FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2006782810> ?p ?o ?g. }

• W2006782810 endingPage "883" @default.
• W2006782810 startingPage "872" @default.
• W2006782810 abstract "Purpose: A novel technique is proposed to construct CT image of a totally deflated lung from a free‐breathing 4D‐CT image sequence acquired preoperatively. Such a constructed CT image is very useful in performing tumor ablative procedures such as lung brachytherapy. Tumor ablative procedures are frequently performed while the lung is totally deflated. Deflating the lung during such procedures renders preoperative images ineffective for targeting the tumor. Furthermore, the problem cannot be solved using intraoperative ultrasound (U.S.) images because U.S. images are very sensitive to small residual amount of air remaining in the deflated lung. One possible solution to address these issues is to register high quality preoperative CT images of the deflated lung with their corresponding low quality intraoperative U.S. images. However, given that such preoperative images correspond to an inflated lung, such CT images need to be processed to construct CT images pertaining to the lung's deflated state. Methods: To obtain the CT images of deflated lung, we present a novel image construction technique using extrapolated deformable registration to predict the deformation the lung undergoes during full deflation. The proposed construction technique involves estimating the lung's air volume in each preoperative image automatically in order to track the respiration phase of each 4D‐CT image throughout a respiratory cycle; i.e., the technique does not need any external marker to form a respiratory signal in the process of curve fitting and extrapolation. The extrapolated deformation field is then applied on a preoperative reference image in order to construct the totally deflated lung's CT image. The technique was evaluated experimentally using ex vivo porcine lung. Results: The ex vivo lung experiments led to very encouraging results. In comparison with the CT image of the deflated lung we acquired for the purpose of validation, the constructed CT image was very similar. The intensity mean absolute difference between these two images was calculated to be at 1%. Tumor center as well as a number of anatomical fiducial markers were traced in different corresponding slices of the two images. The average misalignment obtained for the constructed CT image was (0.64, 0.39, 0.11) mm, which indicates a very desirable accuracy for lung brachytherapy applications. Conclusions: The image construction accuracy obtained in this research is suitable for intraoperative tasks; e.g., tumor localization and fusing with real time navigation data in lung brachytherapy. These applications involve image registration with intraoperative U.S. images in order to enhance their poor quality. The proposed technique is also useful for preoperative tasks such as planning of lung brachytherapy treatment." @default.
• W2006782810 created "2016-06-24" @default.
• W2006782810 creator A5013499153 @default.
• W2006782810 creator A5015302122 @default.
• W2006782810 creator A5017745259 @default.
• W2006782810 creator A5032056508 @default.
• W2006782810 creator A5053150293 @default.
• W2006782810 date "2011-01-21" @default.
• W2006782810 modified "2023-09-26" @default.
• W2006782810 title "CT image construction of a totally deflated lung using deformable model extrapolation" @default.
• W2006782810 cites W1981115560 @default.
• W2006782810 cites W2001666669 @default.
• W2006782810 cites W2019605381 @default.
• W2006782810 cites W2034963867 @default.
• W2006782810 cites W2075012011 @default.
• W2006782810 cites W2105535692 @default.
• W2006782810 cites W2110962460 @default.
• W2006782810 cites W2113576511 @default.
• W2006782810 cites W2118420236 @default.
• W2006782810 cites W2150703185 @default.
• W2006782810 cites W2152028787 @default.
• W2006782810 cites W2153629629 @default.
• W2006782810 cites W2157380596 @default.
• W2006782810 cites W2167239746 @default.
• W2006782810 cites W2468766697 @default.
• W2006782810 doi "https://doi.org/10.1118/1.3531985" @default.
• W2006782810 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21452724" @default.
• W2006782810 hasPublicationYear "2011" @default.
• W2006782810 type Work @default.
• W2006782810 sameAs 2006782810 @default.
• W2006782810 citedByCount "14" @default.
• W2006782810 countsByYear W20067828102012 @default.
• W2006782810 countsByYear W20067828102013 @default.
• W2006782810 countsByYear W20067828102016 @default.
• W2006782810 countsByYear W20067828102017 @default.
• W2006782810 countsByYear W20067828102018 @default.
• W2006782810 countsByYear W20067828102019 @default.
• W2006782810 countsByYear W20067828102020 @default.
• W2006782810 countsByYear W20067828102021 @default.
• W2006782810 crossrefType "journal-article" @default.
• W2006782810 hasAuthorship W2006782810A5013499153 @default.
• W2006782810 hasAuthorship W2006782810A5015302122 @default.
• W2006782810 hasAuthorship W2006782810A5017745259 @default.
• W2006782810 hasAuthorship W2006782810A5032056508 @default.
• W2006782810 hasAuthorship W2006782810A5053150293 @default.
• W2006782810 hasConcept C105702510 @default.
• W2006782810 hasConcept C115961682 @default.
• W2006782810 hasConcept C126322002 @default.
• W2006782810 hasConcept C126838900 @default.
• W2006782810 hasConcept C154945302 @default.
• W2006782810 hasConcept C2777714996 @default.
• W2006782810 hasConcept C2989005 @default.
• W2006782810 hasConcept C31972630 @default.
• W2006782810 hasConcept C39300077 @default.
• W2006782810 hasConcept C41008148 @default.
• W2006782810 hasConcept C55020928 @default.
• W2006782810 hasConcept C71924100 @default.
• W2006782810 hasConceptScore W2006782810C105702510 @default.
• W2006782810 hasConceptScore W2006782810C115961682 @default.
• W2006782810 hasConceptScore W2006782810C126322002 @default.
• W2006782810 hasConceptScore W2006782810C126838900 @default.
• W2006782810 hasConceptScore W2006782810C154945302 @default.
• W2006782810 hasConceptScore W2006782810C2777714996 @default.
• W2006782810 hasConceptScore W2006782810C2989005 @default.
• W2006782810 hasConceptScore W2006782810C31972630 @default.
• W2006782810 hasConceptScore W2006782810C39300077 @default.
• W2006782810 hasConceptScore W2006782810C41008148 @default.
• W2006782810 hasConceptScore W2006782810C55020928 @default.
• W2006782810 hasConceptScore W2006782810C71924100 @default.
• W2006782810 hasIssue "2" @default.
• W2006782810 hasLocation W20067828101 @default.
• W2006782810 hasLocation W20067828102 @default.
• W2006782810 hasOpenAccess W2006782810 @default.
• W2006782810 hasPrimaryLocation W20067828101 @default.
• W2006782810 hasRelatedWork W1891287906 @default.
• W2006782810 hasRelatedWork W1969923398 @default.
• W2006782810 hasRelatedWork W2036807459 @default.
• W2006782810 hasRelatedWork W2166024367 @default.
• W2006782810 hasRelatedWork W2611645609 @default.
• W2006782810 hasRelatedWork W2748952813 @default.
• W2006782810 hasRelatedWork W2772917594 @default.
• W2006782810 hasRelatedWork W2775347418 @default.
• W2006782810 hasRelatedWork W2899084033 @default.
• W2006782810 hasRelatedWork W3217021205 @default.
• W2006782810 hasVolume "38" @default.
• W2006782810 isParatext "false" @default.
• W2006782810 isRetracted "false" @default.
• W2006782810 magId "2006782810" @default.
• W2006782810 workType "article" @default.