Over the last two decades there has been a dramatic rise in the rate of instrumented spinal surgery, 1 with a concomitant increase in complications such as surgical site infection (SSI).The rate of SSI after posterior spinal fusion and instrumentation (PSFI) is reported to be between 2% and 4%.
SSI significantly affects the first postoperative year after posterior ASD surgery. It is associated with more complications, unrelated revisions, and worst quality of life. However it's negative impact seems to be diluted by the second postoperative year as differences in HRQoL scores between the two groups decrease. These slides can be retrieved under Electronic Supplementary material.
Higher preoperative GNB colonization rates were found in patients with neurogenic bladder or indwelling catheters. Preoperative bacteriological screening, treatment for bacteriuria, and individualized antibiotic prophylaxis were effective for reducing GNB SSI.
A potential relationship between postoperative urinary tract infection (UTI) and surgical site infection (SSI) following posterior spinal fusion and instrumentation (PSFI) was investigated. A retrospective review was performed of prospectively collected demographic, clinical and microbiological data of 466 consecutive patients (median age, 53.7 years (interquartile range (IQR) 33.8-65.6); 58.6% women) undergoing PSFI to identify those with UTI in the first 4 weeks and SSI in the first 12 weeks after PSFI. Overall, 40.8% had an American Society of Anesthesiologists score of >2, and 49.8% had undergone fusion of more than three segments. Eighty-nine patients had UTI, 54 had SSI, and 22 had both conditions. In nine of the 22 (38%) cases, the two infections were caused by the same microorganism. The urinary tract was the probable source of SSI by Gram-negative bacteria in 38% (8/21) of cases. On multivariate analysis, UTI (OR 3.1, 95% CI 1.6-6.1; P 0.001) and instrumentation of more than three segments (OR 2.7, 95% CI 1.1-6.3; P 0.024) were statistically associated with SSI. Patients receiving ciprofloxacin for UTI had higher microbial resistance rates to fluoroquinolones at SSIs (46.13%) than those without ciprofloxacin (21.9%), although the difference did not reach statistical significance (p 0.1). In our series, UTI was significantly associated with SSI after PSFI. On the basis of our results, we conclude that further efforts to reduce the incidence of postoperative UTI and provide adequate empirical antibiotic therapy that avoids quinolones whenever possible may help to reduce SSI rates and potential microbial resistance.
Study Design. Prospective analysis of example cases Objective. The aim of this study was to analyze the accuracy and repeatability of a new comprehensive classification system for capturing complications data in adult spinal deformity. Summary of Background Data. Complications are common in adult spinal deformity surgery. However, no consensus exists on the definition or classification of complications in adult spinal deformity surgery. The lack of consensus significantly limits understanding of complications’ effects on outcomes in surgery for adult spinal deformity. Methods. Using a Delphi method, members of the International Spine Study Group, AO Spine, and the European Spine Study Group collaborated to develop an adult spinal deformity classification system. The multidomain classification system accounts for medical complications (cancer, cardiopulmonary, central nervous system, gastrointestinal, infectious, musculoskeletal, renal) and surgical complications (implant complications, radiographic complications, neurologic events, intraoperative events, and wound complications). Seventeen individuals (“event readers”), including spine surgeons, trainees, and research coordinators, used the new classification system two separate times to analyze complications in ten example cases. The accuracy and repeatability of the classification system were subsequently calculated based on the providers’ responses for the example cases. Results. The 10 example cases included 22 complications. Nearly 95% of complications were captured by >95% of the event readers. The system demonstrated good repeatability of 86.9% between the first and second set of responses provided by event readers. Conclusion. The ISSG-AO Multi-Domain Spinal Deformity Complication Classification System for Adult Spinal Deformity demonstrated good accuracy and repeatability among both surgeons and research coordinators in capturing complications in adult spinal deformity surgery. The ISSG-AO system may be applied to help better understand the impact of complications on outcomes and costs in adult spinal deformity surgery. Level of Evidence: 5
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