Resection of intradural spinal lesions with concomitant instrumented fusion in children: a systematic review and representative cases.

OBJECTIVE: More than one-third of pediatric patients who undergo resection of intradural spine lesions develop progressive postoperative deformity, with as many as half of these patients subsequently requiring surgical fusion. Intradural spinal procedures with simultaneous instrumented fusion in children, however, are infrequently performed. Moreover, the rationale for patient selection, outcomes, and safety of this single-stage surgery in children has not been systematically investigated. In this study, the authors review the practice of simultaneous intradural spinal resection and instrumented fusion in pediatric patients and provide two representative case examples from their institution. METHODS: The authors searched the PubMed and Embase databases and performed a systematic review following the PRISMA protocol. Original articles of pediatric patients (age ≤ 18 years) who underwent intradural spine surgery, regardless of pathology, with concomitant instrumented fusion and reported outcomes were included. An institutional database of all spinal operations with instrumented fusion performed in patients aged ≤ 18 years over a 3-year period was screened to identify those who underwent intradural spine surgery with concomitant fusion. RESULTS: Nine patients (median age 12 years) from 6 studies who underwent intradural lesion resection and concomitant fusion met inclusion criteria. Among all 11 patients included, primary rationales for concomitant fusion were extensive bone removal (i.e., corpectomy or total facetectomy, 73%), concerns for deformity in the setting of multilevel laminectomy/laminoplasty (18%), and severe baseline deformity (9%). The most represented pathology was neurenteric cyst (55%) followed by schwannoma (18%). Myxopapillary ependymoma, granular cell tumor, and pilocytic astrocytoma each were seen in 1 case. Seven patients (64%) underwent an anterior-approach corpectomy, tumor resection, and fusion, while the remaining 4 patients (36%) underwent a posterior approach. All patients with at least 1 year of follow-up cases achieved bony fusion. CSF leak and new-onset neurological deficit each occurred in 9% (1/11). CONCLUSIONS: The rationales for performing single-stage intradural resection and fusion in pediatric patients in studies to date include the presence of severe baseline deformity, large extent of bone resection, and multilevel laminectomy/laminoplasty across cervicothoracic or thoracolumbar junctions. As current literature involving this cohort is limited, more data are needed to determine when concomitant fusion in intradural resections is appropriate in pediatric patients and whether its routine implementation is safe or beneficial.

Cangrelor for neurointerventional procedures: A systematic review.

Thromboembolism is a complication of neurointerventional procedures that requires patients to be placed under antiplatelet therapy. Current options for antiplatelet therapies have a delayed onset of action that prevents a rapid door to puncture transition for patents presenting in acute settings. Cangrelor (Kengreal, Chiesi, USA) is an intravenous P2Y12 platelet inhibitor approved in percutaneous coronary interventions that has an immediate onset of action and half-life between 2 and 6 min. Thus, the goal of this study is to report on the safety, effectiveness, and indications for using Cangrelor in neurointerventional procedures. A systematic review of studies describing the use of Cangrelor in neurointervention was performed using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). The search was conducted on PubMed, Ovid Medline, and Embase databases through June 2023. Seventeen studies with 314 patients met inclusion criteria. The most common indication for Cangrelor use was acute ischemic strokes: 70% followed by aneurysms 27.4%. The Infusion protocol varied from 5 to 30 µg/kg bolus and 1 to 4 µg/kg/min infusion with 30 µg/kg bolus and 4 µg/kg/min infusion being reported in 64.7% of studies. Intra-operative platelet reacting unit levels were below 200 in all the studies that reported it, and the percentage of hemorrhagic, thromboembolic, and deaths occurrence in this patient cohort was respectively 11.1%, 4.8%, and 8.6%. Cangrelor appears to be a promising P2Y12 platelet inhibitor for neurointerventional procedures. However, large, randomized trials are needed to determine the full range of its effects in neurointerventional procedures.

Surgical management of pediatric occipital neuralgia: a single-center experience of an uncommon pathology.

OBJECTIVE: Occipital neuralgia (ON) is a rare headache disorder characterized by sharp pain in the distribution of the greater occipital nerve (GON), lesser occipital nerve, or third occipital nerve. ON is commonly associated with traumatic injury, and effective identification and diagnosis can be difficult given the infrequent presentation and similarities to other pediatric headache disorders. While GON decompression has been well described in adults for refractory pain, there is a paucity of data in the pediatric population, with no previously published series on ON. The primary aim of this study was to identify the characteristics of pediatric patients with ON prior to surgical intervention and to describe the natural history of postoperative outcomes after decompression or neurectomy in a pediatric population. METHODS: A single-center retrospective case series was performed to evaluate factors predisposing children to refractory ON and the surgical efficacy of GON decompression or neurectomy. Six patients (mean age 15.0 ± 2.2 years) were identified for inclusion from October 2021 to October 2022. All patients had refractory ON as diagnosed by a pediatric neurologist. After medical therapy and repeated occipital nerve blocks failed, the patients were referred for GON decompression. Five patients had a history of trauma. RESULTS: Six patients were identified and treated in our cohort, highlighting the infrequency of this pathology. All had at least one occipital nerve block, with 83% receiving varied relief. All underwent bilateral decompression or neurectomy of the GON and experienced relief, reporting improved visual analog scale scores (mean 8.3 ± 0.9 preoperatively to 1.0 ± 2.2 postoperatively, p = 0.0009). The patients were followed for an average of 10 months, and their mean number of medications decreased from 2.7 ± 0.5 preoperatively to 0.8 ± 0.7 postoperatively (p = 0.019). Each patient reported numbness or tingling in the GON distribution postoperatively, which spontaneously resolved over time. Two patients had recurrent pain in a delayed fashion. CONCLUSIONS: GON decompression and neurectomy are efficacious treatments of refractory ON in the pediatric population.

Novel usage of everolimus-eluting coronary stent for intracranial atherosclerotic disease: a technical report and case series.

Objectives: This report describes the use of an Everolimus-eluting stent (Xience Skypoint stent) for the treatment of medically-refractory ICAD. Design: Retrospective, case-series. Setting: In-hospital patients. Participants: All patients in this report had a history of stroke secondary to ICAD. All patients failed aggressive medical treatments and had recurrence of symptoms despite anticoagulation or dual-antiplatelet therapy plus a statin. Diagnostic angiogram in each case showed severe vessel stenosis, therefore patients were recommended for intracranial artery stenting. Main outcome measures: Technical feasibility of deploying Xience Skypoint stent for treatmet of ICAD. Results: The Xience Skypoint stent was safely and effectively deployed in the vertebral artery (x1) and the internal carotid artery (x2) using trans-ulnar (x1), trans-radial (x1), and trans-femoral (x1) approaches without the use of an intermediate catheter. Conclusion: Second-generation EES such as Xience Skypoint may be utilized for treatment of medically-refractory ICAD. This technical report serves as a proof of concept for further studies analysing long-term safety and efficacy of such stents for treatment of ICAD.

Physical Forces in Glioblastoma Migration: A Systematic Review.

The invasive capabilities of glioblastoma (GBM) define the cancer's aggressiveness, treatment resistance, and overall mortality. The tumor microenvironment influences the molecular behavior of cells, both epigenetically and genetically. Current forces being studied include properties of the extracellular matrix (ECM), such as stiffness and "sensing" capabilities. There is currently limited data on the physical forces in GBM-both relating to how they influence their environment and how their environment influences them. This review outlines the advances that have been made in the field. It is our hope that further investigation of the physical forces involved in GBM will highlight new therapeutic options and increase patient survival. A search of the PubMed database was conducted through to 23 March 2022 with the following search terms: (glioblastoma) AND (physical forces OR pressure OR shear forces OR compression OR tension OR torsion) AND (migration OR invasion). Our review yielded 11 external/applied/mechanical forces and 2 tumor microenvironment (TME) forces that affect the ability of GBM to locally migrate and invade. Both external forces and forces within the tumor microenvironment have been implicated in GBM migration, invasion, and treatment resistance. We endorse further research in this area to target the physical forces affecting the migration and invasion of GBM.