Zhaoyu Ba

Box cages packed with local decompression bone were efficient in anterior cervical discectomy and fusion: five- to 10-year follow-up.

Study Design. A retrospective study. Objective. To assess the radiographical bony union and clinical outcomes of 207 patients who underwent an anterior cervical discectomy and fusion (ACDF) with only local decompression bone for the treatment of cervical disc degeneration. Summary of Background Data. Many sources of bone graft have been used for ACDF. Autologous iliac bone is most likely suitable for biologic bone fusion ability, but there may be many problems such as high donor site morbidity. Allograft and artificial bones are less effective for bone fusion. Use of local decompression bone could be a good solution. Methods. A total of 207 patients (range, 35–80 yr) underwent ACDF, using carbon fiber–reinforced polyetheretherketone cage filled with local decompression bone with anterior cervical plating to treat symptomatic cervical disorders. Computed tomographic scan of the cervical spine was used to assess fusion rates, and Odoms criteria were used to evaluate the clinical outcome. Results. Almost all patients had symptomatic improvement, and 97% of patients (201 of 207) exhibited excellent/good clinical outcomes. All interbody disc spacers with local decompression bone achieved successful fusion, confirmed by radiographs and computed tomographic scans, and no cage subsidence occurred at all levels. Conclusion. As applied in anterior cervical fusion, the local decompression bone embedded into carbon fiber–reinforced polyetheretherketone cages is enough and can achieve successful fusion, poignant clinical outcomes while achieving no donor site morbidity.

MRI study of the position of the conus medullaris in patients with lumbar spinal stenosis.

Substantial data exist from cadaveric and magnetic resonance imaging studies regarding the position of the conus medullaris in normally developed adults. However, no large studies have documented the position of the conus medullaris in patients with diagnosed lumbar spinal stenosis. To goal of the current study was to determine the position of the conus medullaris within a living adult population with existing pathology of lumbar spinal stenosis. In a retrospective study, 234 patients (110 women and 124 men; mean age, 48.8 years) with diagnosed lumbar spinal stenosis had their T2-weighted, midline, sagittal, spin-echo magnetic resonance imaging studies compared to assess and confirm the position of the conus medullaris. A straight line perpendicular to the long axis of the spinal cord in the median sagittal sequence was subtended to the adjacent vertebra or disk space, and the position was defined in relation to the vertebra or disk space. The conus medullaris position was labeled in relation to the upper, middle, and lower segments of the adjacent vertebral body or the adjacent disk space and assigned numerical values from 1 to 12. The position of the conus medullaris in patients with lumbar spinal stenosis followed a normal distribution. The mean conus medullaris position was mainly within the lower third of the L1 vertebral body (ranged from the middle third of T12 to the upper third of L3). No significant differences existed between men and women with lumbar spinal stenosis. The conus medullaris position was found to be unaffected by the pathology of lumbar spinal stenosis.

Percutaneous endoscopical transforaminal approach versus PLF to treat the single-level adjacent segment disease after PLF/PLIF: 1–2 years follow-up

BACKGROUND Adjacent segment disease (ASD) is a common complication after lumbar decompression and fusion surgery. Traditional revision-surgery, including posterior lumbar decompression and posterolateral fusion (PLF) or interbody fusion (PLIF) is traumatic. The percutaneous endoscopic transforaminal procedure (PE-TF) has been widely used in patients with lumbar disc disease. However, there are no reports about using PE-TF procedure to treat ASD in the current literature. OBJECTIVE To compare the clinical outcomes between PE-TF and PLF for single-level ASD after PLF or PLIF. STUDY DESIGN A retrospective study. SETTING Department of Spine Surgery. METHODS There were 64 patients diagnosed with single-level ASD and accepted revision surgery. 33 patients accepted PE-TF (Group A) and 31 underwent PLF (Group B). Oswestry Disability Index (ODI) and Japanese Orthopedic Association (JOA) scores were used to evaluate clinical outcomes. Complications, length of skin incision, hospitalization time and blood loss were investigated according to patient records. RESULTS All symptoms had improved at the final follow-up. The improvement rate was 82.75% in group A and 86.28% in group B. The satisfactory clinical outcomes were similar in both groups with no recurrence in all cases. PE-TF procedure had significant advantages in the following items: traumatization, cosmetology, hospitalization time and blood loss. CONCLUSIONS Clinical outcomes of using PE-TF procedure to treat single-level ASD were similar to those of PLF approach, but PE-TF was less invasive and could shorten hospitalization time.

Ossification of the Posterior Longitudinal and Yellow Ligaments on the Lumbar Spine

Ossification of the posterior longitudinal ligament and ossification of the yellow ligament are the main causes of spinal canal stenosis. This article describes a case of ossification of the posterior longitudinal and yellow ligaments on the lumbar spine. The patient presented with gradually worsening left lower-extremity ache and pain. The deep tendon reflex was hyperreflexia in the lower extremities. Disturbances existed in the blade and bowel. The ossified lesion of ossification of the posterior longitudinal ligament was observed at L5-S1, and plain lateral radiographs and computed tomography revealed ossification of the yellow ligament on L3, which occupied a large part of the spinal canal. Because of the findings on the preoperative radiographs, we performed posterior approach decompression and bone grafting and excisied the ossified lesion. Pedicle screws were inserted from L3 to S1. The patients symptoms disappeared postoperatively, and his Japanese Orthopaedic Association score was 25 two weeks postoperatively. No standard surgical procedure exists for the treatment of lumbar ossification of the posterior longitudinal ligament, but it is important to select a surgical procedure according to individual patient conditions. Many factors, such as local mechanic stress, tissue metabolism, high glucose, and genetics, contribute to the progression of ossification of the posterior longitudinal and yellow ligaments on the lumbar spine. However, the mechanism is unclear. Further study and long-term follow-up on lumbar ossification of the posterior longitudinal ligament is needed.

Nanoporous diopside modulates biocompatibility, degradability and osteogenesis of bioactive scaffolds of gliadin-based composites for new bone formation

Introduction It is predicted that with increased life expectancy in the whole world, there will be a greater demand for synthetic biomedical materials to repair or regenerate lost, injured or diseased tissues. Natural polymers, as biomedical materials, have been widely applied in the field of regenerative medicine. Materials and methods By incorporation of nanoporous diopside bioglass (nDPB) into glia-din (GL) matrix, macro–nanoporous scaffolds of nDPB/GL composites (DGC) were fabricated by method of solution compressing and particles leaching. Results The results revealed that the DGC scaffolds possessed well-interconnected macropores of 200–500 μm and nanopores of 4 nm, and the porosity and degradability of DGC scaffolds remarkably increased with the increase in nDPB content. In addition, in vitro cell experiments revealed that the adhesion and growth of MC3T3-E1 cells on DGC scaffolds were significantly promoted, which depended on nDPB content. Moreover, the results of histological evaluations confirmed that the osteogenic properties and degradability of DGC scaffolds in vivo significantly improved, which were nDPB content dependent. Furthermore, the results of immunohistochemical analysis demonstrated that, with the increase in nDPB content, the type I collagen expression in DGC scaffolds in vivo obviously enhanced, indicating excellent osteogenesis. Discussion and conclusion The results demonstrated that the DGC scaffolds containing 30 wt% nDPB (30nDGC) exhibited good biocompatibility and new bone formation ability, which might have a great potential for applications in bone regeneration.

Does the longus colli have an effect on cervical vertigo?: A retrospective study of 116 patients

Abstract The aim of the study was to evaluate the role of the longus colli muscles in cervical vertigo. We retrospectively analyzed 116 adult patients who underwent anterior cervical discectomy and fusion (ACDF) during 2014 in our department. Patients were assigned to the vertigo group or the nonvertigo group. Demographic data were recorded. Inner distance and cross-sectional area (CSA) of longus colli were measured using coronal magnetic resonance imaging (MRI). The vertigo group (n = 44) and the nonvertigo group (n = 72) were similar in demographic data. Mean preoperative Japanese Orthopaedic Association (JOA) score was higher in the vertigo group than in the nonvertigo group (P = 0.037), but no difference postoperatively. Mean JOA scores increased significantly postoperatively in both groups (P = 0.002 and P = 0.001). The mean vertigo score decreased significantly from pre- to postoperatively in the vertigo group (P = 0.023). The mean preoperative Cobb angle was significantly smaller in the vertigo group than in the nonvertigo group (P <0.001), but no significant difference postoperatively. After ACDF, the mean Cobb angle increased significantly in the vertigo group (P <0.001). The instability rates of C3/4 and C4/5 were significantly higher in the vertigo group (P <0.001 and P <0.001). The inner distance of longus colli was significantly shorter (P = 0.032 and P = 0.026) and CSA significantly smaller (P = 0.041 and P = 0.035), at C3/4 and C4/5 in the vertigo group than in the nonvertigo group. Mean Miyazaki scores were significantly higher in the vertigo group at C3/4 and C4/5 (P = 0.044 and P = 0.037). Moreover, a shorter inner distance and smaller CSA were related to a higher Miyazaki score. Inner distance and cross-sectional area (CSA) of longus colli are associated closely with cervical vertigo. Shorter inner distance and smaller CSA of the longus colli muscles might be risk factors for cervical vertigo. ACDF provided a good resolution of cervical vertigo.