Minimally invasive surgery for intradural extramedullary spinal cord pathologies: A case series and technical note.

BACKGROUND: Intradural spinal cord pathologies have traditionally been managed with open surgical procedures and require the completion of a durotomy. Minimally invasive techniques are emerging as alternative procedures with the goal of reducing complications, but often require specialized equipment with additional training. METHODS: We conduct a single institution retrospective review from 2016 to 2019 of patients undergoing minimally invasive durotomy closure for intradural extramedullary pathologies using a novel technique that utilizes standard operating room equipment. This cohort is compared to a cohort of patients treated with a traditional open approach. RESULTS: Patients treated with minimally invasive surgery (MIS) had no statistically significant differences in baseline characteristics compared to patients treated with open procedures. Patients treated with MIS had decreases in complication rates, estimated blood loss, and length of stay in the hospital compared to the patients treated with open procedures, but these differences did not reach levels of statistical significance. CONCLUSIONS: Our novel MIS technique for intradural extramedullary pathologies appears to be safe and effective in creating a watertight dural closure using standard operating room equipment, while avoiding the costs and training associated with specialized equipment and possibly improving surgical outcome measures when compared to open approaches.

Magnetic resonance imaging evaluation of spinal cord lesions: what can we find? - Part 2. Inflammatory and infectious injuries.

Diseases involving the spinal cord include a heterogeneous group of abnormalities, including those of inflammatory, infectious, neoplastic, vascular, metabolic, and traumatic origin. Making the clinical differentiation between different entities is often difficult, magnetic resonance imaging being the diagnostic method of choice. Although the neuroimaging findings are not pathognomonic, many are quite suggestive, and the radiologist can assist in the diagnosis and, consequently, in the therapeutic guidance. In this second part of our article, the objective is to review the magnetic resonance imaging findings of the main inflammatory and infectious spinal cord injuries.

As doenças que envolvem a medula espinal incluem um grupo heterogêneo de anomalias, englobando causas inflamatórias, infecciosas, neoplásicas, vasculares, metabólicas e traumáticas. Muitas vezes a diferenciação clínica entre as diversas entidades é difícil, sendo a ressonância magnética a modalidade de escolha na investigação diagnóstica. Apesar de os achados de neuroimagem não serem patognomônicos, muitos são bastante sugestivos, podendo o radiologista auxiliar no diagnóstico e, consequentemente, na orientação terapêutica. O objetivo desta segunda parte do artigo é revisar os achados de ressonância magnética das principais lesões medulares inflamatórias e infecciosas.

Magnetic resonance imaging evaluation of spinal cord lesions: what can we find? - Part 2. Inflammatory and infectious injuries / Avaliação por ressonância magnética das lesões intramedulares: o que podemos encontrar? - Parte 2. Lesões inflamatórias e infecciosas

Abstract Diseases involving the spinal cord include a heterogeneous group of abnormalities, including those of inflammatory, infectious, neoplastic, vascular, metabolic, and traumatic origin. Making the clinical differentiation between different entities is often difficult, magnetic resonance imaging being the diagnostic method of choice. Although the neuroimaging findings are not pathognomonic, many are quite suggestive, and the radiologist can assist in the diagnosis and, consequently, in the therapeutic guidance. In this second part of our article, the objective is to review the magnetic resonance imaging findings of the main inflammatory and infectious spinal cord injuries.

Resumo As doenças que envolvem a medula espinal incluem um grupo heterogêneo de anomalias, englobando causas inflamatórias, infecciosas, neoplásicas, vasculares, metabólicas e traumáticas. Muitas vezes a diferenciação clínica entre as diversas entidades é difícil, sendo a ressonância magnética a modalidade de escolha na investigação diagnóstica. Apesar de os achados de neuroimagem não serem patognomônicos, muitos são bastante sugestivos, podendo o radiologista auxiliar no diagnóstico e, consequentemente, na orientação terapêutica. O objetivo desta segunda parte do artigo é revisar os achados de ressonância magnética das principais lesões medulares inflamatórias e infecciosas.

Diffusion MRI of the spinal cord: from structural studies to pathology.

Diffusion MRI is extensively used to study brain microarchitecture and pathologies, and water diffusion appears highly anisotropic in the white matter (WM) of the spinal cord (SC). Despite these facts, the use of diffusion MRI to study the SC, which has increased in recent years, is much less common than that in the brain. In the present review, after a brief outline of early studies of diffusion MRI (DWI) and diffusion tensor MRI (DTI) of the SC, we provide a short survey on DTI and on diffusion MRI methods beyond the tensor that have been used to study SC microstructure and pathologies. After introducing the porous view of WM and describing the q-space approach and q-space diffusion MRI (QSI), we describe other methodologies that can be applied to study the SC. Selected applications of the use of DTI, QSI, and other more advanced diffusion MRI methods to study SC microstructure and pathologies are presented, with some emphasis on the use of less conventional diffusion methodologies. Because of length constraints, we concentrate on structural studies and on a few selected pathologies. Examples of the use of diffusion MRI to study dysmyelination, demyelination as in experimental autoimmune encephalomyelitis and multiple sclerosis, amyotrophic lateral sclerosis, and traumatic SC injury are presented. We conclude with a brief summary and a discussion of challenges and future directions for diffusion MRI of the SC. Copyright © 2016 John Wiley & Sons, Ltd.

Spinal Cord Monitoring Data in Pediatric Spinal Deformity Patients With Spinal Cord Pathology.

STUDY DESIGN: Retrospective. OBJECTIVES: The purpose of this study is to review the efficacy of monitoring data and outcomes in pediatric patients with spinal cord pathology. SUMMARY OF BACKGROUND DATA: The incidence of spinal cord pathology in pediatric patients with scoliosis has been reported between 3% and 20%. Previous studies demonstrated that intraoperative spinal cord monitoring (IOM) during scoliosis surgery can be reliable despite underlying pathology. METHODS: A single-center retrospective review of 119 spinal surgery procedures in 82 patients with spinal cord pathology was performed. Diagnoses included Arnold-Chiari malformation, syringomyelia, myelomeningocele, spinal cord tumor, tethered cord, and diastematomyelia. Baseline neurologic function and history of prior neurosurgical intervention were identified. Outcome measures included ability to obtain reliable monitoring data during surgery and presence of postoperative neurologic deficits. Results were compared for 82 patients with adolescent idiopathic scoliosis (AIS). RESULTS: Usable IOM data were obtained in 82% of cases (97/119). Twenty-two cases (18%) had no lower extremity data. Patients with Arnold-Chiari malformation or syringomyelia pathologies, in isolation or together, had a significantly higher rate of reliable data compared to other pathologies (p < .0001). Among study group cases with usable data, there were 1 false negative (1%) and 4 true positive (4%) outcomes. There were no permanent neurologic deficits. The spinal cord pathology group demonstrated 80% sensitivity and 92% specificity. CONCLUSIONS: Spinal cord monitoring is a valuable tool in pediatric patients with spinal cord pathology undergoing spinal deformity surgeries. When obtained, data allow to detect changes in spinal cord function. Patients with a diagnosis of Arnold-Chiari or syringomyelia have monitoring data similar to those patients with AIS. Patients with other spinal cord pathologies have less reliable data, and surgeons should have a lower threshold for performing wake-up tests to assess spinal cord function intraoperatively.

A pilot MRI study of white and grey matter involvement by multiple sclerosis spinal cord lesions.

OBJECTIVES: Spinal cord pathology is a major cause of disability in multiple sclerosis (MS) and pathology studies show multifocal demyelinating lesions in white matter (WM) tracts and central grey matter (GM). Better localisation of cord lesions by in vivo MRI may help to understand the structural-functional effects of spinal cord pathology in MS. METHODS: Three-Tesla MRI was performed on upper cervical cord in 15 MS patients and one clinically isolated syndrome. Axial 3D gradient-echo fast field echo (3D-FFE) and phase sensitive inversion recovery sequences (3D-PSIR) were acquired. Two readers reviewed images to detect and classify lesions: WM-only, mixed WM-GM or GM-only. Location of the WM component was classified: anterior (AC), lateral (LC) or posterior (PC) column. RESULTS: Fifty one lesions were identified: 32 (63%) mixed WM-GM, 19 (37%) WM-only, no GM-only. Most were in LC (n=30, 59%), followed by PC (n=18, 35%) and AC (n=3, 6%). Mean lesion areas: AC 4.3mm(2), LC 8.5mm(2), PC 11.3mm(2), corresponding to 6.1%, 12% and 16.1% of mean cord area, respectively. Mean lesion lengths: 18.3mm in AC, LC 17.6mm and PC 24.8mm. CONCLUSIONS: While there was good depiction of WM tract involvement by cord lesions, involvement of central grey matter was not as clear. Noting the important effects of spinal cord pathology in MS, further work to better depict cord lesions by in vivo imaging is warranted.

Methylprednisolone inhibits Nogo-A protein expression after acute spinal cord injury.

Oligodendrocyte-produced Nogo-A has been shown to inhibit axonal regeneration. Methylprednisolone plays an effective role in treating spinal cord injury, but the effect of methylprednisolone on Nogo-A in the injured spinal cord remains unknown. The present study established a rat model of acute spinal cord injury by the weight-drop method. Results showed that after injury, the motor behavior ability of rats was reduced and necrotic injury appeared in spinal cord tissues, which was accompanied by increased Nogo-A expression in these tissues. After intravenous injection of high-dose methylprednisolone, although the pathology of spinal cord tissue remained unchanged, Nogo-A expression was reduced, but the level was still higher than normal. These findings implicate that methylprednisolone could inhibit Nogo-A expression, which could be a mechanism by which early high dose methylprednisolone infusion helps preserve spinal cord function after spinal cord injury.

Spinal intradural arteriovenous fistula mimicking intramedullary tumor and associated with a giant intracranial aneurysm / Fístula arteriovenosa intradural espinhal mimetizando tumor intramedular e associado com aneurisma intracraniano gigante

Spinal intradural arteriovenous fistulas (AVFs) are a rare type of neurovascular malformation. Many a time hemodynamic disturbs associated to these entities can cause edema with subsequent myelopathy. On MRI study, this edema can mimic an intramedullary tumor. We report a rare case of spinal intradural AVFs mimicking an intramedullary tumor, which also were surprisingly associated with a giant intracranial aneurysm. We highlight in detail the MRI findings in intramedullary lesions, and also emphasize that these entities requires as careful differential diagnosis as supplementary investigation of the neuroaxis looking for other simultaneous neurovascular pathologies.

Fístulas arteriovenosas espinhais intradurais são um tipo raro de malformação neurovascular. Muitas vezes, distúrbios hemodinâmicos associados a essa entidade podem causar edema com subsequente mielopatia. Em estudos de ressonância magnética, esse edema pode mimetizar um tumor intramedular. Relata-se um caso raro de fistula arteriovenosa espinhal intradural mimetizando um tumor intramedular, que também estava associado a um aneurisma cerebral gigante. Destacam-se em detalhes os achados de RM nas lesões intramedulares, assim como se enfatiza que essas entidades requerem tanto um diagnóstico diferencial criterioso quanto uma investigação complementar do neuroeixo procurando por outras patologias neurovasculares associadas.

Effect of Aitongping on c-fos Gene Expression and Substance P Content in Spinal Dorsal Horn of Rats with Formalin-induced Pain / 广州中医药大学学报

Objective To observe the effect of Aitongping on c-fos gene expression and substance P(SP) content in spinal dorsal horn of rats with formalin-induced pain.Methods Fifty SD rats were randomized into 5 groups: blank control group,model group,tramadol group(0.06g/kg),high-and low-dose Aitongping groups(36 and 18g/kg respectively).Rats model of pain was induced by subcutaneous injection of formalin into the plantar surface of the left hind paw of rats.The fos gene expression and SP content were observed in superficial lamella of spinal dorsal horn of spinal section from the lumbar vertebrae L3 to L5 by immunohistochemical method.Results The number of neurons with fos gene expression positive and the optical density(D value) of reactants with SP expression positive were increased in the model group(P

Effect of Shujin Granules on Rats with Muscular Hypertonia After Stroke / 广州中医药大学学报

0.05).Muscular tension improvement in SG group and baclofen group differed from that in the model group(P0.05).GABA expression in the spinal dorsal horn was decreased in SG group and baclofen group as compared with the model group(P0.05).Conclusion The therapeutic mechanism of SG for the treatment of muscular hypertonia after stroke is probably related with the spinal expression of GABA.