FIG. 4, a recess 33 a is formed in the main body side rib 33. The recess 33 a is formed so as to be further recessed from the bottom 31 b of the groove 31 a of the tibial plate 30. Specifically, the recess 33a is formed so as to be inclined deeper from the vicinity of the center portion in the front-rear direction of the bottom 31b of the groove 31a toward the base 11 side. A movable portion side rib 49 to be described later is fitted into the recess 33a.

  As shown in FIGS. 8 to 10 and the like, the movable portion 40 includes a femur side plate 41 and a slide portion 46.

  As shown in FIGS. 2, 3, and 8 to 10, the femur side plate 41 is formed in a substantially plate shape that is integrally formed with the slide portion 46 and is fixed to the slide portion 46. Has been. On the lower surface 41a of the femur side plate 41, a ridge portion 42 is formed extending over both ends in the longitudinal direction of the femur side plate. The protruding portion 42 is formed so as to fit into a groove portion 31 a formed in the tibial plate 30 in a state where the femoral plate 41 and the tibial plate 30 overlap each other. The femoral side plate 41 formed separately from the slide portion 46 may be fixed to the slide portion 46 by welding or the like.

  In the femoral side plate 41, a distal end side portion in the longitudinal direction is configured as a distal end side portion 43, and a portion opposite to the distal end side portion 43 is configured as a proximal end side portion 44. Further, the femoral side plate 41 is configured as an inclined portion 45 at a portion between the distal end side portion 43 and the proximal end side portion 44.

  The distal end side portion 43 is formed in a plate shape that is relatively thin in the vertical direction. The distal end side portion 43 is formed so that the width in the left-right direction is slightly wider than the proximal end side portion 44 and the inclined portion 45.

  The proximal end side portion 44 is formed so that the thickness in the vertical direction is larger than that of the distal end side portion 43. A slide portion 46 is integrally formed on the lower surface of the base end side portion 44 so as to extend in the vertical direction.

  As shown in FIGS. 8 and 9, the inclined portion 45 is configured so that the thickness in the vertical direction gradually decreases from the proximal end side portion 44 toward the distal end side portion 43. The inclined portion 45 is gently inclined between the proximal end side portion 44 and the distal end side portion 43 so that the thickness of the femur side plate 41 does not change suddenly from the proximal end side toward the distal end side.

  The slide portion 46 is formed integrally with the femur side plate 41 and is formed in a linear square bar shape extending downward from the lower surface 41 a of the proximal end side portion 44 of the femur side plate 41. The slide portion 46 is formed such that the cross section perpendicular to the axis is a rectangle that is slightly longer in the front-rear direction. The right side surface and the left side surface of the slide portion 46 are configured as flat surfaces. The slide part 46 is inserted into the insertion hole 11a of the base part 11 and accommodated in the base part 11, and slides in the longitudinal direction with respect to the insertion hole 11a.

  A rack portion 47 is formed on the upper portion of the right side surface of the slide portion 46. The rack part 47 and the pinion part 15 constitute a drive mechanism 35. The rack portion 47 includes a plurality of (in the present embodiment, twelve) tooth portions 47a arranged at equal intervals in the vertical direction. The tooth part 47a of the rack part 47 is configured to mesh with the tooth part 16a of the pinion body 16.

  Further, a scale portion 48 is provided on the upper portion of the rear surface of the slide portion 46. The scale portion 48 includes a contact surface with a tibial site (proximal end 51 or trial of the tibia 50) of the tibial plate 30 and a femoral site (condyles 61a, 61b or 61b) of the femoral plate 41. This is for reading the distance between the contact surface and the trial. That is, the scale portion 48 is for reading the distance between the femur side portion and the tibia side portion of the knee joint. In the scale portion 48, numerical values indicating the distance between the femoral side portion and the tibia side portion are described as, for example, 6, 10, 15, 20,... As shown in FIGS. .

  The measurement apparatus 1 for knee joint replacement surgery according to the present embodiment has a surface that contacts a tibial side portion of the tibial plate 30 in a state where the tibial plate 30 and the femoral plate 41 are in contact with each other. The distance between the surface of the femoral side plate 41 and the surface in contact with the part on the femoral side is 6 mm. In other words, the measurement apparatus 1 for knee joint replacement surgery according to this embodiment can measure a gap of 6 mm or more.

  In addition, a movable portion side rib 49 is formed at a corner portion between the femur side plate 41 and the slide portion 46 as shown in FIGS. The movable portion side rib 49 is bridged between the upper portion of the slide portion 46 and the proximal end portion of the femur side plate 41.

  Specifically, as shown in FIG. 9, the movable portion side rib 49 is formed in a substantially right triangle shape in a front view. The portion corresponding to the hypotenuse of the right triangle in the movable portion side rib 49 is formed so as to extend between the midway portion in the vertical direction in the slide portion 46 and the midway portion in the front-rear direction in the femur side plate 41. A portion of the movable portion side rib 49 corresponding to one adjacent side of the right triangle is disposed so as to extend in the vertical direction along the slide portion 46 and is formed integrally with the slide portion 46. A portion corresponding to the other adjacent side of the right triangle in the movable portion side rib 49 is arranged so as to extend in the front-rear direction along the femoral side plate 41, and the top portion of the protruding portion 42 of the femoral side plate 41. It is integrally formed.

[Measuring method]
A procedure for measuring the tension at the knee joint using the measurement apparatus 1 for knee joint replacement surgery according to the present embodiment will be described.

  The surgeon sets the knee joint replacement measuring device 1 at the knee joint of the patient. Specifically, the operator operates the apparatus 1 in a state where the tibial plate 30 and the femoral plate 41 overlap each other, and the lower surface 32 of the tibial plate 30 abuts on the proximal end 51 of the tibia 50 and the thigh It arrange | positions so that the upper surface of the front end side part 43 of the bone side plate 41 may oppose the internal condyle 61a.

  Next, the surgeon inserts the tip of a bit of a torque driver (not shown) into the hexagonal hole 18a of the operation portion 18 of the pinion portion 15, and rotates the torque driver clockwise. Then, the pinion portion 15 rotates in the clockwise direction, and the slide portion 46 in which the rack portion 47 is formed slides in a direction away from the base portion 11. As a result, the femoral side plate 41 moves in a direction away from the tibial side plate 30, and the femoral side plate 41 contacts the internal condyle 61a (see FIG. 1).

  As described above, when the slide part 46 slides upward, the pair of ball parts 23 in the ball stopper mechanism 20 are pressed upward (toward the tibial plate 30 side) and move away from each other. That is, while the slide portion 46 is sliding upward, the holding of the slide portion 46 by the ball stopper mechanism 20 is released.

  Note that the torque driver used in the present embodiment is a so-called direct-reading type torque driver capable of measuring the torque acting on the measurement target (in the present embodiment, the pinion unit 15). Moreover, not only a direct-reading type torque driver but a direct-reading type torque wrench can also be used.

  The operator continues to rotate the torque driver clockwise in the state where the femoral side plate 41 is in contact with the internal condyle 61a as described above. Then, the femoral side plate 41 is subjected to tension acting between the tibia 50 and the internal condyle 61a, specifically, tension due to a ligament (such as a collateral ligament or a cruciate ligament) that connects the tibia 50 and the femur 60. On the contrary, it moves in the direction away from the tibial plate 30. At this time, the tension by the ligament acts between the femoral side plate 41 and the tibial side plate 30. Therefore, by reading the scale of the scale portion 48 at this time and the torque value of the torque driver, the tension acting on the distance between the tibia 50 and the internal condyle 61a and the position of the internal condyle 61a at that distance. Can be measured.

  When the measurement is finished and the slide part 46 is accommodated in the base part 11, the slide part 46 is unlocked by pressing the lever part 25 of the ball stopper mechanism 20 toward the base part 11 side. Thereby, the slide part 46 can be accommodated in the base part 11.

[effect]
As described above, in the measurement apparatus 1 for knee joint replacement surgery according to the first embodiment, the lower surface 32 of the tibial plate 30 abuts on the proximal end 51 of the tibia 50 and the upper surface of the femoral plate 41. Is arranged so as to face the inner condyle 61a. Thereafter, when the surgeon rotates the pinion unit 15 with a torque triber, the femoral side plate 41 moves in a direction away from the tibial side plate 30. Then, the femur side plate 41 presses the inner condyle 61a to the side opposite to the tibia 50.

  At this time, the ligament tension acting on the internal condyle 61a is applied between the tibial plate 30 and the femoral plate 41. By measuring the scale of the scale 48 and the torque value of the torque driver at this time, the tension acting on the inner part of the knee joint according to the distance between the inner condyle 61a and the proximal end 51 of the tibia 50 is measured. it can.

  Further, for example, in cases where cartilage has been lost due to a disease such as knee osteoarthritis and bone deformation has progressed, the tension balance of both collateral ligaments is often greatly disrupted. That is, in such cases, one collateral ligament is often extremely loose and the other collateral ligament is often extremely tight.

  The measurement apparatus for knee joint replacement surgery disclosed in Patent Document 1 can measure tension acting on the entire knee joint (tension acting on both the outer condyle side portion and the inner condyle side portion of the knee joint). It is configured. However, in this case, in order to measure the tension of the loose collateral ligament, the tight collateral ligament on the other side must be stretched more than necessary. This increases the burden on the patient's knee joint.

  On the other hand, in the measuring apparatus 1 for knee joint replacement surgery, since the tension acting on one of the inner part and the outer part of the knee joint can be measured, the collateral ligament tightened as described above is more than necessary. No need to stretch. Thereby, the invasion to a patient can be made small.

  Moreover, in the measurement apparatus 1 for knee joint replacement surgery, an artificial knee joint can be installed by the following procedure. Specifically, the device 1 can push the portion of the knee joint where the tension is loose and keep the appropriate tension, and can insert the artificial knee joint into the portion of the knee joint where the tension is tight. Press to spread. Thereby, the instability of the knee joint caused by excessively spreading the knee joint can be suppressed, and the artificial knee joint can be installed with the burden on the patient's knee kept small.

  Moreover, in the measurement apparatus 1 for knee joint replacement surgery, the drive mechanism 35 is configured by a so-called rack and pinion. Thereby, since the rotation operation input into the pinion part 15 can be reliably transmitted to the rack part 47, the slide part 46 can be reliably slid.

  Moreover, in the measurement apparatus 1 for knee joint replacement surgery, since the thickness of the base end side portion 44 of the femur side plate 41 in the direction in which the slide portion 46 extends is thicker than that of the distal end side portion 43, a relatively large load is likely to be applied. The risk that the base end side portion 44 is damaged can be reduced.

  Moreover, in the measuring apparatus 1 for knee joint replacement surgery, since the inclined portion 45 is provided between the thick proximal end side portion 44 and the thin distal end side portion 43, the thickness of the femoral side plate 41 is increased. The height can be gradually changed in the direction along the distal end side portion 43 from the proximal end side portion 44. As a result, stress concentration is less likely to occur in the femoral side plate 41, and the risk of the femoral side plate 41 being damaged can be reduced.

  Moreover, in the measurement apparatus 1 for knee joint replacement surgery, since the slide part 46 slides with respect to the base part 11 in the state in which the outer peripheral surface of the slide part 46 is surrounded by the inner peripheral surface of the insertion hole 11a of the base part 11, the slide The portion 46 can be reliably guided along the longitudinal direction of the slide portion 46.

  In the measurement apparatus 1 for knee joint replacement surgery, the movable portion side rib 49 is provided at the corner portion between the slide portion 46 and the femur side plate 41, and the main body is provided at the corner portion between the base portion 11 and the tibial side plate 30. The part side ribs 33 are provided respectively. Thereby, since the said corner part to which load is comparatively easy can be reinforced, the risk that the femur side plate 41 and the tibial side plate 30 will be damaged can be reduced.

  Moreover, in the measurement device 1 for knee joint replacement surgery, the movable portion side rib 49 is fitted into the main body portion side rib 33 in a state where the femur side plate 41 and the tibial side plate 30 are overlapped. That is, in a state where the femoral side plate 41 and the tibial side plate 30 are overlapped, the ribs 33 and 49 interfere with the mating ribs 49 and 33, or the mating ribs 49 and 33 are formed. It is possible to avoid interference with the plates 41 and 30 that are present.

  Therefore, in the measurement apparatus 1 for knee joint replacement surgery, it is possible to increase the load resistance of the femoral side plate 41 and the tibial plate 30 while avoiding an increase in the distance of the measurable knee joint gap.

  Further, in the knee joint replacement surgery measuring apparatus 1, the ball stopper mechanism 20 as described above is provided in order to hold the slide part 46 that slides and jumps out of the base part 11 at that position.

  For example, as a configuration for holding the slide portion 46 with respect to the base portion 11, it is conceivable to form a plurality of tooth portions arranged in the vertical direction on the slide portion 46 and to support the lower side of the tooth portions with another member. However, in the case of this configuration, the slide portion 46 can be held only at a stepped position in the longitudinal direction.

  On the other hand, according to the ball stopper mechanism 20, since the both side surfaces of the slide portion 46 formed of a flat surface are held between the two ball portions 23, the slide portion 46 is held in the longitudinal direction. It can be held at a desired position.

[Second Embodiment]
FIG. 11 is a perspective view illustrating an example of a usage pattern of the measurement device 2 for knee joint replacement surgery according to the second embodiment. As shown in FIG. 11, the measurement device 2 for knee joint replacement surgery according to the second embodiment includes a first measurement unit 5 and a second measurement unit 6. Each measurement part 5 and 6 is provided with the main-body part 10 of the measurement apparatus 1 for knee joint replacement surgery which concerns on 1st Embodiment, the movable part 40, the drive mechanism 35, and the scale part 48. FIG. That is, the first measurement unit 5 and the second measurement unit 6 in the second embodiment have the same configuration as the measurement device 1 for knee joint replacement surgery according to the first embodiment.

  The measurement apparatus 2 for knee joint replacement surgery according to the second embodiment includes a connecting member 38. FIG. 12 shows a perspective view of the knee joint replacement measuring device 2 with the connecting member 38 removed. As shown in FIG. 12, the connecting member 38 includes a pair of straight portions 38a arranged so as to extend in parallel with each other, and a connecting portion 38b for connecting one end portions of the pair of straight portions 38a. The pair of linear portions 38a and the connecting portion 38b are integrally formed. The connecting portion 38 is formed such that each of the pair of linear portions 38a is fitted in each of a pair of groove portions 11b formed on the front surface and the rear surface of the base portion 11 of each measurement unit 5 and 6. ing.

  As shown in FIGS. 11 and 12, the first measuring unit 5 and the second measuring unit 6 are configured so that the surfaces facing the condyles 61 a and 61 b of each femur-side plate 41 face in the same direction, and each measuring unit 5 , 6 are arranged so that the extending direction of the groove 11b formed in a straight line.

  The two measuring units 5 and 6 can be fixed to each other by fitting the connecting member 38 to the measuring units 5 and 6 arranged in this way as follows. Specifically, one linear portion 38 a of the connecting member 38 is formed on the groove 11 b formed on one surface (front surface) of the base 11 of the first measurement unit 5 and the base 11 of the second measurement unit 6. It fits in the groove part 11b formed in the one side surface (front side surface). On the other hand, the other straight portion 38 a of the connecting member 38 is a groove portion 11 b formed on the other surface (rear surface) of the base portion 11 of the first measuring portion 5 and the other side of the base portion 11 of the second measuring portion 6. It fits in the groove part 11b formed in the surface (rear surface). Thereby, the 1st measurement part 5 and the 2nd measurement part 6 are fixed with respect to each other by being pinched | interposed and hold | maintained by the connection member 38. FIG.

[Measuring method]
The surgeon sets the knee joint replacement surgery measuring device 2 according to the second embodiment to the patient's knee joint as follows.

  Specifically, the surgeon is in contact with the lower surface 32 of the tibial plate 30 of the first measuring unit 5 against the proximal end 51 of the tibia 50 and the upper surface of the distal side portion 43 of the femoral side plate 41 is one condyle. It arrange | positions so as to oppose (for example, the internal condyle 61a). The lower surface 32 of the tibial plate 30 of the second measuring unit 6 is in contact with the proximal end 51 of the tibia 50, and the upper surface of the distal side portion 43 of the femoral plate 41 is on the other condyle (for example, the external condyle 61b). Arrange to face each other. In addition, the position of the femur side plate 41 with respect to the condyles 61a and 61b can be easily adjusted by sliding the measuring units 5 and 6 in the left-right direction with respect to the connecting member 38.

  The surgeon drives the driving mechanism 35 configured by a rack and pinion using a torque driver to the measuring units 5 and 6 set as described above, as in the first embodiment, and the scale. The scale of the part 48 and the torque value of the torque driver are read. As a result, the first measuring unit 5 can measure the tension applied to the position on the inner side (inner condyle 61a side) in the knee joint, and the second measuring unit can apply the tension applied to the position on the outer side (outer condyle 61b side) in the knee joint. It can be measured.

[effect]
As described above, in the measurement device 2 for knee joint replacement surgery according to the second embodiment, the first measurement unit 5 can measure the tension acting on the position on one side of the knee joint, and the second measurement unit. 6, the tension acting on the position on the other side of the knee joint can be measured. That is, according to this configuration, the tension acting on the inner portion and the tension acting on the outer portion of the knee joint can be measured separately.

  In the measurement device 2 for knee joint replacement surgery, the first measurement unit 5 and the second measurement unit 6 are integrated by a connecting member 38. In this way, when measuring the tension acting on each of the inner part and the outer part of the knee joint, it is not necessary to have the first measurement unit 5 and the second measurement unit 6 separately. The device 2 can be easily handled.

  Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made as long as they are described in the claims of the utility model registration. For example, the following modifications may be made.

[Modification]
(1) In the above-described embodiment, the tension acting between the internal condyle 61a and the tibia 50 is measured, but this is not restrictive. Specifically, according to the measurement apparatus 1 according to the present embodiment, the tension acting between the external condyle 61b and the tibia 50 is measured, or the tension acts between the part where the condyle is excised and the tibia 50. The tension can be measured, or the tension acting between the trial attached to the part where the condyle is excised and the tibia 50 can be measured. Further, it is possible to measure the tension acting between each part on the femur side as described above and the trial attached to the tibia 50. That is, in the measurement apparatus 1 for knee joint replacement surgery according to the present embodiment, it is possible to measure the tension between the femoral side portion and the tibia side portion of the knee joint.

  (2) In the above-described embodiment, the drive mechanism 35 is constituted by a so-called rack and pinion. However, the drive mechanism 35 is not limited thereto, and is constituted by, for example, a bolt portion having a male screw and a nut portion having a female screw. May be. In this case, for example, a bolt portion having a male screw is formed at the lower end portion of the slide portion 46 so as to extend in the vertical direction, and a nut portion formed with a female screw to be screwed into the bolt portion is formed on the lower surface of the base portion 11. What is necessary is just to attach so that rotation is freely possible.

  The present invention can be widely applied as a measurement apparatus for knee joint replacement surgery for measuring the tension acting on the knee joint.

DESCRIPTION OF SYMBOLS 1, 2 Measurement apparatus 10 for knee replacement surgery Main part 11 Base 30 Tibial side plate 31 Upper surface (the other surface)
32 Bottom (one side)
35 Drive mechanism 40 Movable portion 41 Femur side plate 46 Slide portion 48 Scale portion 50 Tibia 51 Proximal end of tibia 60 Femur 61 Distal end of femur 61a Endocondyle (end of one side)
61b External condyle (one end)

Claims (8)

The one side is the proximal end of the tibia between the end on one side, which is the inner collateral ligament side portion or the outer collateral ligament side portion, at the distal end of the femur and the proximal end of the tibia A body portion having a tibial side plate disposed so as to face the base, and a base portion to which the tibial side plate is fixed;
A femoral side plate disposed between the other surface of the tibial plate and the one end portion at the distal end of the femur so that one surface faces the one end portion. A movable portion having a linear slide portion that is slidable with respect to the base so that the femoral side plate is fixed and the femoral side plate moves in a direction away from the tibial plate;
A drive mechanism that converts the input rotation operation into a slide operation of the slide unit and drives the slide unit;
A scale for measuring a distance between a surface of the tibial plate facing the proximal end of the tibia and a surface of the femoral plate facing the distal end of the femur;
A measuring apparatus for knee joint replacement surgery, comprising: The measurement device for knee joint replacement surgery according to claim 1,
The drive mechanism is
A pinion part rotatably provided on the base part and operated to rotate;
A knee joint replacement surgery measuring apparatus, comprising: a rack portion provided on the slide portion and configured to convert a rotation motion of the pinion portion into the slide motion. In the measuring apparatus for knee joint replacement surgery according to claim 1 or 2,
The femoral side plate has a distal end side portion that opposes the one end portion at the distal end of the femur, and a proximal end side portion to which the slide portion is fixed,
The measuring apparatus for knee joint replacement surgery, wherein the thickness of the proximal end side portion of the femoral side plate is thicker than the thickness of the distal end side portion. In the measurement apparatus for knee joint replacement surgery according to claim 3,
The femoral plate has an inclined portion whose thickness decreases from the proximal side portion toward the distal side portion between the proximal side portion and the distal side portion. A measurement device for knee joint replacement surgery. In the measurement apparatus for knee joint replacement surgery according to any one of claims 1 to 4,
A measuring device for knee joint replacement surgery, wherein an insertion hole through which the slide part is inserted is formed in the base part so that the slide part is slidable. The measurement apparatus for knee joint replacement surgery according to any one of claims 1 to 5,
In the corner portion between the slide portion and the femur side plate, a movable portion side rib is formed between the slide portion and the femur side plate,
At the corner portion between the base portion and the tibial side plate, a main body side rib is formed that spans between the base portion and the tibial side plate,
Knee joint replacement surgery characterized in that the main body portion side rib is formed with a recess for accommodating the movable portion side rib in a state where the femoral side plate and the tibial side plate are overlapped. Measuring device. The measurement apparatus for knee joint replacement surgery according to any one of claims 1 to 6,
Each includes a first measurement unit and a second measurement unit having the main body unit, the movable unit, the drive mechanism, and the scale unit,
The tibial side plate and the femoral side plate of the first measurement unit are disposed between the one end at the distal end of the femur and the proximal end of the tibia,
The tibial side plate and the femur side plate of the second measuring unit are disposed between the other end of the distal end of the femur and the proximal end of the tibia. Measuring device for knee joint replacement surgery. The measurement apparatus for knee joint replacement surgery according to claim 7,
The measuring apparatus for knee joint replacement surgery, further comprising a connecting member that connects the first measuring unit and the second measuring unit.

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