Autor: |
Singh, Hardeep, Kukowski, Nathan R., Lunati, Matthew P., Dawes, Alexander, Kim, Chi Heon, Kim, Sungkyu, Rhee, John M. |
Předmět: |
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Zdroj: |
Global Spine Journal; Apr2024, Vol. 14 Issue 3, p878-888, 11p |
Abstrakt: |
Study-Design: Retrospective chart review. Objectives: Investigate radiographic and clinical outcomes of 3D printed titanium cages (3DTC) vs allograft in patients undergoing Anterior cervical discectomy and fusion (ACDF). Methods: Consecutive series of patients undergoing ACDF with 3DTC were compared to patients using corticocancellous allograft. Cage subsidence, fusion status, sagittal alignment, and patient-reported-outcomes. Radiographic evaluation was performed on the closing intraoperative x-ray and compared to films at 6-weeks, 6-months, and 1-year. Cage subsidence was calculated based on the amount of settling into superior and inferior endplates compared to the intraoperative x-ray. Fusion was assessed based on < 1 mm of flexion/extension motion. Sagittal alignment parameters and patient-reported-outcomes were measured. Results: Seventy six-patients/(120 levels) in 3DTC group and 77-patients/(115 levels) in allograft group were evaluated. No significant differences were noted in patient demographics, level fused or the number of levels fused between the groups. The most common level fused was C5-6. 3DTC had a significantly lower subsidence rate at all-time points as compared to allograft (P <.001). 3DTC maintained segmental lordosis better than allograft at all-time points including 1-year postop (P <.001). No significant differences were noted in fusion rate for 3DTC vs allograft at 6-months (P >.05). There were no significant differences in patient-reported-outcomes. Conclusion: 3D printed titanium cages had similar patient-reported outcomes and fusion rates as allograft, but less subsidence at all-time points. 3D printed titanium cages better maintained the segmental lordosis at the operative level at all-time points. Although longer term evaluation is needed, based on these results, 3DTC appear to be viable graft options for ACDF that better maintain disc space height and improve segmental lordotic interbody correction. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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