Minimally Invasive Percutaneous Vertebroplasty for Thoracolumbar Instrumented Vertebral Fracture in Patients With Posterior Instrumentation.

BACKGROUND: The traditional treatment for an instrumented vertebral fracture involves removing the loosened pedicle screws and extending the posterior instrumentation cephaladly or caudally. There has been a recent trend of performing minimally invasive fluoroscopy-guided percutaneous vertebroplasty as a salvage procedure. OBJECTIVE: The aim of this study was to compare the outcomes of surgical interventions for instrumented vertebral fracture. STUDY DESIGN: Retrospective assessment. SETTING: All data came from Chang Gung Memorial Hospital, Taiwan. METHODS: We retrospectively reviewed 35 patients with an instrumented vertebral fracture who underwent fluoroscopy-guided percutaneous vertebroplasty (Group I, n = 16) or extension of the posterior instrumentation (Group II, n = 19). Demographic data were recorded. The operating time, amount of intraoperative blood loss, time to postoperative ambulation, and duration of hospital stay were also evaluated. The visual analog scale (VAS) score, kyphotic angle on radiological images, Kirkaldy-Willis functional score, complications, and revision surgery were evaluated at one week and one, 3, 6, and 12 months postoperatively. RESULTS: Group I had a shorter operating time (P < 0.001), less intraoperative blood loss (P < 0.001), earlier postoperative ambulation (P < 0.001), and a shorter hospital stay (P < 0.001). The mean VAS score improved significantly after surgery in both groups (P = 0.001). The postoperative kyphotic angle was better in Group II (P < 0.05). There was no significant between-group difference in the Kirkaldy-Willis functional score at the last follow-up (P = 0.91). There was no significant between-group difference in the need for revision surgery (Group I, n = 4; Group II, n = 5; P = 0.93). LIMITATION: This study is a retrospective cohort. CONCLUSIONS: Minimally invasive fluoroscopy-guided percutaneous vertebroplasty can be used as an alternative to extension of posterior instrumentation for instrumented vertebral fracture. It has several advantages, including a shorter operating time, earlier postoperative ambulation, less blood loss, and a shorter hospital stay. The clinical outcomes of these 2 treatment approaches were similar.

Percutaneous Balloon Kyphoplasty and Short Instrumentation Compared with Traditional Long Instrumentation for Thoracolumbar Metastatic Spinal Cord Compression.

BACKGROUND: A considerable propotion of patients with cancer got thoracolumbar vertebral metastatic epidural spinal cord compression, which affected their quality of life. Traditional surgical management involves early decompression with concomitant spine stabilization with long instrumentation. However, complications are caused by massive blood loss and long operation time. This study aimed to compare the safety and efficacy of short posterior instrumentation with kyphoplasty and the traditional method for thoracolumbar metastatic epidural spinal cord compression. METHODS: Between January 2004 and December 2015, a retrospective study was conducted on 120 patients with metastatic epidural spinal cord compression from T6 to L5 and divided into 2 groups: short posterior instrumentation with the balloon kyphoplasty group (group I, n = 50) and the long posterior instrumentation group (group II, n = 70). The clinical and radiographic parameters of patients in the 2 groups were compared with a nonrandomized cohort method. Patients were followed up from 3 to 40 months after surgery according to survival time. RESULTS: In group I, the surgery had a mean blood loss of 650 mL and a survival time of 19.1 months. In group II, the surgery had a mean blood loss of 2100 mL and a survival time of 14.14 months. A significant difference in blood loss amount (P = 0.002) was observed. Complications, including deep wound infection, durotomy, and uncontrolled bleeding, were observed in both groups. No postoperative cement-induced neurologic deterioration, implant failure occurred. CONCLUSIONS: Kyphoplasty with short posterior instrumentation is a novel technique that can be performed safely and effectively for the treatment of thoracolumbar metastatic epidural spinal cord compression. Rigid stability, reduced blood loss, and short fixation decrease surgical morbidity of spinal metastasis.

A dielectrophoretic chip with a roughened metal surface for on-chip surface-enhanced Raman scattering analysis of bacteria.

We present an analysis of the results of in situ surface-enhanced Raman scattering (SERS) of bacteria using a microfluidic chip capable of continuously sorting and concentrating bacteria via three-dimensional dielectrophoresis (DEP). Microchannels were made by sandwiching DEP microelectrodes between two glass slides. Avoiding the use of a metal nanoparticle suspension, a roughened metal surface is integrated into the DEP-based microfluidic chip for on-chip SERS detection of bacteria. On the upper surface of the slide, a roughened metal shelter was settled in front of the DEP concentrator to enhance Raman scattering. Similarly, an electrode-patterned bottom layer fabricated on a thin cover-slip was used to reduce fluorescence noise from the glass substrate. Gram positive (Staphylococcus aureus) and Gram negative (Pseudomonas aeruginosa) bacteria were effectively distinguished in the SERS spectral data. Staphylococcus aureus (concentration of 10(6) CFUml) was continuously separated and concentrated via DEP out of a sample of blood cells. At a flow rate of 1 mulmin, the bacteria were highly concentrated at the roughened surface and ready for on-chip SERS analysis within 3 min. The SERS data were successfully amplified by one order of magnitude and analyzed within a few minutes, resulting in the detection of signature peaks of the respective bacteria.