Forecasting motor recovery after cervical spinal cord injury: value of MR imaging.
about
Spinal cord injury: how can we improve the classification and quantification of its severity and prognosis?Common data elements for spinal cord injury clinical research: a National Institute for Neurological Disorders and Stroke projectWho is going to walk? A review of the factors influencing walking recovery after spinal cord injury.Imatinib enhances functional outcome after spinal cord injuryEarly acute management in adults with spinal cord injury: a clinical practice guideline for health-care professionalsEvaluation of normal appearing spinal cord by diffusion tensor imaging, fiber tracking, fractional anisotropy, and apparent diffusion coefficient measurement in 13 dogs.Neuroimaging in traumatic spinal cord injury: an evidence-based review for clinical practice and research.Ambulatory function in motor incomplete spinal cord injury: a magnetic resonance imaging study of spinal cord edema and lower extremity muscle morphometryNeurologic recovery according to early magnetic resonance imaging findings in traumatic cervical spinal cord injuries.Methylprednisolone Administration Following Spinal Cord Injury Reduces Aquaporin 4 Expression and Exacerbates Edema.Approach to imaging the patient with neck pain.Diagnostic and prognostic role of MRI in spinal trauma, its comparison and correlation with clinical profile and neurological outcome, according to ASIA impairment scaleCombination of serum phosphorylated neurofilament heavy subunit and hyperintensity of intramedullary T2W on magnetic resonance imaging provides better prognostic value of canine thoracolumbar intervertebral disc herniation.Independent evaluation of the effects of glibenclamide on reducing progressive hemorrhagic necrosis after cervical spinal cord injury.High-resolution human cervical spinal cord imaging at 7 T.Donald Munro Lecture. Spinal cord injury--past, present, and futureClinical Trial of Human Fetal Brain-Derived Neural Stem/Progenitor Cell Transplantation in Patients with Traumatic Cervical Spinal Cord Injury.Multidimensional Analysis of Magnetic Resonance Imaging Predicts Early Impairment in Thoracic and Thoracolumbar Spinal Cord InjuryBiomarkers in spinal cord injury.Differential diagnosis of T2 hyperintense spinal cord lesions: Part A.The role of magnetic resonance imaging in the management of acute spinal cord injuryConventional MRI as a diagnostic and prognostic tool in spinal cord injury: a systemic review of its application to date and an overview on emerging MRI methods.Impact of vasculature damage on the outcome of spinal cord injury: a novel collagenase-induced model may give new insights into the mechanisms involved.Can anatomic level of injury on MRI predict neurological level in acute cervical spinal cord injury?The Next Generation of Biomarker Research in Spinal Cord Injury.Intramedullary Lesion Length on Postoperative Magnetic Resonance Imaging is a Strong Predictor of ASIA Impairment Scale Grade Conversion Following Decompressive Surgery in Cervical Spinal Cord Injury.Multivariate Analysis of MRI Biomarkers for Predicting Neurologic Impairment in Cervical Spinal Cord Injury.Ligaments disruption: a new perspective in the prognosis of spinal cord injury.Spinal cord injury after blunt cervical spine trauma: correlation of soft-tissue damage and extension of lesion.Motor Evoked Potentials Correlate With Magnetic Resonance Imaging and Early Recovery After Acute Spinal Cord Injury.Patient and caregiver knowledge of severity of injury among youth with spinal cord injury.Failure of Mean Arterial Pressure Goals to Improve Outcomes Following Penetrating Spinal Cord Injury.Impact of Baseline Magnetic Resonance Imaging on Neurologic, Functional, and Safety Outcomes in Patients With Acute Traumatic Spinal Cord Injury.A Clinical Practice Guideline for the Management of Patients With Acute Spinal Cord Injury: Recommendations on the Role of Baseline Magnetic Resonance Imaging in Clinical Decision Making and Outcome Prediction.Lateral Corticospinal Tract Damage Correlates With Motor Output in Incomplete Spinal Cord Injury.Cervical spinal cord injuries without radiographic evidence of trauma: a prospective study.In vivo intermolecular zero-quantum coherence MR spectroscopy in the rat spinal cord at 17.6 T: a feasibility study.Transcranial magnetic motor evoked potentials and magnetic resonance imaging findings in paraplegic dogs with recovery of motor function.
P2860
Q26827953-9898CD86-20A4-4C80-9EFC-6C2644447287Q27008030-60369312-B21F-47D3-80E7-2D478B7CE1B4Q27693254-8B1D3501-00CB-48CE-BA07-87A19DFBF454Q28480537-2F452BC5-B31D-40A8-8227-EA7EF3EA254EQ30440562-9F6E65AB-3E4F-4DB7-9827-784A2F5BE1A7Q30619907-6D8178AE-9636-4F73-A74C-F01478CA27DDQ31121218-2D6A813A-D654-4ADE-98F7-9C649450512FQ31167841-3B8B6E7B-0394-4A88-9590-5BA49CB5B6ADQ33628146-EA31E6D3-010A-4DDA-AD72-8B99F8694448Q33721285-1BD4C099-5721-41D1-83F4-B01C87C25A8EQ35068603-BB12832C-7B5C-45D7-923B-B24B8C433527Q35306616-D38F51A2-03A0-4BB8-A900-F4911D7BA6E4Q35594427-2CD118B8-6EFC-4EE4-87F3-3D6964890B29Q35736938-0425DAF3-1C78-4F2D-AF9F-48AB2E5FC201Q36039013-88741CF3-F7F7-4181-A054-4A4EF0012459Q36076615-51A577A2-D50A-46A6-9A0F-D4DE82BC9D09Q36204514-144B97CA-708E-4493-B6EA-3352F714D56DQ36925644-E1088295-42A8-46D0-A4BA-B6E0A42DA2E5Q37372494-CDBED62F-D96B-49F9-935B-D28BC0538C71Q37380057-A63D988E-1FDB-49EA-9F12-9D8FA47B6E17Q37730081-EEC7B852-18D2-4E6E-9D37-A63CFF4996C0Q38088372-BC76E1C9-4B8B-481D-B800-5DE675CA1AA1Q38271202-306D4CFD-41B3-4500-988C-91CE51407B5FQ38546028-8639E8B8-DF39-4DAC-A028-CFC0EC0AAC38Q38723317-A3E90B93-3E33-41FF-89A2-49442E913750Q38864592-7FF417CE-27E2-4197-B7E5-7724141046D1Q39070592-93DF8B07-1771-4FF8-B17A-AA0945BAECB5Q42244655-6BD4B96C-1409-496C-B81E-FE6A922D1A50Q44052945-1D6B38B9-491C-4C78-92E5-4EA3E1954C69Q45968655-54EB547E-D812-4CE1-AE03-EBB2461118A4Q46616615-DA9EDDCA-D41E-48B6-B8C6-4A0D182E6398Q46710964-0F23417D-B1BF-4381-878B-B722EEC593C9Q47094299-7FCF7425-A189-4386-9C71-BE760F97483BQ47095658-47F8EA98-01F5-47E5-BAFC-EAD453DCA3DAQ47225717-D05C8C0C-17FC-4C57-BA72-04299CAD4CDBQ50772650-B7C40415-7406-47E2-82F4-91234341312CQ50909796-7FD0B3CC-8737-46AF-982C-B2EDDFF9C0FCQ55155580-411A187A-D311-48A8-B1CB-5D497259835A
P2860
Forecasting motor recovery after cervical spinal cord injury: value of MR imaging.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
Forecasting motor recovery after cervical spinal cord injury: value of MR imaging.
@en
type
label
Forecasting motor recovery after cervical spinal cord injury: value of MR imaging.
@en
prefLabel
Forecasting motor recovery after cervical spinal cord injury: value of MR imaging.
@en
P2093
P1433
P1476
Forecasting motor recovery after cervical spinal cord injury: value of MR imaging.
@en
P2093
Flanders AE
Friedman DP
Herbison GJ
Spettell CM
Tartaglino LM
P304
P356
10.1148/RADIOLOGY.201.3.8939210
P407
P577
1996-12-01T00:00:00Z