Numerous improvements in minimally invasive spine surgery (MISS) have been made during the past decade. Classic treatment methods have reserved surgical intervention for trauma patients with neurological compromises or instability. When used in thoracolumbar spine trauma management, MISS should achieve the similar results as classic treatment with less morbidity.(1) In the past decade, minimally invasive surgical (MIS) techniques for spine surgery have been increasingly used. The goal of minimally invasive surgery is to decrease surgical morbidity through decreased soft-tissue dissection providing similar structural stability as classic techniques. An increasing number of studies is reporting good clinical and radiographic outcomes with MIS techniques. However, the literature is lacking high-quality evidence comparing these newer techniques to classic treatments. In the future, development of techniques can expand the indications and treatment possibilities in spine trauma treatment. We reviewed the current literatures to clarify the indications of minimally invasive techniques with spinal trauma.

Although metastatic lung adenocarcinoma in the spinal cord is rare, it can be diagnosed by positron emission tomography and computed tomography (PET/CT) scan with high sensitivity during the early disease stage. A clinical and radiographic review was performed to present a rare case of an intradural intramedullary adenocarcinoma metastasis in the spinal cord with a negative PET/CT scan. A 75-year-old man with a diagnosis of lung cancer without metastasis confirmed by a negative PET/CT scan with no spinal symtoms (conducted 6 weeks previously) presented with progressive paralysis of both lower extremities and accompanying bowel and bladder symptoms. He underwent radical lobectomy of left lung under diagnosis of lung cancer without distant metastasis 6 weeks ago. Emergent MRI was performed, and MRI revealed a large intradural intramedullary mass compressing the spinal cord and extending from T12 to L1 with anterior compression of the spinal cord. Surgical decompression and tumor resection from T12 to L1 by lumbar laminectomy and durotomy were performed under a microscope. And, a diagnosis of adenocarcinoma to the spinal cord was made based on histopathologic findings. Postoperatively, the patient’s neurologic status was not significantly improved. Despite a negative PET/CT scan finding with no neurologic symptoms or pain, surgeons should not exclude the possibility of a spinal metastatic lesion with lung cancer.

Objectives
To evaluate the effectiveness of a prototype plate and cage device (PCB) in cervical spine disease.
Summary of Background
Data: Several Cage-Screw implants have recently been developed to avoid cervical platerelated complications.
Methods
A total of 34 patients with cervical disc protrusion who underwent PCB implantation between 2004 and 2007 were included in the study. There were 22 males and 12 females with a mean age of 49.9 years (range: 30 to 62 years). Odom’s Criteria were evaluated in all patients for a minimum follow-up period of 1 year (mean 24.6 months). Radiographic evaluation was performed to assess the status of fusion, intervertebral disc height, cervical lordosis and segmental kyphosis.
Results
In general, there were 20 excellent cases, 10 good cases and 4 fair cases according to Odom’s Criteria. In terms of radiological results, the height of intervertebral disc space was measured three different times, as follows: pre-operation, mean 6.07 mm; post-operation, mean 9.52 mm; last follow-up, mean 8.74 mm. No patients showed segmental instability on flexion-extension view at the last follow-up appointment. There were no cases of screw back out or device failure and no donor site morbidity.
Conclusion
PCB implant for degenerative cervical disease may restore intervertebral disc space and lordotic angle of the cervical spine without significant complications.