OBJECT: The purpose of this study was to evaluate the effectiveness of coralline hydroxyapatite (CHA) and laminectomy-derived bone as an adjuvant graft material when combined with autogenous iliac bone graft (AIBG) in posterolateral fusion (PLF). METHODS: This prospective, case-control study involved 58 patients who underwent lumbar instrumentation-augmented PLF for degenerative spinal stenosis-induced segmental instability between July 2000 and June 2001. The patients were divided into three groups. Laminectomy bone and AIBG were placed in the right intertransverse process space in Group 1 (20 patients), CHA and AIBG were placed in Group 2 (19 patients), and laminectomy bone and CHA were placed in Group 3 (19 patients). Pure autogenous iliac cancellous bone graft was placed in the left intertransverse process space in all three groups of patients. Successful fusion was determined by two spine surgeons after examining the plain, anteroposterior, bilateral oblique, and lateral flexion-extension radiographs. If the examiners did not agree on fusion status, fine-cut computerized tomography scans of the fusion mass were used to make the final decision. The chi-square test was used to compare the fusion rate at different time intervals among the three groups. CONCLUSIONS: Pure AIBG placed in left intertransverse process space was associated with the best fusion rate. After 6 months, CHA produced a comparable result to laminectomy-derived bone when combined with AIBG. When laminectomy bone was mixed with CHA, the combination failed to yield a satisfactory fusion rate (57.9%) even 1 year after surgery if no AIBG was added.
OBJECT: The purpose of this study was to evaluate the effectiveness of coralline hydroxyapatite (CHA) and laminectomy-derived bone as an adjuvant graft material when combined with autogenous iliac bone graft (AIBG) in posterolateral fusion (PLF). METHODS: This prospective, case-control study involved 58 patients who underwent lumbar instrumentation-augmented PLF for degenerative spinal stenosis-induced segmental instability between July 2000 and June 2001. The patients were divided into three groups. Laminectomy bone and AIBG were placed in the right intertransverse process space in Group 1 (20 patients), CHA and AIBG were placed in Group 2 (19 patients), and laminectomy bone and CHA were placed in Group 3 (19 patients). Pure autogenous iliac cancellous bone graft was placed in the left intertransverse process space in all three groups of patients. Successful fusion was determined by two spine surgeons after examining the plain, anteroposterior, bilateral oblique, and lateral flexion-extension radiographs. If the examiners did not agree on fusion status, fine-cut computerized tomography scans of the fusion mass were used to make the final decision. The chi-square test was used to compare the fusion rate at different time intervals among the three groups. CONCLUSIONS: Pure AIBG placed in left intertransverse process space was associated with the best fusion rate. After 6 months, CHA produced a comparable result to laminectomy-derived bone when combined with AIBG. When laminectomy bone was mixed with CHA, the combination failed to yield a satisfactory fusion rate (57.9%) even 1 year after surgery if no AIBG was added.
Authors: Abhijeet Kadam; Paul W Millhouse; Christopher K Kepler; Kris E Radcliff; Michael G Fehlings; Michael E Janssen; Rick C Sasso; James J Benedict; Alexander R Vaccaro Journal: Int J Spine Surg Date: 2016-09-22
Authors: Oluwaseun O Akinduro; Gaetano De Biase; Anshit Goyal; Jenna H Meyer; Sukhwinder J S Sandhu; Roman O Kowalchuk; Daniel M Trifiletti; Jason Sheehan; Kenneth W Merrell; Sujay A Vora; Daniel F Broderick; Michelle J Clarke; Mohamad Bydon; Jamal McClendon; Maziyar A Kalani; Alfredo Quiñones-Hinojosa; Kingsley Abode-Iyamah Journal: J Neurooncol Date: 2022-01-07 Impact factor: 4.130
Authors: Wellington K Hsu; M S Nickoli; J C Wang; J R Lieberman; H S An; S T Yoon; J A Youssef; D S Brodke; C M McCullough Journal: Global Spine J Date: 2012-10-09