Evaluation and analysis of patient outcomes with an intrasegmental fixation system in lumbar spinal fusion.

BACKGROUND CONTEXT: A new spinal fixation system with polydirectional screws and modular links with interconnecting radial serrations has been developed. The system allows the linking of multiple points of fixation, two points at a time (intrasegmental fixation), thus eliminating the need for intraoperative contouring of rods or plates. PURPOSE: Evaluation of this new type of spine system was done through biomechanical studies, analysis of lumbar lordosis preservation postoperatively, and multicenter review of patient outcomes with a minimum of 1 year follow-up. STUDY DESIGN/SETTING: Biomechanical studies of the spine system were performed according to American Society for Testing and Materials (ASTM) standards. To evaluate the maintenance of lordosis, radiographs from the first 119 patients were reviewed by the authors. Analysis of patient outcomes consisted of a review of the first 259 patients who underwent spinal fusion surgery with the new spine system. PATIENT SAMPLE: Evaluation of patient outcomes consisted of 122 men and 137 women with an average age of 50+/-13 years (range, 22-96 years) and a mean follow-up of 20+/-6 months (range, 12-54 months). The patient population was at high risk for fusion failure, with 127 smokers (49%), 141 who had previous spine surgery (54%), 22 with osteoporosis (8%), 63 were obese (24%), and 32 with diabetes (12%). One hundred two patients (39%) had a one-level fusion, 105 patients (41%) had two levels fused, and 52 patients (20%) had three or more levels fused. The majority of patients (66%) were covered under workers' compensation. OUTCOME MEASURES/METHODS: Radiographic fusion was deemed successful when the presence of trabecular bridging bone from transverse process to transverse process was observed, as well as no fixation failure nor radiographic evidence of screw loosening. Clinical success was rated excellent, good, fair, or poor depending on the patients pain level, function, and pain medication intake. RESULTS: Biomechanical studies of this intrasegmental fixation system have shown it to be strong under both static and fatigue testing, with exceptional strength in compression bending. In evaluating preservation of lumbar lordosis, no statistically significant loss of lordosis was observed. Overall, radiographic fusion was noted in 229 of 259 patients (88%) and did not differ significantly (p>.10) by the number of levels fused. Clinically, 69 patients (27%) had an excellent result, 111 patients (43%) had a good result, 50 patients (19%) had a fair result, and 29 patients (11%) had a poor result. The high rate of successful patient outcomes did not differ significantly (p>.10) by the number of levels fused, or other patient or surgical variables, except for the satisfaction level of workers' compensation versus nonworkers' compensation. One hundred of 118 patients (85%) who were working before surgery returned to work at an average 9+/-4 months postoperatively (range, 2-20 months). The use of direct current (DC) stimulation in this population was reserved for patients with one or more risk factors for fusion failure and was noted to be of benefit. There were no recorded intraoperative complications, but postoperatively 5 device and 19 non-device-related complications (9%) were noted, which is comparable to other lumbar fusion series. CONCLUSIONS: The results of these analyses show consistent patient outcomes regardless of the number of levels fused with an intrasegmental system. This may be attributable to the increased biomechanical strength of the system at each segment, coupled with the ability of intrasegmental fixation to maintain sagittal plane balance through preservation of the patient's lordotic curve.

Diagnosis of occult scaphoid fractures by intrasound vibration.

We investigated a new means of diagnosing occult scaphoid fractures. Eighty-six patients underwent vibratory testing at presentation, while the clinical examination and standard four-view x-ray examination findings were unknown to the persons who performed the vibratory testing of both the injured and uninjured wrists. Thirty-six patients had radiographically confirmed scaphoid fractures and, after their vibratory tests, were eliminated from the study. Fifty patients, 39 men and 11 women, were believed to have scaphoid fractures on the basis of history and clinical examination findings but were included in the occult scaphoid study group because standard four-view x-ray films of the wrists did not reveal a scaphoid fracture. Distinction between the fracture and no-fracture patients was made with a limited two-phase technetium bone scan and delayed x-ray examination. All patients with known scaphoid fractures (36) had positive findings on vibratory examination. Vibratory testing identified all six of the patients with occult scaphoid fractures (sensitivity 100%). Results of two examinations were false-positive, and none were false-negative (specificity 95%). One of the patients with false-positive results had a fracture of the trapezium, and the other had reflex sympathetic dystrophy. The vibratory testing of injured wrists is inexpensive, noninvasive, and easy to perform, and it involves no ionizing radiation.

Excimer ablation of human intervertebral disc at 308 nanometers.

Excimer laser energy, which has been shown to photoablate tissue at a precisely controllable rate with minimal thermal damage, was applied to human intervertebral disc in an effort to develop a technique for percutaneous discectomy. Cadaveric samples of human disc were used. Excimer laser energy was produced by a XeCl, magnetically switched, long-pulse laser working at 308 nm, 20 Hz. Annulus tissue of approximately 1 mm thickness was placed in contact with the output tip of a 400 microns core diameter quartz fiber, and measurements of ablation rate were made at different radiant exposures. Ablation rates were found to vary linearly with radiant exposure, from 0.7 micron/pulse at 10 mJ/mm2 to 11.0 microns/pulse at 55 mJ/mm2, with a correlation coefficient of 0.984. Threshold radiant exposure, calculated by extrapolation, was found to be about 7 mJ/mm2. Histologic analysis showed a minimum of thermal damage in these specimens, and when ablated with modification to maintain constant fiber-tissue contact, thermal injury was nearly absent, as compared to samples ablated with Nd:YAG through a contact probe. Thermographic analysis, performed using the AGA 782 Digital Thermography system, showed increasing temperature with increasing radiant exposure, with a maximum temperature of 47.2 degrees C at 55 mJ/mm2. In that precise tissue ablation was demonstrated with minimal generated heat, and excimer energy at 308 nm is transmissible through fiber optics, excimer holds great promise for the development of a percutaneous discectomy technique.