Typically situated posterolateral in the spinal canal, intraspinal facet cysts often cause radicular symptoms. Rarely, the midline location of these synovial or ganglion cysts may cause thecal sac compression leading ...Typically situated posterolateral in the spinal canal, intraspinal facet cysts often cause radicular symptoms. Rarely, the midline location of these synovial or ganglion cysts may cause thecal sac compression leading to neurogenic claudication or cauda equina syndrome. This article summarizes the clinical presentation, radiographic appearance, and management of three intraspinal, midline facet cysts. Three patients with symptomatic midline intraspinal facet cysts were retrospectively reviewed. Documented clinical visits, operative notes, histopathology reports, and imaging findings were investigated for each patient. One patient presented with neurogenic claudication while two patients developed partial, subacute cauda equina syndrome. All 3 patients initially responded favorably to lumbar decompression and midline cyst resection; however, one patient required surgical stabilization 8 mo later. Following the three case presentations, we performed a thorough literature search in order to identify articles describing intraspinal cystic lesions in lateral or midline locations. Midline intraspinal facet cysts represent an uncommon cause of lumbar stenosis and thecal sac compression. Such entities should enter the differential diagnosis of midline posterior cystic lesions. Midline cysts causing thecal sac compression respond favorably to lumbar surgical decompression and cyst resection. Though laminectomy is a commonly performed operation, stabilization may be required in cases of spondylolisthesis or instability.展开更多
Currently,large numbers of clinical trials are performed to investigate different forms of experimental therapy for patients suffering from chronic spinal cord injury(SCI).However,for the enrollment process,there are ...Currently,large numbers of clinical trials are performed to investigate different forms of experimental therapy for patients suffering from chronic spinal cord injury(SCI).However,for the enrollment process,there are different views on how the time period between injury and interventions should be determined.Herein,we sought to evaluate the impact of time-to-enrollment in chronic SCI clinical trials.A data set comprising 957 clinical studies from clinical Trials.gov was downloaded and analyzed focusing on the eligibility criteria for post-injury time-to-enrollment.We also aggregated individual patient data from nine clinical trials of regenerative interventions for chronic SCI selected by a systematic literature search from 1990 to 2018.Characteristics of the studies were assessed and compared by dividing into three groups based on time-to-enrollment(group 1≤12 months,group 2=12-23 months and group 3≥24 months).In Clinical Trials.gov registry,445 trials were identified for chronic SCI where 87%(385)were unrestricted in the maximum post-injury time for trial eligibility.From systematic literature search,nine studies and 156 patients(group 1=30,group 2=55 and group 3=71)were included.The range of time-to-enrollment was 0.5 to 321 months in those studies.We also observed various degrees of motor and sensory improvement in between three time-to-enrollment groups.Our results indicate that enrolling wide ranges of time-to-enrollment in a group may present imprecise outcomes.Clinical trial designs should consider appropriate postinjury time frames to evaluate therapeutic benefit.展开更多
文摘Typically situated posterolateral in the spinal canal, intraspinal facet cysts often cause radicular symptoms. Rarely, the midline location of these synovial or ganglion cysts may cause thecal sac compression leading to neurogenic claudication or cauda equina syndrome. This article summarizes the clinical presentation, radiographic appearance, and management of three intraspinal, midline facet cysts. Three patients with symptomatic midline intraspinal facet cysts were retrospectively reviewed. Documented clinical visits, operative notes, histopathology reports, and imaging findings were investigated for each patient. One patient presented with neurogenic claudication while two patients developed partial, subacute cauda equina syndrome. All 3 patients initially responded favorably to lumbar decompression and midline cyst resection; however, one patient required surgical stabilization 8 mo later. Following the three case presentations, we performed a thorough literature search in order to identify articles describing intraspinal cystic lesions in lateral or midline locations. Midline intraspinal facet cysts represent an uncommon cause of lumbar stenosis and thecal sac compression. Such entities should enter the differential diagnosis of midline posterior cystic lesions. Midline cysts causing thecal sac compression respond favorably to lumbar surgical decompression and cyst resection. Though laminectomy is a commonly performed operation, stabilization may be required in cases of spondylolisthesis or instability.
文摘Currently,large numbers of clinical trials are performed to investigate different forms of experimental therapy for patients suffering from chronic spinal cord injury(SCI).However,for the enrollment process,there are different views on how the time period between injury and interventions should be determined.Herein,we sought to evaluate the impact of time-to-enrollment in chronic SCI clinical trials.A data set comprising 957 clinical studies from clinical Trials.gov was downloaded and analyzed focusing on the eligibility criteria for post-injury time-to-enrollment.We also aggregated individual patient data from nine clinical trials of regenerative interventions for chronic SCI selected by a systematic literature search from 1990 to 2018.Characteristics of the studies were assessed and compared by dividing into three groups based on time-to-enrollment(group 1≤12 months,group 2=12-23 months and group 3≥24 months).In Clinical Trials.gov registry,445 trials were identified for chronic SCI where 87%(385)were unrestricted in the maximum post-injury time for trial eligibility.From systematic literature search,nine studies and 156 patients(group 1=30,group 2=55 and group 3=71)were included.The range of time-to-enrollment was 0.5 to 321 months in those studies.We also observed various degrees of motor and sensory improvement in between three time-to-enrollment groups.Our results indicate that enrolling wide ranges of time-to-enrollment in a group may present imprecise outcomes.Clinical trial designs should consider appropriate postinjury time frames to evaluate therapeutic benefit.