Transcutaneous electrical nerve stimulation for the treatment of acute postoperative pain following spine surgery: a scoping review.

OBJECTIVE: Given the ubiquity and severity of postoperative pain following spine surgery, developing adequate pain management modalities is critical. Transcutaneous electrical nerve stimulation (TENS) is a promising noninvasive modality that is well studied for managing postoperative pain following a variety of surgeries, but data on using TENS for pain management in the acute postoperative period of spine surgery are limited. Therefore, this review aimed to recapitulate the existing evidence for the use of TENS in postoperative pain management for spine surgery and explore the potential of this modality moving forward. METHODS: A scoping review was conducted according to 2020 PRISMA guidelines. Two independently operating reviewers then conducted a systematic search of PubMed, Embase, and Scopus databases to identify studies that reported the use of TENS for the treatment of acute postoperative pain following spine surgery. The following data were abstracted from included studies: study type, sample size, demographics, surgery details, comparison group, assessment parameters, timing of postoperative assessment, TENS technical characteristics, relevant findings, length of hospital stay, complications with TENS, and notable limitations. RESULTS: Nine hundred thirty-two publications were screened, resulting in 6 studies included in this review, all of which were prospective clinical trials. The publication dates ranged from 1980 to 2011. Spine surgery types varied; the most common was posterior lumbar interbody fusion. No studies evaluated pain control in cervical- or thoracic-only surgeries. All 6 studies evaluated the level of postoperative pain directly. Five of the 6 studies that directly examined postoperative pain reported lower levels of pharmacological analgesia usage in the TENS groups compared with controls, with 4 of these studies reporting this difference as statistically significant. Length of hospital stay was evaluated in 2 studies, both of which reported decreases in mean length of stay, but these differences were not significant. Notably, every study reported distinct TENS administration parameters while also reporting similar results. CONCLUSIONS: This review concludes that TENS is effective at reducing postoperative pain in spine surgery. Further investigation is needed regarding the optimal settings for TENS administration, as well as efficacy in the thoracic and cervical spine.

Development and validation of an artificial intelligence model to accurately predict spinopelvic parameters.

OBJECTIVE: Achieving appropriate spinopelvic alignment has been shown to be associated with improved clinical symptoms. However, measurement of spinopelvic radiographic parameters is time-intensive and interobserver reliability is a concern. Automated measurement tools have the promise of rapid and consistent measurements, but existing tools are still limited to some degree by manual user-entry requirements. This study presents a novel artificial intelligence (AI) tool called SpinePose that automatically predicts spinopelvic parameters with high accuracy without the need for manual entry. METHODS: SpinePose was trained and validated on 761 sagittal whole-spine radiographs to predict the sagittal vertical axis (SVA), pelvic tilt (PT), pelvic incidence (PI), sacral slope (SS), lumbar lordosis (LL), T1 pelvic angle (T1PA), and L1 pelvic angle (L1PA). A separate test set of 40 radiographs was labeled by four reviewers, including fellowship-trained spine surgeons and a fellowship-trained radiologist with neuroradiology subspecialty certification. Median errors relative to the most senior reviewer were calculated to determine model accuracy on test images. Intraclass correlation coefficients (ICCs) were used to assess interrater reliability. RESULTS: SpinePose exhibited the following median (interquartile range) parameter errors: SVA 2.2 mm (2.3 mm) (p = 0.93), PT 1.3° (1.2°) (p = 0.48), SS 1.7° (2.2°) (p = 0.64), PI 2.2° (2.1°) (p = 0.24), LL 2.6° (4.0°) (p = 0.89), T1PA 1.1° (0.9°) (p = 0.42), and L1PA 1.4° (1.6°) (p = 0.49). Model predictions also exhibited excellent reliability at all parameters (ICC 0.91-1.0). CONCLUSIONS: SpinePose accurately predicted spinopelvic parameters with excellent reliability comparable to that of fellowship-trained spine surgeons and neuroradiologists. Utilization of predictive AI tools in spinal imaging can substantially aid in patient selection and surgical planning.

Virtual Reality-Enabled Resident Education of Lateral-Access Spine Surgery.

OBJECTIVE: Lateral-access spine surgery has many benefits, but adoption has been limited by a steep learning curve. Virtual reality (VR) is gaining popularity and lends itself as a useful tool in enhancing neurosurgical resident education. We thus sought to assess whether VR-based simulation could enhance the training of neurosurgery residents in lateral spine surgery. METHODS: Neurosurgery residents completed a VR-based lateral spine module on lateral patient positioning and performing lateral lumbar interbody fusion using the PrecisionOS VR system on the Meta Quest 2 headset. Simulation occurred 1×/week every other week for a total of 3 simulations over 6 weeks. Pre- and postintervention surveys as well as intrasimulation performance metrics were assessed over time. RESULTS: The majority of resident participants showed improvement in performance scores, including an automated PrecisionOS precision score, number of radiographs used within the simulation, and time to completion. All participants showed improvement in comfort with anatomic landmarks for lateral access surgery, confidence performing lateral surgery without direct supervision, and assessing fluoroscopy in spine surgery for hardware placement and image interpretation. Participant perception on the utility of VR as an educational tool also improved. CONCLUSIONS: VR-based simulation enhanced neurosurgical residents' ability to understand lateral access surgery. Immersive surgical simulation resulted in improved resident confidence with surgical technique and workflow, perceived improvement in anatomical knowledge, and simulation performance scores. Trainee perceptions on virtual simulation and training as a curriculum supplement also improved following completion of VR training.

Bone metastasis from glioblastoma: a systematic review.

INTRODUCTION: Glioblastoma (GBM) is a devastating disease with poor overall survival. Despite the common occurrence of GBM among primary brain tumors, metastatic disease is rare. Our goal was to perform a systematic literature review on GBM with osseous metastases and understand the rate of metastasis to the vertebral column as compared to the remainder of the skeleton, and how this histology would fit into our current paradigm of treatment for bone metastases. METHODS: A Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA)-compliant literature search was performed using the PubMed database from 1952 to 2021. Search terms included "GBM", "glioblastoma", "high-grade glioma", "bone metastasis", and "bone metastases". RESULTS: Of 659 studies initially identified, 67 articles were included in the current review. From these 67 articles, a total of 92 distinct patient case presentations of metastatic glioblastoma to bone were identified. Of these cases, 58 (63%) involved the vertebral column while the remainder involved lesions within the skull, sternum, rib cage, and appendicular skeleton. CONCLUSION: Metastatic dissemination of GBM to bone occurs. While the true incidence is unknown, workup for metastatic disease, especially involving the spinal column, is warranted in symptomatic patients. Lastly, management of patients with GBM vertebral column metastases can follow the International Spine Oncology Consortium two-step multidisciplinary algorithm for the management of spinal metastases.

Pre- and intraoperative thoracic spine localization techniques: a systematic review.

OBJECTIVE: In the era of modern medicine with an armamentarium full of state-of-the art technologies at our disposal, the incidence of wrong-level spinal surgery remains problematic. In particular, the thoracic spine presents a challenge for accurate localization due partly to body habitus, anatomical variations, and radiographic artifact from the ribs and scapula. The present review aims to assess and describe thoracic spine localization techniques. METHODS: The authors performed a literature search using the PubMed database from 1990 to 2020, compliant with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). A total of 27 articles were included in this qualitative review. RESULTS: A number of pre- and intraoperative strategies have been devised and employed to facilitate correct-level localization. Some of the more well-described approaches include fiducial metallic markers (screw or gold), metallic coils, polymethylmethacrylate, methylene blue, marking wire, use of intraoperative neuronavigation, intraoperative localization techniques (including using a needle, temperature probe, fluoroscopy, MRI, and ultrasonography), and skin marking. CONCLUSIONS: While a number of techniques exist to accurately localize lesions in the thoracic spine, each has its advantages and disadvantages. Ultimately, the localization technique deployed by the spine surgeon will be patient-specific but often based on surgeon preference.

Utilization of a Resuscitative Care Unit for Initial Triage, Management, and Disposition of Minor Intracranial Hemorrhage.

Management of minor intracranial hemorrhage typically involves ICU admission. ICU capacity is increasingly strained, resulting in increased emergency department boarding of critically ill patients. Our objectives were to implement a novel protocol using our emergency department-based resuscitative care unit for management of management of minor intracranial hemorrhage patients in the emergency department setting, to provide timely and appropriate critical care, and to decrease inpatient ICU utilization. DESIGN: Retrospective analysis of prospectively collected data. SETTING: Single large academic medical center in the United States. PATIENTS: Adult patients presenting to the emergency department with management of minor intracranial hemorrhage managed via our resuscitative care unit-management of minor intracranial hemorrhage protocol from September 2017 to April 2019. INTERVENTION: Implementation of a resuscitative care unit-management of minor intracranial hemorrhage protocol. MEASUREMENTS AND MAIN RESULTS: Demographic data, need for vasoactive infusions in the emergency department, emergency department and hospital length of stay, emergency department disposition, and 30-day outcomes (readmission, mortality, need for neurosurgical procedure) were collected. Fifty-five patients were identified, with mean age 67.1 ± 20.0 years. Mean Glasgow Coma Scale on presentation was 14.8 ± 0.5, and 66% had a history of trauma. Locations of hemorrhage were subdural (42%), intraparenchymal (35%), subarachnoid (15%), intratumoral (7%), and intraventricular (2%). Nineteen patients (35%) were discharged from the emergency department, 22 (40%) were admitted to general care, and 14 (26%) were admitted to intensive care. In discharged patients, there was no mortality or neurosurgical interventions at 30 days. In a subgroup analysis of 36 patients with a traumatic mechanism, 18 (50%) were able to be discharged from the emergency department after management in the resuscitative care unit. CONCLUSIONS: Initial management of emergency department patients with minor intracranial hemorrhage in a resuscitative care unit appears safe and feasible and was associated with a substantial rate of discharge from the emergency department (35%) and a low rate of admission to an inpatient ICU (26%). Use of this strategy was associated with rapid initiation of ICU-level care, which may help alleviate the challenge of increasing emergency department boarding time of critically ill patients facing many institutions.

Smartphone Use and Interest in a Spine Surgery Recovery Mobile Application Among Patients in a US Academic Neurosurgery Practice.

BACKGROUND: Mobile applications (apps) are serving an increasingly important role in healthcare for patients and providers alike. In addition to streamlining active communication of patient-reported outcomes regarding quality of life, pain, and opioid consumption, smartphones equipped with activity tracking afford the opportunity to passively and objectively measure mobility, a key metric of recovery in spine surgery. However, app development is a resource-intensive process. OBJECTIVE: To survey adult neurosurgery patients regarding access to and interest in this platform. METHODS: In June and July 2017, a paper-based anonymous survey was distributed to patients in the waiting room of the adult neurosurgery clinic of a large US academic medical center. Patients' smartphone use and interest in using a mobile app following spine surgery were the primary and secondary outcomes, respectively. RESULTS: Of 146 included responses, 102 patients (70%) regularly used a smartphone, and this number increased to 77% among patients with a history of spine surgery (n = 66, 45% of respondents). Seventy-one percent of patients with previous spine surgery expressed an interest in using a postoperative monitoring and communication app, compared to 81% of patients without prior spine operations (n = 80, 55%). CONCLUSION: Among neurosurgery patients, there is a high level of access to and interest in smartphone apps to aid postoperative recovery. These results are useful for other neurosurgeons considering mobile app development for this purpose.

Technique for Open Posterior Cervical Foraminotomy: 2-Dimensional Operative Video.

Foraminal stenosis is an important cause of cervical radiculopathy, which can be treated with an anterior or posterior approach, depending on a number of factors. These include the etiology of the foraminal stenosis, individual patient risk factors, and surgeon preference. We provide a step-by-step technique guide for performing an open posterior cervical foraminotomy on a 33-yr-old male with a history of left-sided pain radiating down the medial aspect of his left arm and left triceps weakness. Magnetic resonance imaging demonstrated a left-sided C6-7 disc herniation causing foraminal stenosis. Guidance on positioning, relevant anatomy, and appropriately planning the extent of bony decompression is also provided in this video. The patient, who consented to the recording of this surgical video, tolerated the procedure without complication, and upon follow-up had a significant improvement in his symptoms.

Robotic-Assisted Spinal Surgery: Current Generation Instrumentation and New Applications.

In contrast to other surgical fields, robotics is relatively new to spinal surgery. The initial focus for spinal robotics has been on accurate pedicle screw placement, which early studies have shown to be successful. Beyond pedicle screw placement, however, newer generation spinal robots have the capability of navigation, which can impact other aspects of a spinal procedure. In this study, pedicle screw placement with the recently introduced Excelsius GPS robot (Globus) was similarly found to be accurate in a cohort of patients undergoing both open and minimally invasive fusion. Potential applications of the spinal robot's navigation capability are demonstrated.

Pupillary changes after clinically asymptomatic high-acceleration head impacts in high school football athletes.

OBJECTIVE: Previous studies have shown that clinically asymptomatic high-acceleration head impacts (HHIs) may be associated with neuronal and axonal injury, as measured by advanced imaging and biomarkers. Unfortunately, these methods of measurement are time-consuming, invasive, and costly. A quick noninvasive measurement tool is needed to aid studies of head injury and its biological impact. Quantitative pupillometry is a potential objective, rapid, noninvasive measurement tool that may be used to assess the neurological effects of HHIs. In this study, the authors investigated the effect of HHIs on pupillary metrics, as measured using a pupillometer, in the absence of a diagnosed concussion. METHODS: A prospective observational cohort study involving 18 high school football athletes was performed. These athletes were monitored for both the frequency and magnitude of head impacts that they sustained throughout a playing season by using the Head Impact Telemetry System. An HHI was defined as an impact exceeding 95g linear acceleration and 3760 rad/sec2 rotational acceleration. Pupillary assessments were performed at baseline, midseason, after occurrence of an HHI, and at the end of the season by using the NeurOptics NPi-200 pupillometer. The Sport Concussion Assessment Tool, 5th Edition (SCAT5), was also used at each time point. Comparisons of data obtained at the various time points were calculated using a repeated-measures analysis of variance and a t-test. RESULTS: Seven athletes sustained HHIs without a related diagnosed concussion. Following these HHIs, the athletes demonstrated decreases in pupil dilation velocity (mean difference 0.139 mm/sec; p = 0.048), percent change in pupil diameter (mean difference 3.643%; p = 0.002), and maximum constriction velocity (mean difference 0.744 mm/sec; p = 0.010), compared to measurements obtained at the athletes' own midseason evaluations. No significant changes occurred between the SCAT5 subtest scores calculated at midseason and those after a high impact, although the effect sizes (Cohen's d) on individual components ranged from 0.41 to 0.65. CONCLUSIONS: Measurable changes in pupil response were demonstrated following an HHI. These results suggest that clinically asymptomatic HHIs may affect brain reflex pathways, reflecting a biological injury previously seen when more invasive methods were applied.

Correlation between the Oswestry Disability Index and the 4-item short forms for physical function and pain interference from PROMIS.

OBJECTIVE: The Oswestry Disability Index (ODI) is one of the most commonly used patient-reported outcome instruments, but completion of this 10-question survey can be cumbersome. Tools from the Patient-Reported Outcomes Measurement Information System (PROMIS) are an alternative, and potentially more efficient, means of assessing physical, mental, and social outcomes in spine surgery. Authors of this retrospective study assessed whether scores on the 4-item surveys of function and pain from the PROMIS initiative correlate with those on the ODI in lumbar spine surgery. METHODS: Patients evaluated in the adult neurosurgery spine clinic at a single institution completed the ODI, PROMIS Short Form v2.0 Physical Function 4a (PROMIS PF), and PROMIS Short Form v1.0 Pain Interference 4a (PROMIS PI) at various time points in their care. Score data were retrospectively analyzed using linear regressions with calculation of the Pearson correlation coefficient. RESULTS: Three hundred forty-three sets of surveys (ODI, PROMIS PF, and PROMIS PI) were obtained from patients across initial visits (n = 147), 3-month follow-ups (n = 107), 12-month follow-ups (n = 52), and 24-month follow-ups (n = 37). ODI scores strongly correlated with PROMIS PF t-scores at baseline (r = -0.72, p < 0.0001), 3 months (r = -0.79, p < 0.0001), 12 months (r = -0.85, p < 0.0001), and 24 months (r = -0.89, p < 0.0001). ODI scores also correlated strongly with PROMIS PI t-scores at baseline (r = 0.71, p < 0.0001), at 3 months (r = 0.82, p < 0.0001), at 12 months (r = 0.86, p < 0.0001), and at 24 months (r = 0.88, p < 0.0001). Changes in ODI scores moderately correlated with changes in PROMIS PF t-scores (r = -0.68, p = 0.0003) and changes in PROMIS PI t-scores (r = 0.57, p = 0.0047) at 3 months postoperatively. CONCLUSIONS: A strong correlation was found between the ODI and the 4-item PROMIS PF/PI at isolated time points for patients undergoing lumbar spine surgery. Large cohort studies are needed to determine longitudinal accuracy and precision and to assess possible benefits of time savings and improved rates of survey completion.

Analysis of Outcomes Between Traditional Open versus Mini-Open Approach in Surgical Treatment of Spinal Metastasis.

OBJECTIVE: The treatment of spinal metastasis carries significant surgical morbidity, and decompression and stabilization are often necessary. Less invasive techniques may reduce risks and postoperative pain. This study describes the differences between a mini-open (MO) procedure and a traditional open surgery (OS) for symptomatic spinal metastasis, and reports differences in outcome for similar patients undergoing each procedure. METHODS: We describe a MO technique and retrospective analysis of 20 OS patients who were matched to 20 MO patients by histology, spinal region, and levels instrumented. MO surgery combined a traditional midline exposure for tumor resection with transfascial pedicle screw fixation. Outcome measures included estimated blood loss (EBL), operative time (OT), length of stay (LOS), transfusion rate, complication rate, ASIA Impairment Scale motor score (AMS), and pain scores. Statistical analysis used unpaired t tests and Fisher exact test. RESULTS: Average age of the patients was 58.3 years. Forty-eight percent of patients were women. Average number of levels treated was 5.9. Both groups had similar LOS (P = 0.98), OT (P = 0.30), perioperative complication rates (P = 0.51), transfusion rates (P = 0.33), and AMS (P = 0.17). EBL was found to be significantly lower in the MO group than the open group (805 ± 138 mL vs. 1732 ± 359 mL, respectively; P = 0.019). The MO group had a significant reduction in postoperative pain (-1.71 ± 0.5 vs. 0.33 ± 0.7, P = 0.018). CONCLUSIONS: Although further studies are needed, the MO approach appears to result in decreased blood loss and postoperative pain, without compromising neural element decompression or spinal stability. These findings are consistent with the use of muscle sparing, minimally invasive pedicle screw fixation.

Comparison of Segmental Lordosis and Global Spinopelvic Alignment After Single-Level Lateral Lumbar Interbody Fusion or Transforaminal Lumbar Interbody Fusion.

BACKGROUND: Lateral lumbar interbody fusion (LLIF) has steadily increased in popularity. Compared with the traditional transforaminal lumbar interbody fusion (TLIF), LLIF is thought to allow for greater improvement in lordosis. However, there are limited direct comparison data on the degree of regional and global alignment change after single-level LLIF and TLIF procedures. This study compared the changes in spinal sagittal alignment in patients who underwent either procedure. METHODS: A retrospective analysis of patients who underwent LLIF or TLIF for lumbar degenerative disease at a single institution was performed. Twenty patients who underwent single-level LLIF were matched to 20 patients who underwent single-level TLIF by gender and level of interbody fusion. All included patients had preoperative and postoperative standing scoliosis radiographs. Changes in segmental lordosis (SL) at the fused level, lumbar lordosis (LL), sagittal vertical axis, and pelvic incidence-LL mismatch (PI-LL) were measured. Statistical analysis was performed using paired and unpaired Student's t-tests. Means were reported with standard error. RESULTS: Within each group, 2, 4, and 14 patients had cages placed at L2-3, L3-4, and L4-5, respectively. The LLIF group demonstrated significantly increased SL compared with the TLIF group (+4.9° ± 3.0 vs. +2.6° ± 1.7, P = 0.01). LL, sagittal vertical axis, and PI-LL changes did not differ significantly between groups. CONCLUSIONS: LLIF achieved greater improvements in SL than TLIF. However, regionally and globally, there were no significant differences with either procedure after a single-level intervention. The increased lordosis from LLIF compared with TLIF may be more impactful globally in multilevel fusions.

Thoracolumbar Fusion in Extreme Obesity: Complications and Patient-Reported Outcomes.

BACKGROUND: Extreme obesity (class III) is defined by the Centers for Disease Control as a body mass index (BMI) value ≥40. Recent studies suggest that obese patients have poor outcomes after thoracolumbar spinal fusions. The objective of this study was to analyze 30-day adverse events and patient-reported outcomes (PROs) for this population. PATIENTS AND METHODS: A retrospective chart review of spinal fusion surgeries performed at a single institution from 2006 to 2016 was executed. All patients had a preoperative BMI ≥40. Patient characteristics, including age, sex, BMI, American Society of Anesthesiologists (ASA) score, Charlson Comorbidity Index (CCI), and others, were collected. Thirty-day adverse events (complications, readmissions, reoperations, and mortality) and PROs (Oswestry Disability Index [ODI] and visual analog scale [VAS]) were recorded. RESULTS: Fifty-six patients were identified, including 30 men (54%). Mean age was 55.7 years (range, 31-74 years). Mean BMI was 44.2 (range, 40.0-54.7). Mean ASA was 2.7 (range, 2-3), and mean CCI was 1.1 (range, 0-6). Mean number of fused levels was 2.3 (range, 1-14). Mean length of stay was 4.4 ± 2.1 days. Mean number of complications was 0.7 ± 1.1, with 30.4% of patients having had at least 1 complication. The 30-day all-cause readmission rate was 5.4%, and 30-day reoperation rate was 3.6%. For 30 patients (54%) with 1-year PROs, mean preoperative ODI was 65.2 ± 11.1, and mean preoperative VAS was 6.6 ± 1.6. Mean ODI change was -19.9 ± 20.1 (P < .001), and mean VAS change was -2.6 ± 2.3 (P < .001). A total of 15 patients (50%) achieved the minimum clinically important difference in ODI (12.8), with a mean follow-up of 18.9 months. CONCLUSIONS: Patients with extreme obesity who undergo thoracolumbar fusion have acceptable 30-day adverse events and potentially can achieve significant improvement in pain and disability.

Repair of Thoracic Spinal Cord Herniation: 2-Dimensional Operative Video.

Spinal cord herniation is an uncommon surgically treatable cause of thoracic myelopathy and progressive paraplegia. The thoracic spinal cord focally protrudes through a defect in the dura, resulting in progressive weakness, numbness, and spasticity affecting the lower extremities, in addition to possible urinary symptoms. In this video, we present the case of a 69-yr-old female who presented with 3 yr of progressive thoracic myelopathy due to a thoracic spinal cord herniation at T4-T5. We demonstrate the surgical steps to lyse arachnoid webs, mobilize the spinal cord, reduce the spinal cord herniation, and repair the dural defect. Appropriate patient consent was obtained.

Transthoracic Discectomy for Symptomatic Thoracic Disc Herniation: 2-Dimensional Operative Video.

Thoracic disc herniations are an infrequent occurrence, but can be a cause of significant myelopathy. Diagnosis typically requires a high clinical suspicion that is confirmed with appropriate imaging. Classically, the transthoracic approach for discectomy is the treatment of choice for symptomatic cases. This video concerns a 48-yr-old woman who presented with worsening mid-back pain and progressive gait difficulty. Her examination was significant for proximal lower extremity muscle weakness, difficulty with tandem gait, and urinary incontinence. Imaging demonstrated a large T7-8 disc herniation causing severe spinal cord compression. The patient underwent T7-8 transthoracic discectomy and interbody fusion. She tolerated the procedure well without complication, and postoperative imaging demonstrated decompression of her spinal cord. On follow-up, she had improved mid-back pain, strength, and ambulatory function. The patient consented to the recording of this surgical video for potential publication.

An update on the management of adult traumatic nerve injuries-replacing old paradigms: A review.

Acute nerve injuries are routinely encountered in multisystem trauma patients. Advances in surgical treatment of nerve injuries now mean that good outcomes can be achieved. Despite this, old mantras associated with management of nerve injuries, including "wait a year to see if recovery occurs" and "there's nothing we can do", persist. Practicing by these mantras places these patients at a disadvantage. Changes begin to occur in the nerve, neuromuscular junction, and muscle from the moment a nerve injury occurs. These changes can become irreversible approximately 18 to 24 months following denervation. Thus, it is a race to reestablish a functional nerve-muscle connection before these irreversible changes. Good outcomes rely on appropriate acute management and avoiding delays in care. Primary nerve surgery options include direct primary repair, nerve graft repair, and nerve transfer. Acute management of nerve injuries proceeds according to the rule of 3's and requires early cooperation between trauma surgeons who recognize the nerve injury and consultant nerve surgeons. Care of patients with acute traumatic nerve injuries should not be delayed. Awareness of current management paradigms among trauma surgeons will help facilitate optimal upfront management. With the ever-expanding surgical options for management of these injuries and the associated improvement of outcomes, early multidisciplinary approaches to these injuries have never been more important. Old mantras must be replaced with new paradigms to continue to see improvements in outcomes for these patients. The importance of this review is to raise awareness among trauma surgeons of new paradigms for management of traumatic nerve injuries.

Posterior Cervical Decompression and Instrumented Fusion for Cervical Spondylotic Myelopathy: 2-Dimensional Operative Video.

Cervical spondylotic myelopathy is a common cause of progressive quadriparesis in adults. It is characterized by compression of the cervical spinal cord due to degenerative changes including intervertebral disc protrusion, ligamentum flavum hypertrophy, and osteophyte formation. Clinically, patients can present with declining motor control in the extremities, gait imbalance, spasticity, hyperreflexia, or possibly frank weakness. Surgical treatment options include ventral and dorsal approaches, whose indications vary depending on spinal alignment, number of levels requiring decompression, the dorsal/ventral/circumferential location of compression, and patient-specific anatomic constraints. Posterior cervical decompression and instrumented fusion is a mainstay of treatment for cervical spondylotic myelopathy when a dorsal approach is indicated. In this video, we present a case of a 60-yr-old female who presented with signs and symptoms of cervical myelopathy, with MRI findings of C3 on C4 anterolisthesis and circumferential central stenosis worst at C4-5 and C5-6. We demonstrate the operative steps to complete a C3 to C6 decompression and instrumented fusion with lateral mass screws. Appropriate patient consent was obtained.

Elevated markers of brain injury as a result of clinically asymptomatic high-acceleration head impacts in high-school football athletes.

OBJECTIVEThis prospective observational cohort study of high-school football athletes was performed to determine if high-acceleration head impacts (HHIs) that do not result in clinically diagnosed concussion still lead to increases in serum levels of biomarkers indicating traumatic brain injury (TBI) in asymptomatic athletes and to determine the longitudinal profile of these biomarkers over the course of the football season.METHODSSixteen varsity high-school football athletes underwent baseline neurocognitive testing and blood sampling for the biomarkers tau, ubiquitin C-terminal hydrolase L1 (UCH-L1), neurofilament light protein (NF-L), glial fibrillary acidic protein (GFAP), and spectrin breakdown products (SBDPs). All athletes wore helmet-based accelerometers to measure and record head impact data during all practices and games. At various time points during the season, 6 of these athletes met the criteria for HHI (linear acceleration > 95g and rotational acceleration > 3760 rad/sec2); in these athletes a second blood sample was drawn at the end of the athletic event during which the HHI occurred. Five athletes who did not meet the criteria for HHI underwent repeat blood sampling following the final game of the season. In a separate analysis, all athletes who did not receive a diagnosis of concussion during the season (n = 12) underwent repeat neurocognitive testing and blood sampling after the end of the season.RESULTSTotal tau levels increased 492.6% ± 109.8% from baseline to postsession values in athletes who received an HHI, compared with 164% ± 35% in athletes who did not receive an HHI (p = 0.03). Similarly, UCH-L1 levels increased 738.2% ± 163.3% in athletes following an HHI, compared with 237.7% ± 71.9% in athletes in whom there was no HHI (p = 0.03). At the end of the season, researchers found that tau levels had increased 0.6 ± 0.2 pg/ml (p = 0.003) and UCH-L1 levels had increased 144.3 ± 56 pg/ml (p = 0.002). No significant elevations in serum NF-L, GFAP, or SBDPs were seen between baseline and end-of-athletic event or end-of-season sampling (for all, p > 0.05).CONCLUSIONSIn this pilot study on asymptomatic football athletes, an HHI was associated with increased markers of neuronal (UCH-L1) and axonal (tau) injury when compared with values in control athletes. These same markers were also increased in nonconcussed athletes following the football season.