Meeting Banner
Abstract #1834

An Empiric Method for Separation of Extra- And Intra-Cellular Signal in Mouse Spinal Cord for Q-Space Imaging

Henry H. Ong1, Felix W. Wehrli1

1Laboratory for Structural NMR Imaging, Departement of Radiology, University of Pennsylvania School of Medicine, Philadelphia, PA, United States

Q-space imaging offers potential for indirect assessment of white matter architecture but is complicated by signal from both extra- and intra-cellular spaces (ECS and ICS). Here, we use an empiric method to separate ECS and ICS signals based on different characteristics of hindered and restricted diffusion in white matter tracts of healthy mouse spinal cords. This method circumvents problems with modeling or multi-exponential fitting to distinguish the two signals. The measured mean axon diameter show excellent agreement with histology. The results demonstrate the feasibility of this method to accurately separate and characterize diffusion in the ECS and ICS.

Abstract PDF Poster PDF

Keywords

accurately adult agreement amplitude applied approaches architecture arise assessing assessment assumptions attenuation attenuations axon barriers best bland built cellular circumvent coarser coil compartment conditions confirmed contain cord cords correlation curves custom decay density described destructively deviate diameter difficult diffusion displacement dissected divide dorsal empiric empirically equations examples excellent exhibits experimental extra facilitate feasibility fewer finite fitting five fixed fraction full give gradient gradients grant hardware healthy histology ideal inaccuracies intercept interfaced interpolation interpretation intra intracellular inversion laboratory lead linear long measuring membranes methodology mice micro microscopy model modeling molecular mouse optical overall overestimated oxford packing parts peak pixel plots posed positive possibility potential predicts press previous principles priori probability problem problems processing reduce reduced regularity rely reports require requires resolution respectively rest restricted school section selected separate separated separates separation seven shape space spaces specimens spinal stimulated structural structure subdivision suggests system theory tract tracts transform valid validate varying white width