Dorsal root ganglion stimulation (DRGS) therapy is a rapidly emerging tool being used by pain physicians in the treatment of chronic pain. Complex regional pain syndrome (CRPS), a debilitating disease whose mechanism is still has yet to be fully elucidated, is a common pathology targeted by DRGS therapy, often better results than traditional spinal cord stimulation. DRGS therapy, however, is not bereft of complications. Lead migration and fracture are two examples in particular that are among the most common of these complications. The authors report an unusual case of lost efficacy due to lead fractures in patients with CRPS treated with DRGS. The case report narrates identification, management and probable mechanism of DRGS lead fracture. The structural instability of DRGS leads can yield distressing symptoms at any point during the therapy, and physicians should be cognisant of the complications of DRGS therapy.
The primary objective of this review is to evaluate whether the degree of processing and the clinical utility of commercially available mineralized bone allografts for spine surgery meet the 2020 US Food and Drug Administration’s (FDA) guideline definitions for minimal manipulation and homologous use, respectively. We also assessed the consistency of performance of these products by examining the comparative postoperative radiographic fusion rates following spine surgery. Based on the FDA’s criteria for determining whether a structural allograft averts regulatory oversight and classification as a drug/device/biologic, mineralized bone allografts were judged to meet the Agency’s definitional descriptions for minimal manipulation and homologous use when complying with the American Association of Tissue Banks’ (AATB) accredited guidelines for bone allograft harvesting, processing, storing and transplanting. Thus, these products do not require FDA medical device clearance. Radiographic fusion rates achieved with mineralized bone allografts were uniformly high (>85%) across three published systematic reviews. Little variation was found in the fusion rates irrespective of anatomical location, allograft geometry, dimensions or indication, and in most cases, the rates were similar to those for autologous bone alone. Continued utilization of mineralized bone allografts should be encouraged across all spine surgery applications where supplemental grafts and/or segmental stability are required to support mechanically solid arthrodeses.
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