OBJECTIVE: To ascertain the value of relatively simple quantitative radiologic measurements after head injury. Despite major advances in neuroradiology, analysis and reporting of imaging studies is based primarily on individual subjective and local experience, rather than on reproducible, standardized parameters; reliance on newer technologies can improve care, but also raises diagnostic costs. DESIGN: Blinded, retrospective, quantitative assessment of computerized tomography studies done some 14 years post-injury. OUTCOME MEASURES: Frontal horn width (FHW); septum-caudate distance (SCD); temporal horn width (THW); interuncal distance (IUD); third ventricle width (3VW); ventricular score (VS); sulcal width (SW); gray-white matter discriminability (GWMD) and subjective assessment of atrophy (SAOA). RESULTS: Diffuse and frontal damage was noted in both closed (CHI) and penetrating (PHI) head injury groups. Enlargement of frontal lobe parameters (septum caudate distance and frontal horn width suggest frontal injury in both closed and penetrating traumatic brain injury (TBI). Temporal horn width and inter-uncal distance were related to VS, 3VW and FHW in closed, but not in penetrating head injury. CONCLUSIONS: Simple linear CSF space measurements are correlated with volumetric and parenchymal measures, and can represent valuable and reliable low-cost quantitative measures of long term brain damage after TBI.
OBJECTIVE: To ascertain the value of relatively simple quantitative radiologic measurements after head injury. Despite major advances in neuroradiology, analysis and reporting of imaging studies is based primarily on individual subjective and local experience, rather than on reproducible, standardized parameters; reliance on newer technologies can improve care, but also raises diagnostic costs. DESIGN: Blinded, retrospective, quantitative assessment of computerized tomography studies done some 14 years post-injury. OUTCOME MEASURES: Frontal horn width (FHW); septum-caudate distance (SCD); temporal horn width (THW); interuncal distance (IUD); third ventricle width (3VW); ventricular score (VS); sulcal width (SW); gray-white matter discriminability (GWMD) and subjective assessment of atrophy (SAOA). RESULTS: Diffuse and frontal damage was noted in both closed (CHI) and penetrating (PHI) head injury groups. Enlargement of frontal lobe parameters (septum caudate distance and frontal horn width suggest frontal injury in both closed and penetrating traumatic brain injury (TBI). Temporal horn width and inter-uncal distance were related to VS, 3VW and FHW in closed, but not in penetrating head injury. CONCLUSIONS: Simple linear CSF space measurements are correlated with volumetric and parenchymal measures, and can represent valuable and reliable low-cost quantitative measures of long term brain damage after TBI.
Authors: Elisabeth A Wilde; Sylvain Bouix; David F Tate; Alexander P Lin; Mary R Newsome; Brian A Taylor; James R Stone; James Montier; Samuel E Gandy; Brian Biekman; Martha E Shenton; Gerald York Journal: Brain Imaging Behav Date: 2015-09 Impact factor: 3.978
Authors: Sarah Majercik; Joseph Bledsoe; David Ryser; Ramona O Hopkins; Joseph E Fair; R Brock Frost; Joel MacDonald; Ryan Barrett; Susan Horn; David Pisani; Erin D Bigler; Scott Gardner; Mark Stevens; Michael J Larson Journal: J Trauma Acute Care Surg Date: 2017-01 Impact factor: 3.313
Authors: Eun Hyuk Chang; Istvan Adorjan; Mayara V Mundim; Bin Sun; Maria L V Dizon; Francis G Szele Journal: Front Neurosci Date: 2016-08-02 Impact factor: 4.677