Is a gradual reduction of stiffness on top of posterior instrumentation possible with a suitable proximal implant? A biomechanical study

Lange T, Schmoelz W, Gosheger G, Eichinger M, Heinrichs CH, Schulze Boevingloh AS, Schulte TL

Zusammenfassung

BACKGROUND CONTEXT: Proximal junctional kyphosis (PJK) is a challenging complication after rigid posterior instrumentation (RI) of the spine. Several risk factors have been described in literature so far, including the rigidity of the cranial aspect of the implant. PURPOSE: The aim of this biomechanical study was to compare different proximal implants designed to gradually reduce the stiffness between the instrumented and non-instrumented spine. STUDY DESIGN/SETTING: This is a biomechanical study. METHODS: Eight calf lumbar spines (L2-L6) underwent RI with a titanium pedicle screw rod construct at L4-L6. The proximal transition segment (L3-L4) was instrumented stepwise with different supplementary implants-spinal bands (SB), cerclage wires (CW), hybrid rods (HR), hinged pedicle screws (HPS), or lamina hooks (LH)-and compared with an all-pedicle screw construct (APS). The flexibility of each segment (L2-L6) was tested with pure moments of +/-10.0 Nm in the native state and for each implant at L3-L4, and the segmental range of motion (ROM) was evaluated. RESULTS: On flexion and extension, the native uninstrumented L3-L4 segment showed a mean ROM of 7.3 degrees . The CW reduced the mean ROM to 42.5{\%}, SB to 41.1{\%}, HR to 13.7{\%}, HPS to 12.3{\%}, LH to 6.8{\%}, and APS to 12.3{\%}. On lateral bending, the native segment L3-L4 showed a mean ROM of 15 degrees . The CW reduced the mean ROM to 58.0{\%}, SB to 78.0{\%}, HR to 6.7{\%}, HPS to 6.7{\%}, LH to 10.0{\%}, and APS to 3.3{\%}. On axial rotation, the uninstrumented L3-L4 segment showed a mean ROM of 2.7 degrees . The CW reduced the mean ROM to 55.6{\%}, SB to 77.8{\%}, HR to 55.6{\%}, HPS to 55.6{\%}, LH to 29.6{\%}, and APS to 37.0{\%}. CONCLUSIONS: Using CW or SB at the proximal transition segment of a long RI reduced rigidity by about 60{\%} in relation to flexion and extension in that segment, whereas the other implants tested had a high degree of rigidity comparable with APS. Clinical randomized controlled trials are needed to elucidate whether this strategy might be effective for preventing PJK.