FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2051094927> ?p ?o ?g. }

• W2051094927 endingPage "416" @default.
• W2051094927 startingPage "401" @default.
• W2051094927 abstract "The development of sophisticated and high throughput whole body small animal imaging technologies has created a need for improved image analysis and increased automation. The registration of a digital mouse atlas to individual images is a prerequisite for automated organ segmentation and uptake quantification. This paper presents a fully-automatic method for registering a statistical mouse atlas with individual subjects based on an anterior–posterior X-ray projection and a lateral optical photo of the mouse silhouette. The mouse atlas was trained as a statistical shape model based on 83 organ-segmented micro-CT images. For registration, a hierarchical approach is applied which first registers high contrast organs, and then estimates low contrast organs based on the registered high contrast organs. To register the high contrast organs, a 2D-registration-back-projection strategy is used that deforms the 3D atlas based on the 2D registrations of the atlas projections. For validation, this method was evaluated using 55 subjects of preclinical mouse studies. The results showed that this method can compensate for moderate variations of animal postures and organ anatomy. Two different metrics, the Dice coefficient and the average surface distance, were used to assess the registration accuracy of major organs. The Dice coefficients vary from 0.31 ± 0.16 for the spleen to 0.88 ± 0.03 for the whole body, and the average surface distance varies from 0.54 ± 0.06 mm for the lungs to 0.85 ± 0.10 mm for the skin. The method was compared with a direct 3D deformation optimization (without 2D-registration-back-projection) and a single-subject atlas registration (instead of using the statistical atlas). The comparison revealed that the 2D-registration-back-projection strategy significantly improved the registration accuracy, and the use of the statistical mouse atlas led to more plausible organ shapes than the single-subject atlas. This method was also tested with shoulder xenograft tumor-bearing mice, and the results showed that the registration accuracy of most organs was not significantly affected by the presence of shoulder tumors, except for the lungs and the spleen." @default.
• W2051094927 created "2016-06-24" @default.
• W2051094927 creator A5010996024 @default.
• W2051094927 creator A5054681352 @default.
• W2051094927 creator A5077811779 @default.
• W2051094927 date "2013-05-01" @default.
• W2051094927 modified "2023-10-13" @default.
• W2051094927 title "A method of 2D/3D registration of a statistical mouse atlas with a planar X-ray projection and an optical photo" @default.
• W2051094927 cites W119403756 @default.
• W2051094927 cites W1601600012 @default.
• W2051094927 cites W1964137641 @default.
• W2051094927 cites W1965070352 @default.
• W2051094927 cites W1972344168 @default.
• W2051094927 cites W1974650920 @default.
• W2051094927 cites W1975605357 @default.
• W2051094927 cites W1978708231 @default.
• W2051094927 cites W1980209918 @default.
• W2051094927 cites W1980864508 @default.
• W2051094927 cites W1987067135 @default.
• W2051094927 cites W1997536570 @default.
• W2051094927 cites W2004537679 @default.
• W2051094927 cites W2006616664 @default.
• W2051094927 cites W2008290507 @default.
• W2051094927 cites W2015628184 @default.
• W2051094927 cites W2017645750 @default.
• W2051094927 cites W2021278357 @default.
• W2051094927 cites W2023473820 @default.
• W2051094927 cites W2031820365 @default.
• W2051094927 cites W2046758959 @default.
• W2051094927 cites W2048584772 @default.
• W2051094927 cites W2055894011 @default.
• W2051094927 cites W2074367188 @default.
• W2051094927 cites W2085873825 @default.
• W2051094927 cites W2104276184 @default.
• W2051094927 cites W2106592619 @default.
• W2051094927 cites W2108090472 @default.
• W2051094927 cites W2114013702 @default.
• W2051094927 cites W2114726612 @default.
• W2051094927 cites W2116329629 @default.
• W2051094927 cites W2122007052 @default.
• W2051094927 cites W2132513126 @default.
• W2051094927 cites W2133287637 @default.
• W2051094927 cites W2133606340 @default.
• W2051094927 cites W2136056439 @default.
• W2051094927 cites W2139958836 @default.
• W2051094927 cites W2141104431 @default.
• W2051094927 cites W2141362080 @default.
• W2051094927 cites W2142412936 @default.
• W2051094927 cites W2144771597 @default.
• W2051094927 cites W2148522252 @default.
• W2051094927 cites W2155174544 @default.
• W2051094927 cites W2161739205 @default.
• W2051094927 cites W2171735580 @default.
• W2051094927 cites W2286941808 @default.
• W2051094927 cites W2750196609 @default.
• W2051094927 cites W3006223838 @default.
• W2051094927 cites W4256221580 @default.
• W2051094927 doi "https://doi.org/10.1016/j.media.2013.02.009" @default.
• W2051094927 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3667217" @default.
• W2051094927 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23542374" @default.
• W2051094927 hasPublicationYear "2013" @default.
• W2051094927 type Work @default.
• W2051094927 sameAs 2051094927 @default.
• W2051094927 citedByCount "10" @default.
• W2051094927 countsByYear W20510949272013 @default.
• W2051094927 countsByYear W20510949272014 @default.
• W2051094927 countsByYear W20510949272015 @default.
• W2051094927 countsByYear W20510949272016 @default.
• W2051094927 countsByYear W20510949272018 @default.
• W2051094927 countsByYear W20510949272019 @default.
• W2051094927 countsByYear W20510949272022 @default.
• W2051094927 crossrefType "journal-article" @default.
• W2051094927 hasAuthorship W2051094927A5010996024 @default.
• W2051094927 hasAuthorship W2051094927A5054681352 @default.
• W2051094927 hasAuthorship W2051094927A5077811779 @default.
• W2051094927 hasBestOaLocation W20510949272 @default.
• W2051094927 hasConcept C105702510 @default.
• W2051094927 hasConcept C11413529 @default.
• W2051094927 hasConcept C115961682 @default.
• W2051094927 hasConcept C124504099 @default.
• W2051094927 hasConcept C153180895 @default.
• W2051094927 hasConcept C154945302 @default.
• W2051094927 hasConcept C163892561 @default.
• W2051094927 hasConcept C166704113 @default.
• W2051094927 hasConcept C2776502983 @default.
• W2051094927 hasConcept C2776673561 @default.
• W2051094927 hasConcept C31972630 @default.
• W2051094927 hasConcept C41008148 @default.
• W2051094927 hasConcept C57493831 @default.
• W2051094927 hasConcept C71924100 @default.
• W2051094927 hasConcept C89600930 @default.
• W2051094927 hasConceptScore W2051094927C105702510 @default.
• W2051094927 hasConceptScore W2051094927C11413529 @default.
• W2051094927 hasConceptScore W2051094927C115961682 @default.
• W2051094927 hasConceptScore W2051094927C124504099 @default.
• W2051094927 hasConceptScore W2051094927C153180895 @default.
• W2051094927 hasConceptScore W2051094927C154945302 @default.
• W2051094927 hasConceptScore W2051094927C163892561 @default.

• next