Tag Archives: Cerebral Small Vessel Disease

Assessment of perivascular space filtering methods using a three-dimensional computational model

Jose Bernal et al. Assessment of perivascular space filtering methods using a three-dimensional computational model Magnetic Resonance Imaging. Publication Date August 4, 2022 How Analyze was Used “The normal-appearing white matter was defined as regions of the white matter where no white matter hyperintensity was identified. A trained image analyst edited segmentation masks manually using…

Associations of Radiographic Cerebral Small Vessel Disease with Acute Intracerebral Hemorrhage Volume, Hematoma Expansion, and Intraventricular Hemorrhage

Simone M. Uniken Venema et al. Associations of Radiographic Cerebral Small Vessel Disease with Acute Intracerebral Hemorrhage Volume, Hematoma Expansion, and Intraventricular Hemorrhage. Neurocritical Care. Publication Date December 16, 2019 How Analyze was Used “Using Analyze 11.0 software (AnalyzeDirect, Overland Park, KS) or (additional software) the following variables were also determined: (1) extent of leukoaraiosis,…

Analysis of dynamic texture and spatial spectral descriptors of dynamic contrast-enhanced brain magnetic resonance images for studying small vessel disease

Jose Bernal et al. Analysis of dynamic texture and spatial spectral descriptors of dynamic contrast-enhanced brain magnetic resonance images for studying small vessel disease. Magnetic Resonance Imaging. Publication Date November 13, 2019 How Analyze was Used “The samples were initially placed by a trained analyst using Analyze 11.0 (AnalyzeDirect Inc., Mayo Clinic), edited by another…

Quantitative Rapid Assessment of Leukoaraiosis in CT

Uta Hanning et al. Quantitative Rapid Assessment of Leukoaraiosis in CT. Clinical Neuroradiology. October 20, 2017. Publication Date October 2017 How Analyze was Used “The WML in FLAIR (Fluid-attenuated inversion recovery) images was manually segmented by an experienced neuroradiologist (Software: Analyze 10.0; AnalyzeDirect Inc., Overland Park, KS, USA) to obtain volumetric WML load (ml)” Keywords…

Development and initial evaluation of a semi-automatic approach to assess perivascular spaces on conventional magnetic resonance images

Xin Wang, Maria del C. Valdés Hernándeza, Fergus Doubal, Francesca M. Chappell, Rory J. Piper, Ian J. Deary, Joanna M. Wardlaw. Development and initial evaluation of a semi-automatic approach to assess perivascular spaces on conventional magnetic resonance images. J Neurosci Methods. Sep 26 2015. Full Text – Open Access Publication Date September 2015 How Analyze was…

Blood pressure and sodium: association with MRI markers in cerebral small vessel disease

Heye AK, Thrippleton MJ, Chappell FM, Valdés Hernández MD, Armitage PA, Makin SD, Maniega SM, Sakka E, Flatman PW, Dennis MS, Wardlaw JM. Blood pressure and sodium: association with MRI markers in cerebral small vessel disease. J Cereb Blood Flow Metab. April 2015. Full Text – Open Access Publication Date April 2015 How Analyze was…

Risk factors for computed tomography angiography spot sign in deep and lobar intracerebral hemorrhage are shared

Radmanesh F, Falcone GJ, Anderson CD, Battey TWK, Ayres AM, Vashkevich A, McNamara KA, Schwab K, Romero JM, Viswanathan A, Greenberg SM, Goldstein JN, Rosand J, Brouwers HB. Risk factors for computed tomography angiography spot sign in deep and lobar intracerebral hemorrhage are shared. Stroke. June 2014;45(6):1833-1835. Publication Date June 2014 How Analyze was Used…