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Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 134 - 134
1 Mar 2009
Eslampour A Goldberg G Hilibrand A Rothman R Parvizi J
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Introduction: Many patients with DJD of the hip may have co-existent spinal arthritis. This prospective study sought to determine: how hip arthritis commonly presents, the incidence of low back pain- as identified by patients- before and after THA and the correlation between LBP and hip arthritis.

Methods: 344 consecutive patients undergoing THA were recruited prospectively at a single institution. A detailed questionnaire containing diagrams on which the patient could draw out the site of their pain was administered to all patients preoperatively and postoperatively. Detailed clinical, radiographic, and cross sectional imaging of all the patients were reviewed in detail by a hip surgeon, a spine surgeon, and a neurologist.

Results: 170 patients (49.4%) had true LBP which resolved in 63 patients (37%). Of the remaining 107 patients the back pain was of the same intensity following THA in 33 patients (30%) and had decreased in 74 (70%) patients. 22 of the 33 patients with continued LBP were known to have spine pathology. 35 patients developed LBP after THA.18 patients in the latter group were investigated further and 12 were found to have severe previously unrecognized spine pathology.

Discussion: Hip and spine arthritis often co-exist. Majority of patients with ‘back’ pain experience a complete resolution of their pain following THA so long as prior spine pathology did not exist. THA seems to be beneficial in reducing the symptoms even for those with a pre-existent LBP and spine pathology. A number of patients may develop LBP following THA that may relate to unidentified spine pathology. Patients with true LBP may benefit form evaluation of their spine prior to THA.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_I | Pages 89 - 89
1 Jan 2004
Vaccaro AR Patel TC Truumees E Fischgrund JS Herkowitz HN Albert T Hilibrand A Phillips F Wetzel T McCulloch J
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Introduction: Posterolateral intertransverse lumbar fusion is a commonly performed procedure for stabilization of the degenerated lumbar spine. A typical clinical scenario for which such fusions are used is the stabilization of a degenerative spondylolisthesis after decompression. In a recent large series reported in the literature, this type of fusion was noted to have a pseudarthrosis rate of up to 45% (Fischgrund, Spine 1997).

Methods: A pilot study was designed to evaluate the safety and efficacy of osteoinductive protein-1 (OP-1, also known as recombinant human BMP-7) in lumbar posterolateral fusion. Thirty-six patients with the diagnosis of symptomatic spinal stenosis and single level degenerative spondylolisthesis in the lower lumbar spine (L3-S1) were enrolled. The patients were randomized to either the OP-1 group or the control group. The OP-1 group received 3.5 mg of OP-1 per side in a putty carrier. The control group received iliac crest autograft alone. Outcomes were measured clinically using the Oswestry score and radiographically using dynamic radiographs evaluated independently by two blinded radiologists using digital calipers. Patients were deemed a clinical success if they showed a > 20% improvement in Oswestry score and were deemed a radiographic success if they showed bridging bone and spinal stability on flexion/ extension films.

Results: At twelve months, 18/21 (85.7%) patients in the OP-1 group and 8/11 (72.7%) patients in the autograft group were considered clinical successes, while 13/18(72.2%) of patients in the OP-1 group and 6/10 (60%) patients in the autograft group were considered radiographic successes. No adverse events related to the use of OP-1 were noted.

Discussion: Despite the non-statistical number of patients enrolled in this pilot study, these preliminary results suggest that OP-1 appears to be a safe and effective replacement for iliac crest autograft in human posterolateral lumbar fusion. The OP-1 group had a higher radiographic fusion rate than the autograft group. This correlated well with the greater clinical success experienced by the OP-1 group, as measured by improvement in the Oswestry score. None of the previously reported device related complications related to the use of BMP’s in animal studies, such as exuberant bone growth with subsequent neural impingement, ectopic ossification, or spinal stenosis, were seen in the treatment group.

Conclusion: OP-1 appears to be a safe and effective replacement for iliac crest autograft in human posterolateral lumbar fusion. The dose, 3.5mg per side, and the carrier, a biodegradable putty, appear to provide a safe and effective means of delivering the bone morphogenetic protein OP-1 to the human lumbar spine.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_III | Pages 284 - 284
1 Mar 2003
Vaccaro A Patel T Truumees E Fischgrund J Herkowitz H Albert T Hilibrand A Phillips F Wetzel T McCulloch J
Full Access

INTRODUCTION: Posterolateral intertransverse lumbar fusion is a commonly performed procedure for stabilisation of the degenerated lumbar spine. A typical clinical scenario for which such fusions are used is the stabilisation of a degenerative spondylolisthesis after decompression. In a recent large series reported in the literature, this type of fusion was noted to have a pseudarthrosis rate of up to 45% (Fischgrund, Spine 1997).

METHODS: A pilot study was designed to evaluate the safety and efficacy of osteoinductive protein-1 (OP-1, also known as recombinant human BMP-7) in lumbar posterolateral fusion. Thirty-six patients with the diagnosis of symptomatic spinal stenosis and single level degenerative spondylolisthesis in the lower lumbar spine (L3–S1) were enrolled. The patients were randomised to either the OP-1 group or the control group. The OP-1 group received 3.5 mg of OP-1 per side in a putty carrier. The control group received iliac crest autograft alone. Outcomes were measured clinically using the Oswestry score and radiographically using dynamic radiographs evaluated independently by two blinded radiologists using digital calipers. Patients were deemed a clinical success if they showed a > 20% improvement in Oswestry score and were deemed a radiographic success if they showed bridging bone and spinal stability on flexion/ extension films.

RESULTS: At twelve months, 18/21 (85.7%) patients in the OP-1 group and 8/11 (72.7%) patients in the autograft group were considered clinical successes, while 13/18 (72.2%) of patients in the OP-1 group and 6/10 (60%) patients in the autograft group were considered radiographic successes. No adverse events related to the use of OP-1 were noted.

DISCUSSION: Despite the non-statistical number of patients enrolled in this pilot study, these preliminary results suggest that OP-1 appears to be a safe and effective replacement for iliac crest autograft in human pos-terolateral lumbar fusion. The OP-1 group had a higher radiographic fusion rate than the autograft group. This correlated well with the greater clinical success experienced by the OP-1 group, as measured by improvement in the Oswestry score. None of the previously reported device related complications related to the use of BMPs in animal studies, such as exuberant bone growth with subsequent neural impingement, ectopic ossification, or spinal stenosis, was seen in the treatment group.

CONCLUSION: OP-1 appears to be a safe and effective replacement for iliac crest autograft in human posterolateral lumbar fusion. The dose, 3.5 mg per side, and the carrier, a biodegradable putty, appear to provide a safe and effective means of delivering the bone morphogenetic protein OP-1 to the human lumbar spine.