Your search keyword '"Lina IA"' showing total 2 results

1. A systematic review of the use of expandable cages in the cervical spine.

Author

Elder BD, Lo SF, Kosztowski TA, Goodwin CR, Lina IA, Locke JE, and Witham TF

Subjects

Humans, Spinal Fusion, Cervical Vertebrae surgery, Diffusion Chambers, Culture, Internal Fixators, Neurosurgical Procedures instrumentation

Abstract

Expandable vertebral body replacement cages (VBRs) have been widely used for reconstruction of the thoracolumbar spine following corpectomy. However, their use in the cervical spine is less common, and currently, no expandable cages on the market are cleared or approved by the US Food and Drug Administration for use in the cervical spine. The objective of this study was to perform a systematic review on the use of expandable cages in the treatment of cervical spine pathology with a focus on fusion rates, deformity correction, complications, and indications. A comprehensive Medline search was performed, and 24 applicable articles were identified and included in this review. The advantages of expandable cages include greater ease of implantation with less risk of damage to the end plate, less intraoperative manipulation of the device, and potentially greater control over lordosis. They may be particularly advantageous in cases with poor bone quality, such as patients with osteoporosis or metastatic tumors that have been radiated. However, there is a potential risk of overdistraction, which is increased in the cervical spine, their minimum height limits their use in cases with collapsed vertebra, and the amount of hardware in the expansion mechanism may limit the surface area available for fusion. The use of expandable VBRs are a valuable tool in the armamentarium for reconstruction of the anterior column of the cervical spine with an acceptable safety profile. Although expandable cervical cages are clearly beneficial in certain clinical situations, widespread use following all corpectomies is not justified due to their significantly greater cost compared to structural bone grafts or non-expandable VBRs, which can be utilized to achieve similar clinical outcomes.

Published

2016

2. Analgesic therapy for major spine surgery.

Author

Puvanesarajah V, Liauw JA, Lo SF, Lina IA, Witham TF, and Gottschalk A

Subjects

Failed Back Surgery Syndrome physiopathology, Humans, Pain Measurement, Pain, Postoperative physiopathology, Analgesia methods, Analgesics therapeutic use, Failed Back Surgery Syndrome drug therapy, Neurosurgical Procedures methods, Pain, Postoperative drug therapy, Spine surgery

Abstract

Pain following spine surgery is often difficult to control and can persist. Reduction of this pain requires a multidisciplinary approach that depends on contributions of both surgeons and anesthesiologists. The spine surgeon's role involves limiting manipulation of structures contributing to pain sensation in the spine, which requires an in-depth understanding of the specific anatomic etiologies of pain originating along the spinal axis. Anesthesiologists, on the other hand, must focus on preemptive, multimodal analgesic treatment regimens. In this review, we first discuss anatomic sources of pain within the spine, before delving into a specific literature-supported pain management protocol intended for use with spinal surgery.

Published

2015