id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_tmnqkdv6gjaa5fwhqmkqb245xi	Amish P Shah	A paired-image radiation transport model for skeletal dosimetry	2005.0	10	.pdf	application/pdf	8028	676	61	In the present study, we introduce a paired-image radiation transport (PIRT) model that can provide a more realistic Voxels within the resulting NMR microimages were segmented and labeled into regions of bone trabeculae, endosteum, active marrow, and inactive marrow. linear chord lengths through both bone trabeculae and marrow cavities, the fraction of a particle's kinetic energy absorbed fractions to skeletal tissues are potentially overestimated in CBIST models for higher-energy �-emitters. image of the entire skeletal site outlining regions of trabecular spongiosa, cortical bone, and surrounding tissues and spongiosa of the CT macroimage, tracking within the NMR microimage is halted and the particle is transported within a homogeneous region of cortical bone defined only by the larger voxels Electron-absorbed fractions to active bone marrow within L4 vertebrae for 3 source tissues: TAM, TBV, and TBS. Electron-absorbed fractions to active bone marrow within proximal femur for 3 source tissues: TAM, TBV, and TBS.	./cache/work_tmnqkdv6gjaa5fwhqmkqb245xi.pdf	./txt/work_tmnqkdv6gjaa5fwhqmkqb245xi.txt