FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1999467523> ?p ?o ?g. }

• W1999467523 endingPage "e105735" @default.
• W1999467523 startingPage "e105735" @default.
• W1999467523 abstract "Objective To assess the advantages of Adaptive Iterative Dose Reduction using Three Dimensional Processing (AIDR3D) for image quality improvement and dose reduction for chest computed tomography (CT). Methods Institutional Review Boards approved this study and informed consent was obtained. Eighty-eight subjects underwent chest CT at five institutions using identical scanners and protocols. During a single visit, each subject was scanned using different tube currents: 240, 120, and 60 mA. Scan data were converted to images using AIDR3D and a conventional reconstruction mode (without AIDR3D). Using a 5-point scale from 1 (non-diagnostic) to 5 (excellent), three blinded observers independently evaluated image quality for three lung zones, four patterns of lung disease (nodule/mass, emphysema, bronchiolitis, and diffuse lung disease), and three mediastinal measurements (small structure visibility, streak artifacts, and shoulder artifacts). Differences in these scores were assessed by Scheffe's test. Results At each tube current, scans using AIDR3D had higher scores than those without AIDR3D, which were significant for lung zones (p<0.0001) and all mediastinal measurements (p<0.01). For lung diseases, significant improvements with AIDR3D were frequently observed at 120 and 60 mA. Scans with AIDR3D at 120 mA had significantly higher scores than those without AIDR3D at 240 mA for lung zones and mediastinal streak artifacts (p<0.0001), and slightly higher or equal scores for all other measurements. Scans with AIDR3D at 60 mA were also judged superior or equivalent to those without AIDR3D at 120 mA. Conclusion For chest CT, AIDR3D provides better image quality and can reduce radiation exposure by 50%." @default.
• W1999467523 created "2016-06-24" @default.
• W1999467523 creator A5001276118 @default.
• W1999467523 creator A5001365819 @default.
• W1999467523 creator A5028252542 @default.
• W1999467523 creator A5034265751 @default.
• W1999467523 creator A5044081257 @default.
• W1999467523 creator A5054243155 @default.
• W1999467523 creator A5056631976 @default.
• W1999467523 creator A5056652401 @default.
• W1999467523 creator A5065473780 @default.
• W1999467523 creator A5079882445 @default.
• W1999467523 creator A5080558425 @default.
• W1999467523 creator A5086078850 @default.
• W1999467523 creator A5088886028 @default.
• W1999467523 date "2014-08-25" @default.
• W1999467523 modified "2023-10-16" @default.
• W1999467523 title "Adaptive Iterative Dose Reduction Using Three Dimensional Processing (AIDR3D) Improves Chest CT Image Quality and Reduces Radiation Exposure" @default.
• W1999467523 cites W141257460 @default.
• W1999467523 cites W1964060591 @default.
• W1999467523 cites W1969788387 @default.
• W1999467523 cites W1971517751 @default.
• W1999467523 cites W1979020320 @default.
• W1999467523 cites W1979446622 @default.
• W1999467523 cites W1991190150 @default.
• W1999467523 cites W1992590343 @default.
• W1999467523 cites W1997833915 @default.
• W1999467523 cites W2014838985 @default.
• W1999467523 cites W2017827138 @default.
• W1999467523 cites W2026944767 @default.
• W1999467523 cites W2031619087 @default.
• W1999467523 cites W2035232028 @default.
• W1999467523 cites W2037595954 @default.
• W1999467523 cites W2056072369 @default.
• W1999467523 cites W2061626633 @default.
• W1999467523 cites W2063917964 @default.
• W1999467523 cites W2074170100 @default.
• W1999467523 cites W2080394211 @default.
• W1999467523 cites W2082873738 @default.
• W1999467523 cites W2084513732 @default.
• W1999467523 cites W2095508031 @default.
• W1999467523 cites W2101073067 @default.
• W1999467523 cites W2129241337 @default.
• W1999467523 cites W2135365831 @default.
• W1999467523 cites W2135649295 @default.
• W1999467523 cites W2141834520 @default.
• W1999467523 cites W2143129785 @default.
• W1999467523 cites W2150636732 @default.
• W1999467523 cites W2165804181 @default.
• W1999467523 cites W2169074549 @default.
• W1999467523 cites W2172021977 @default.
• W1999467523 doi "https://doi.org/10.1371/journal.pone.0105735" @default.
• W1999467523 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4143266" @default.
• W1999467523 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25153797" @default.
• W1999467523 hasPublicationYear "2014" @default.
• W1999467523 type Work @default.
• W1999467523 sameAs 1999467523 @default.
• W1999467523 citedByCount "31" @default.
• W1999467523 countsByYear W19994675232014 @default.
• W1999467523 countsByYear W19994675232015 @default.
• W1999467523 countsByYear W19994675232016 @default.
• W1999467523 countsByYear W19994675232017 @default.
• W1999467523 countsByYear W19994675232018 @default.
• W1999467523 countsByYear W19994675232019 @default.
• W1999467523 countsByYear W19994675232020 @default.
• W1999467523 countsByYear W19994675232021 @default.
• W1999467523 countsByYear W19994675232023 @default.
• W1999467523 crossrefType "journal-article" @default.
• W1999467523 hasAuthorship W1999467523A5001276118 @default.
• W1999467523 hasAuthorship W1999467523A5001365819 @default.
• W1999467523 hasAuthorship W1999467523A5028252542 @default.
• W1999467523 hasAuthorship W1999467523A5034265751 @default.
• W1999467523 hasAuthorship W1999467523A5044081257 @default.
• W1999467523 hasAuthorship W1999467523A5054243155 @default.
• W1999467523 hasAuthorship W1999467523A5056631976 @default.
• W1999467523 hasAuthorship W1999467523A5056652401 @default.
• W1999467523 hasAuthorship W1999467523A5065473780 @default.
• W1999467523 hasAuthorship W1999467523A5079882445 @default.
• W1999467523 hasAuthorship W1999467523A5080558425 @default.
• W1999467523 hasAuthorship W1999467523A5086078850 @default.
• W1999467523 hasAuthorship W1999467523A5088886028 @default.
• W1999467523 hasBestOaLocation W19994675231 @default.
• W1999467523 hasConcept C115961682 @default.
• W1999467523 hasConcept C120665830 @default.
• W1999467523 hasConcept C121332964 @default.
• W1999467523 hasConcept C126322002 @default.
• W1999467523 hasConcept C126838900 @default.
• W1999467523 hasConcept C154945302 @default.
• W1999467523 hasConcept C2777714996 @default.
• W1999467523 hasConcept C2989005 @default.
• W1999467523 hasConcept C41008148 @default.
• W1999467523 hasConcept C55020928 @default.
• W1999467523 hasConcept C65185188 @default.
• W1999467523 hasConcept C71924100 @default.
• W1999467523 hasConceptScore W1999467523C115961682 @default.
• W1999467523 hasConceptScore W1999467523C120665830 @default.
• W1999467523 hasConceptScore W1999467523C121332964 @default.
• W1999467523 hasConceptScore W1999467523C126322002 @default.

• next