Synergistic neuromodulation therapy for persistent spinal pain: a proof-of-concept trial on the use of spinal cord and dorsal root ganglion stimulation.

PURPOSE: Persistent Spinal Pain Syndrome type 2 (PSPS-T2) poses a significant clinical challenge, demanding innovative therapeutic interventions. The integration of Spinal Cord Stimulation (SCS) and Dorsal Root Ganglion Stimulation (DRG-S) is emerging as a potent synergistic strategy for comprehensive pain management. This single patient-blind proof of concept (POC) trial explores the efficacy and synergistic potential of combined SCS and DRG-S in a patient with refractory PSPS-T2. METHODS: A 45-year-old male with intractable PSPS-T2 underwent a unique, methodically structured study, involving three treatment phases: Phase A with SCS alone, Phase B with DRG-S alone, and Phase C The patient, blinded to the treatment modalities, provided pain assessments using the Visual Analogue Scale (VAS) and Douleur Neuropathique 4 Questions (DN4) conducted by clinical investigators at each phase. Baseline pain scores were ten and nine, respectively. RESULTS: Distinct responses were noted across the phases. Phase A demonstrated moderate pain relief, while Phase B offered further pain intensity reduction. However, Phase C, combining both strategies, yielded the most significant improvement, remarkably enhancing the patient's quality of life and functional capacity. CONCLUSION: This POC trial underscores the synergistic potential of SCS and DRG-S in managing complex cases of PSPS-T2, suggesting a paradigm shift towards integrated neuromodulation strategies for enhanced pain control. The development of dual intent implantable pulse generators (IPGs) capable of offering combination therapy simultaneously might be effective for pain management in select cases. The significant pain reduction and functional improvement observed advocate for further research in dual neuromodulation therapies. TRIAL REGISTRATION NUMBER: IRB 20190536.

Inflammatory Biomarkers of Traumatic Brain Injury.

Traumatic brain injury (TBI) has a complex pathology in which the initial injury releases damage associated proteins that exacerbate the neuroinflammatory response during the chronic secondary injury period. One of the major pathological players in the inflammatory response after TBI is the inflammasome. Increased levels of inflammasome proteins during the acute phase after TBI are associated with worse functional outcomes. Previous studies reveal that the level of inflammasome proteins in biological fluids may be used as promising new biomarkers for the determination of TBI functional outcomes. In this study, we provide further evidence that inflammatory cytokines and inflammasome proteins in serum may be used to determine injury severity and predict pathological outcomes. In this study, we analyzed blood serum from TBI patients and respective controls utilizing Simple Plex inflammasome and V-PLEX inflammatory cytokine assays. We performed statistical analyses to determine which proteins were significantly elevated in TBI individuals. The receiver operating characteristics (ROC) were determined to obtain the area under the curve (AUC) to establish the potential fit as a biomarker. Potential biomarkers were then compared to documented patient Glasgow coma scale scores via a correlation matrix and a multivariate linear regression to determine how respective biomarkers are related to the injury severity and pathological outcome. Inflammasome proteins and inflammatory cytokines were elevated after TBI, and the apoptosis-associated speck like protein containing a caspase recruitment domain (ASC), interleukin (IL)-18, tumor necrosis factor (TNF)-α, IL-4 and IL-6 were the most reliable biomarkers. Additionally, levels of these proteins were correlated with known clinical indicators of pathological outcome, such as the Glasgow coma scale (GCS). Our results show that inflammatory cytokines and inflammasome proteins are promising biomarkers for determining pathological outcomes after TBI. Additionally, levels of biomarkers could potentially be utilized to determine a patient's injury severity and subsequent pathological outcome. These findings show that inflammation-associated proteins in the blood are reliable biomarkers of injury severity that can also be used to assess the functional outcomes of TBI patients.

Invited Discussion on: "Complications and Disasters After Minimal Invasive Tissue Augmentation with Different Types of Fillers: A Retrospective Analysis".

LEVEL OF EVIDENCE V: This journal requires that authors assign a level of evidence to each article. For a full description of these Evidence-Based Medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266 .