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W2565172414 endingPage "242" @default.
W2565172414 startingPage "233" @default.
W2565172414 abstract "The human brain develops rapidly during 32-45 postmenstrual weeks (PMW), a critical stage characterized by dramatic increases of metabolic demand. The increasing metabolic demand can be inferred through measurements of regional cerebral blood flow (CBF), which might be coupled to regional metabolism in preterm brains. Arterial spin labeled (ASL) perfusion MRI is one of the few viable approaches for imaging regional CBF of preterm brains, but must be optimized for the extremely slow blood velocity unique in preterm brains. In this study, we explored the spatiotemporal CBF distribution in newborns scanned at the age of 32-45PMW using a pseudo-continuous ASL (pCASL) protocol adapted to slow blood flow in neonates. A total of 89 neonates were recruited. PCASL MRI was acquired from 34 normal newborns and phase contrast (PC) images from 19 newborns. Diffusion tensor images (DTI) were acquired from all 89 neonates for measuring cortical fractional anisotropy (FA), which characterizes cortical microstructure. Reproducible CBF measurements were obtained with the adjusted pCASL sequence. Global CBF measurement based on PC MRI was found to double its value in the 3rd trimester. Regional CBF increases were heterogeneous across the brain with a significantly higher rate of CBF increase in the frontal lobe and a lower rate of CBF increase in the occipital lobe. A significant correlation was found between frontal cortical CBF and cortical FA measurements (p<0.01). Increasing CBF values observed in the frontal lobe corresponded to lower FA values, suggesting that dendritic arborization and synaptic formation might be associated with an elevated local CBF. These results offer a preliminary account of heterogeneous regional CBF increases in a vital early developmental period and may shed the light on underlying metabolic support for cortical microstructural changes during the developmental period of 32-45PMW. Preterm effects and limitations of pCASL techniques in newborns need to be carefully considered for interpretation these results." @default.
W2565172414 created "2017-01-06" @default.
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W2565172414 date "2017-02-01" @default.
W2565172414 modified "2023-10-12" @default.
W2565172414 title "Heterogeneous increases of regional cerebral blood flow during preterm brain development: Preliminary assessment with pseudo-continuous arterial spin labeled perfusion MRI" @default.
W2565172414 cites W1434504520 @default.
W2565172414 cites W1543626044 @default.
W2565172414 cites W1823015675 @default.
W2565172414 cites W1914061050 @default.
W2565172414 cites W1927269597 @default.
W2565172414 cites W1952418028 @default.
W2565172414 cites W1963778693 @default.
W2565172414 cites W1964802316 @default.
W2565172414 cites W1967104918 @default.
W2565172414 cites W1967356153 @default.
W2565172414 cites W1968048563 @default.
W2565172414 cites W1976099054 @default.
W2565172414 cites W1977594357 @default.
W2565172414 cites W1977643149 @default.
W2565172414 cites W1979246825 @default.
W2565172414 cites W1979682928 @default.
W2565172414 cites W1979698077 @default.
W2565172414 cites W1988525613 @default.
W2565172414 cites W1992182372 @default.
W2565172414 cites W1994593704 @default.
W2565172414 cites W1995430838 @default.
W2565172414 cites W1997555772 @default.
W2565172414 cites W2001123773 @default.
W2565172414 cites W2003052675 @default.
W2565172414 cites W2012056804 @default.
W2565172414 cites W2012602334 @default.
W2565172414 cites W2021134980 @default.
W2565172414 cites W2022242357 @default.
W2565172414 cites W2034628853 @default.
W2565172414 cites W2039600900 @default.
W2565172414 cites W2040032797 @default.
W2565172414 cites W2044636785 @default.
W2565172414 cites W2046641115 @default.
W2565172414 cites W2059072071 @default.
W2565172414 cites W2064290827 @default.
W2565172414 cites W2066073124 @default.
W2565172414 cites W2067919319 @default.
W2565172414 cites W2072426302 @default.
W2565172414 cites W2073693002 @default.
W2565172414 cites W2075218089 @default.
W2565172414 cites W2075761659 @default.
W2565172414 cites W2077466520 @default.
W2565172414 cites W2077630079 @default.
W2565172414 cites W2077667106 @default.
W2565172414 cites W2081413238 @default.
W2565172414 cites W2094248156 @default.
W2565172414 cites W2097133042 @default.
W2565172414 cites W2098862557 @default.
W2565172414 cites W2102994326 @default.
W2565172414 cites W2104612543 @default.
W2565172414 cites W2105549490 @default.
W2565172414 cites W2113401056 @default.
W2565172414 cites W2116641010 @default.
W2565172414 cites W2123067128 @default.
W2565172414 cites W2125113163 @default.
W2565172414 cites W2126322809 @default.
W2565172414 cites W2127610265 @default.
W2565172414 cites W2130678362 @default.
W2565172414 cites W2130793535 @default.
W2565172414 cites W2132961079 @default.
W2565172414 cites W2135304097 @default.
W2565172414 cites W2140190130 @default.
W2565172414 cites W2141403362 @default.
W2565172414 cites W2147133578 @default.
W2565172414 cites W2152279809 @default.
W2565172414 cites W2169006766 @default.
W2565172414 cites W2216172944 @default.
W2565172414 cites W2266968689 @default.
W2565172414 cites W2323667057 @default.
W2565172414 cites W4234180827 @default.
W2565172414 doi "https://doi.org/10.1016/j.neuroimage.2016.12.034" @default.
W2565172414 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5303673" @default.
W2565172414 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27988320" @default.
W2565172414 hasPublicationYear "2017" @default.
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