Autologous iliac crest bone graft is the preferred option for spinal fusion, but the morbidity associated with bone harvest and the need for graft augmentation in more demanding cases necessitates combining local bone with bone substitutes. The purpose of this study was to document the clinical effectiveness and safety of a novel hybrid biosynthetic scaffold material consisting of poly(D,L-lactide-co-glycolide) (PLGA, 75:25) combined by lyophilization with unmodified high molecular weight hyaluronic acid (10-12% wt:wt) as an extender for a broad range of spinal fusion procedures. We retrospectively evaluated all patients undergoing single-and multi-level posterior lumbar interbody fusion at an academic medical center over a 3-year period. A total of 108 patients underwent 109 procedures (245 individual vertebral levels). Patient-related outcomes included pain measured on a Visual Analog Scale. Radiographic outcomes were assessed at 6 weeks, 3-6 months, and 1 year postoperatively. Radiographic fusion or progression of fusion was documented in 221 of 236 index levels (93.6%) at a mean (±SD) time to fusion of 10.2+4.1 months. Single and multilevel fusions were not associated with significantly different success rates. Mean pain scores (+SD) for all patients improved from 6.8+2.5 at baseline to 3.6+2.9 at approximately 12 months. Improvements in VAS were greatest in patients undergoing one-or two-level fusion, with patients undergoing multi-level fusion demonstrating lesser but still statistically significant improvements. Overall, stable fusion was observed in 64.8% of vertebral levels; partial fusion was demonstrated in 28.8% of vertebral levels. Only 15 of 236 levels (6.4%) were non-fused at final follow-up.
Autologous iliac crest bone graft is the preferred option for spinal fusion, but the morbidity associated with bone harvest and the need for graft augmentation in more demanding cases necessitates combining local bone with bone substitutes. The purpose of this study was to document the clinical effectiveness and safety of a novel hybrid biosynthetic scaffold material consisting of poly(D,L-lactide-co-glycolide) (PLGA, 75:25) combined by lyophilization with unmodified high molecular weight hyaluronic acid (10-12% wt:wt) as an extender for a broad range of spinal fusion procedures. We retrospectively evaluated all patients undergoing single- and multi-level posterior lumbar interbody fusion at an academic medical center over a 3-year period. A total of 108 patients underwent 109 procedures (245 individual vertebral levels). Patient-related outcomes included pain measured on a Visual Analog Scale. Radiographic outcomes were assessed at 6 weeks, 3-6 months, and 1 year postoperatively. Radiographic fusion or progression of fusion was documented in 221 of 236 index levels (93.6%) at a mean (±SD) time to fusion of 10.2+4.1 months. Single and multi-level fusions were not associated with significantly different success rates. Mean pain scores (+SD) for all patients improved from 6.8+2.5 at baseline to 3.6+2.9 at approximately 12 months. Improvements in VAS were greatest in patients undergoing one- or two-level fusion, with patients undergoing multi-level fusion demonstrating lesser but still statistically significant improvements. Overall, stable fusion was observed in 64.8% of vertebral levels; partial fusion was demonstrated in 28.8% of vertebral levels. Only 15 of 236 levels (6.4%) were non-fused at final follow-up
The COVID-19 pandemic forced a redesign of clinical research to adapt to an ever-changing situation while minimizing patient and provider risks and preserving scientific discovery. During the initial surge of COVID-19, elective healthcare services and non-critical research operations were halted. These changes inspired dispersed health care operations and streamlined clinical research. The first wave of COVID-19 hit Detroit, Michigan, in March 2020, consuming Henry Ford Health (HFH), in COVID-19 emergency care. HFH has a clinically integrated liquid biopsy (LB) program where enrolled patients provide an LB sample via venipuncture within 7 days of each MRI, typically in the clinic at the point-of-care. Prior to COVID-19, 183 neuro-oncology patients were actively providing LB samples in clinic with a mean of 29.9 specimens monthly. Institutional COVID-19 restrictions on non-critical interactions resulted in months were nearly all outpatient encounters utilized telemedicine and decentralized testing off-site from research operations. This halted LB procurement to 4.55 specimens monthly during early pandemic months. To reduce patient-provider exposure, LB specimens were then procured with the venipuncture for MRI which streamlined LB operations and improved the patient experience. After this change, LB specimen procurement returned to near pre-pandemic levels with a mean of 28.1 monthly specimens, despite a significant population utilizing video visits and imaging at satellite or non-HFH centers. The pandemic forced adaptations to patient encounters that have changed how healthcare is delivered, resulting in parallel changes in research that must be considered in the design of future studies.
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