Thoracoscopic spine surgery for decompression and stabilization of the anterolateral thoracolumbar spine

A Review of Minimally Invasive Techniques in Thoracolumbar Trauma

The development of endoscopy, microscopy, and image guidance system provided the impetus for the adoption of minimally invasive surgery (MIS) techniques in the management of spinal trauma patients. The underlying drive has been an attempt to achieve the functional and biomechanical goals inherent to trauma care but through MIS techniques. Broadly the MIS techniques for spinal trauma can be divided into two categories—fusion and nonfusion methods. Fusion methods include mini-open or keyhole approaches that allow for discectomy and/or corpectomy and cage reconstruction via an anterior/lateral/posterior operative corridor. The nonfusion methods primarily include percutaneous pedicle screw fixation, kyphoplasty, and vertebroplasty, all without placement of bone graft or other attempts at inducing arthrodesis. In this review article, we have stratified the MIS techniques based on the operative corridor used and briefly described the decision-making process, technical nuances, pros, and cons of each technique.

Minimally invasive management of spinal metastases

In most patients who have spinal metastases, treatment is mainly palliative. The conventional surgical methods carry higher risks of complications and postoperative morbidity. Minimally invasive spinal interventions seem to be reasonable alternatives to treat spinal metastatic disease. These procedures can result in less soft tissue trauma, lower blood loss, shorter hospitalization time and are better tolerated by the patients. In this review, the techniques and results of minimally invasive management in spinal metastasis, including percutaneous image-guided interventions (vertebroplasty, kyphoplasty, and radiofrequency ablation) and minimally invasive surgical techniques (endoscopic and minimal access operations), are presented.

Thoracoscopic vertebral body replacement with an expandable cage after ventral spinal canal decompression

OBJECTIVE

Minimally invasive thoracic anterior surgery using a thoracoscopic approach has evolved to include spinal biopsy, debridement, discectomy, decompressive corpectomy, interbody fusions, and internal fixations. Minimal access techniques can potentially decrease surgical access morbidity and also reduce the time required for recovery and healing. The thoracoscopic approach for decompression, stabilization, and anterior vertebral reconstruction of thoracolumbar fractures is described.

METHODS

In this article and video, we discuss patient selection, surgical positioning, port placement, thoracic level localization, exposure and removal of fractured vertebral bodies, anterior vertebral column reconstruction using an expandable cage, instrumentation, and postoperative management.

RESULTS

The potential advantages of using a minimally invasive thoracoscopic approach include direct trajectory to anterior spine pathology, minimal tissue and rib retraction, and decreased postoperative pain and length of hospital stay. The associated disadvantages include the steep learning curve for the surgeon, the need to operate with two-dimensional visual information and long instruments, and the requirement that one have an experienced surgical assistant.

CONCLUSION

Minimally invasive surgery using a thoracoscopic approach for vertebral body replacement with an expandable cage can be performed safely. Expandable cages facilitate the vertebral body reconstruction via minimal access surgery.

Video-assisted thoracoscopic anterior surgery for tuberculous spondylitis

In the absence of major deformity, the major goal of surgery in tuberculous spondylitis is to achieve adequate cord decompression and débridement of diseased tissue. We asked whether video-assisted thoracoscopic surgery (VATS) could be undertaken in active tuberculosis of the spine with instrumentation and achieve good healing of the disease with fusion and with adequate decompression of the cord to achieve neural recovery. We retrospectively reviewed 23 patients (13 men and 10 women with an average age of 38.2 years) with single-level thoracic spinal tuberculosis (T4-T11) treated with VATS. Of the 23 patients, 18 had paraparesis/paraplegia. The procedures included: (1) débridement and drainage of prevertebral and paravertebral abscess (n = 4); (2) débridement, decompression, and reconstruction with rib graft (n = 8); (3) débridement, decompression, anterior vertical titanium mesh cage, and open posterior screw-rod fixation (n = 5); and (4) débridement, decompression, and anterior screw-rod fixation (n = 6). Twenty-two of 23 patients achieved fusion and there was no recurrence of the disease in any of the patients. No patient had neurological deterioration and 17 of the 18 neurologically compromised patients regained ambulatory power. Small scars (for surgical portals), early mobilization, and short hospital stays were the salient advantages.