Patent ID: 11969361
Assignee: AESCULAP AG
Field: Medical technology (Instruments)
Classification: CPC A | IPC A

Claim 0:
1. An adjustable tibial trial insert, comprising:
an upper plate including an upper articular surface configured for articulation with a femoral surface;
a lower plate positioned below the upper plate along an adjustment axis and including a lower surface configured for tibial fixation; and
an adjustment arrangement arranged between the upper plate and the lower plate and actuatable for adjustment of a gap between the upper plate and the lower plate along the adjustment axis,
the adjustment arrangement comprising at least a first scissor lift mechanism with a first lever arm arrangement and a second scissor lift mechanism with a second lever arm arrangement, the second scissor lift mechanism being separate from the first scissor lift mechanism,
each of the first and second lever arm arrangements being indirectly connected to the upper plate and the lower plate,
each of the first and second lever arm arrangements comprising a length and being pivotally movable between different positions for variation of said length along the adjustment axis to adjust the gap between the upper plate and the lower plate,
the first scissor lift mechanism comprising an actuator element coupled to the first lever arm arrangement and configured such that actuation of the actuator element varies the length of the first lever arm arrangement, and
the adjustment arrangement comprising at least one coupling element coupling the second scissor lift mechanism to the first scissor lift mechanism and configured such that the length of the second lever arm arrangement is varied synchronously to the first lever arm arrangement,
wherein each of the first and second lever arm arrangements comprises a plurality of inner lever arms and a plurality of outer lever arms, wherein the inner lever arms are disposed and pivotally movable in a first plane whose normal vector is oriented perpendicular to the adjustment axis, and wherein the outer lever arms are disposed and pivotally movable in a second plane spaced parallel to the first plane,
wherein each of the plurality of inner lever arms and each of the plurality of outer lever arms comprises four lever arms including two upper lever arms and two lower lever arms positioned below the two upper lever arms along the adjustment axis,
wherein each of the upper lever arms extends from a first end to a second end, said first end being pivotally coupled to the upper plate,
wherein each of the lower lever arms extends from a third end to a fourth end, said third end being pivotally coupled to the lower plate,
wherein each of the first and second scissor lift mechanisms comprises a first coupling block and a second coupling block, each of the first and second coupling blocks being disposed between the first plane and the second plane, wherein the second ends of the upper lever arms are coupled to one of the first coupling blocks, and the fourth ends of the lower lever arms each are pivotally coupled to one of the second coupling blocks, and
wherein the actuator element is threadably connected to the first coupling block and the second coupling block of the first scissor lift mechanism along a transversal axis that is perpendicular to the adjustment axis such that actuation of the actuator element translates the first and second coupling blocks relative to each other to vary the length of the first lever arm arrangement, wherein variation of the length of the first lever arm arrangement is synchronously transmitted to the second lever arm arrangement by the coupling element.