OBJECTIVE: To evaluate the safety and utility of preoperative vertebroplasty for intraoperative localization of thoracic spinal levels. SUMMARY OF BACKGROUND DATA: Intraoperative fluoroscopy or plain radiographs are traditionally used to localize thoracic spine levels during thoracic spine operations. Unfortunately, such localization can occasionally be difficult in the midthoracic levels due to lack of landmarks, scapular shadows, and the body habitus of the morbidly obese. There are multiple techniques described in the literature that allow for preoperative localization of thoracic spinal levels during approaches to the posterior thoracic spine. For efficient and accurate intraoperative localization of thoracic spinal levels during anterior thoracic spine procedures, we describe a method that uses preoperative percutaneous placement of polymethylmethacrylate (PMMA) into the vertebral body using standard vertebroplasty technique. METHODS: Four patients with morbid obesity and symptomatic thoracic disc herniations underwent preoperative vertebroplasty procedures using standard percutaneous techniques. The PMMA cement was used to expeditiously identify thoracic spinal levels of interest using intraoperative fluoroscopy. RESULTS: All 4 patients underwent successful vertebroplasty procedures without complications. The PMMA cement was easily identified intraoperatively and led to the correct identification of the thoracic spinal levels of interest. CONCLUSIONS: Preoperative placement of PMMA into thoracic vertebral bodies using standard vertebroplasty technique provides a safe, efficient, and reliable method of localizing thoracic spine levels intraoperatively. Such procedures can be performed in the outpatient setting and can be associated with extremely low morbidity when done by experienced practitioners. This procedure should be reserved for patients in whom a surgeon anticipates difficulty using standard radiographs or fluoroscopy to localize thoracic spinal levels intraoperatively.
OBJECTIVE: To evaluate the safety and utility of preoperative vertebroplasty for intraoperative localization of thoracic spinal levels. SUMMARY OF BACKGROUND DATA: Intraoperative fluoroscopy or plain radiographs are traditionally used to localize thoracic spine levels during thoracic spine operations. Unfortunately, such localization can occasionally be difficult in the midthoracic levels due to lack of landmarks, scapular shadows, and the body habitus of the morbidly obese. There are multiple techniques described in the literature that allow for preoperative localization of thoracic spinal levels during approaches to the posterior thoracic spine. For efficient and accurate intraoperative localization of thoracic spinal levels during anterior thoracic spine procedures, we describe a method that uses preoperative percutaneous placement of polymethylmethacrylate (PMMA) into the vertebral body using standard vertebroplasty technique. METHODS: Four patients with morbid obesity and symptomatic thoracic disc herniations underwent preoperative vertebroplasty procedures using standard percutaneous techniques. The PMMA cement was used to expeditiously identify thoracic spinal levels of interest using intraoperative fluoroscopy. RESULTS: All 4 patients underwent successful vertebroplasty procedures without complications. The PMMA cement was easily identified intraoperatively and led to the correct identification of the thoracic spinal levels of interest. CONCLUSIONS: Preoperative placement of PMMA into thoracic vertebral bodies using standard vertebroplasty technique provides a safe, efficient, and reliable method of localizing thoracic spine levels intraoperatively. Such procedures can be performed in the outpatient setting and can be associated with extremely low morbidity when done by experienced practitioners. This procedure should be reserved for patients in whom a surgeon anticipates difficulty using standard radiographs or fluoroscopy to localize thoracic spinal levels intraoperatively.
Authors: Sheng-Fu L Lo; Yoshito Otake; Varun Puvanesarajah; Adam S Wang; Ali Uneri; Tharindu De Silva; Sebastian Vogt; Gerhard Kleinszig; Benjamin D Elder; C Rory Goodwin; Thomas A Kosztowski; Jason A Liauw; Mari Groves; Ali Bydon; Daniel M Sciubba; Timothy F Witham; Jean-Paul Wolinsky; Nafi Aygun; Ziya L Gokaslan; Jeffrey H Siewerdsen Journal: Spine (Phila Pa 1976) Date: 2015-04-15 Impact factor: 3.468
Authors: Y Otake; S Schafer; J W Stayman; W Zbijewski; G Kleinszig; R Graumann; A J Khanna; J H Siewerdsen Journal: Phys Med Biol Date: 2012-08-03 Impact factor: 3.609