FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2005303501> ?p ?o ?g. }

• W2005303501 endingPage "899" @default.
• W2005303501 startingPage "893" @default.
• W2005303501 abstract "PurposeComputed tomography venography (CTV) with three-dimensional reconstruction can provide complementary road maps for varicose vein (VV) surgery. The purpose of this study is to verify the role of CTV in the treatment of VV in terms of advantages and complications.MethodsNinety-four consecutive patients with VV underwent conventional high ligation, stripping, and varicosectomy by a single vascular surgeon in 2007. All patients were evaluated with duplex ultrasound and CTV. Patients with renal dysfunction, allergy to radiocontrast, telangiectasia only, or treated by endovenous laser therapy (EVLT) were excluded from the study. Computed tomography (CT) examination was performed with a 16-Multidetector CT scanner (Siemens, Erlangen, Germany) and 3D images were reconstructed by personal computer-based software (Rapidia, Infinitt, Seoul, Korea). Medical records and the CT images were reviewed retrospectively.ResultsVV surgeries were done in 127 limbs of 94 patients (both in 33, right in 29, and left in 32). There were 56 females and 38 males with the mean age of 57 years (range, 28-79 years). The CEAP classification was C2-3 EpAsPr. Perforators larger than 1 mm near the varicose veins were detected and marked on the CT volume-rendering images. The average numbers of perforators marked by CTV were 12.07 ± 4.27 in each limb. The perforators were evaluated by duplex for the presence of reflux (≥0.5 sec). Mean number of perforators with reflux in each limb was 1.41 ± 1.67, which were ligated during the surgery. Incidental detections of other disease were done in six patients, including uterine myomas, an ovarian cyst, a gallstone, a scrotoal varicocele, and a pes anserine bursitis. Operation was performed with the CTV images on screen. CTV was helpful in designing the operation in most patients. Three-D CTV images of saphenopopliteal junction especially provided thorough understanding of the complex variable anatomy of the lesion. There were no CT-related complications, such as renal dysfunction or allergic reaction.ConclusionsCT venography can provide excellent road map for VV surgery without significant complications. It cannot replace duplex ultrasound, but can provide powerful 3D images for designing operation as well as education and research. Computed tomography venography (CTV) with three-dimensional reconstruction can provide complementary road maps for varicose vein (VV) surgery. The purpose of this study is to verify the role of CTV in the treatment of VV in terms of advantages and complications. Ninety-four consecutive patients with VV underwent conventional high ligation, stripping, and varicosectomy by a single vascular surgeon in 2007. All patients were evaluated with duplex ultrasound and CTV. Patients with renal dysfunction, allergy to radiocontrast, telangiectasia only, or treated by endovenous laser therapy (EVLT) were excluded from the study. Computed tomography (CT) examination was performed with a 16-Multidetector CT scanner (Siemens, Erlangen, Germany) and 3D images were reconstructed by personal computer-based software (Rapidia, Infinitt, Seoul, Korea). Medical records and the CT images were reviewed retrospectively. VV surgeries were done in 127 limbs of 94 patients (both in 33, right in 29, and left in 32). There were 56 females and 38 males with the mean age of 57 years (range, 28-79 years). The CEAP classification was C2-3 EpAsPr. Perforators larger than 1 mm near the varicose veins were detected and marked on the CT volume-rendering images. The average numbers of perforators marked by CTV were 12.07 ± 4.27 in each limb. The perforators were evaluated by duplex for the presence of reflux (≥0.5 sec). Mean number of perforators with reflux in each limb was 1.41 ± 1.67, which were ligated during the surgery. Incidental detections of other disease were done in six patients, including uterine myomas, an ovarian cyst, a gallstone, a scrotoal varicocele, and a pes anserine bursitis. Operation was performed with the CTV images on screen. CTV was helpful in designing the operation in most patients. Three-D CTV images of saphenopopliteal junction especially provided thorough understanding of the complex variable anatomy of the lesion. There were no CT-related complications, such as renal dysfunction or allergic reaction. CT venography can provide excellent road map for VV surgery without significant complications. It cannot replace duplex ultrasound, but can provide powerful 3D images for designing operation as well as education and research." @default.
• W2005303501 created "2016-06-24" @default.
• W2005303501 creator A5007693703 @default.
• W2005303501 creator A5009830100 @default.
• W2005303501 creator A5016366242 @default.
• W2005303501 creator A5043388224 @default.
• W2005303501 creator A5050683992 @default.
• W2005303501 creator A5056992931 @default.
• W2005303501 creator A5056999056 @default.
• W2005303501 creator A5072015543 @default.
• W2005303501 date "2010-04-01" @default.
• W2005303501 modified "2023-10-16" @default.
• W2005303501 title "Role of three-dimensional computed tomography venography as a powerful navigator for varicose vein surgery" @default.
• W2005303501 cites W1876580054 @default.
• W2005303501 cites W2005341293 @default.
• W2005303501 cites W2005638594 @default.
• W2005303501 cites W2006246256 @default.
• W2005303501 cites W2021074188 @default.
• W2005303501 cites W2052178929 @default.
• W2005303501 cites W2055865047 @default.
• W2005303501 cites W2062407996 @default.
• W2005303501 cites W2082340416 @default.
• W2005303501 cites W2139284815 @default.
• W2005303501 cites W2143791414 @default.
• W2005303501 cites W2162415702 @default.
• W2005303501 cites W2171697262 @default.
• W2005303501 cites W2172088717 @default.
• W2005303501 doi "https://doi.org/10.1016/j.jvs.2009.10.117" @default.
• W2005303501 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20347685" @default.
• W2005303501 hasPublicationYear "2010" @default.
• W2005303501 type Work @default.
• W2005303501 sameAs 2005303501 @default.
• W2005303501 citedByCount "26" @default.
• W2005303501 countsByYear W20053035012012 @default.
• W2005303501 countsByYear W20053035012013 @default.
• W2005303501 countsByYear W20053035012016 @default.
• W2005303501 countsByYear W20053035012017 @default.
• W2005303501 countsByYear W20053035012018 @default.
• W2005303501 countsByYear W20053035012019 @default.
• W2005303501 countsByYear W20053035012020 @default.
• W2005303501 countsByYear W20053035012021 @default.
• W2005303501 countsByYear W20053035012022 @default.
• W2005303501 countsByYear W20053035012023 @default.
• W2005303501 crossrefType "journal-article" @default.
• W2005303501 hasAuthorship W2005303501A5007693703 @default.
• W2005303501 hasAuthorship W2005303501A5009830100 @default.
• W2005303501 hasAuthorship W2005303501A5016366242 @default.
• W2005303501 hasAuthorship W2005303501A5043388224 @default.
• W2005303501 hasAuthorship W2005303501A5050683992 @default.
• W2005303501 hasAuthorship W2005303501A5056992931 @default.
• W2005303501 hasAuthorship W2005303501A5056999056 @default.
• W2005303501 hasAuthorship W2005303501A5072015543 @default.
• W2005303501 hasBestOaLocation W20053035011 @default.
• W2005303501 hasConcept C126838900 @default.
• W2005303501 hasConcept C141071460 @default.
• W2005303501 hasConcept C142724271 @default.
• W2005303501 hasConcept C143753070 @default.
• W2005303501 hasConcept C163716698 @default.
• W2005303501 hasConcept C2777475103 @default.
• W2005303501 hasConcept C2778269268 @default.
• W2005303501 hasConcept C2779134260 @default.
• W2005303501 hasConcept C2779480337 @default.
• W2005303501 hasConcept C2780643987 @default.
• W2005303501 hasConcept C2780868729 @default.
• W2005303501 hasConcept C2781347138 @default.
• W2005303501 hasConcept C2989005 @default.
• W2005303501 hasConcept C43270747 @default.
• W2005303501 hasConcept C71924100 @default.
• W2005303501 hasConceptScore W2005303501C126838900 @default.
• W2005303501 hasConceptScore W2005303501C141071460 @default.
• W2005303501 hasConceptScore W2005303501C142724271 @default.
• W2005303501 hasConceptScore W2005303501C143753070 @default.
• W2005303501 hasConceptScore W2005303501C163716698 @default.
• W2005303501 hasConceptScore W2005303501C2777475103 @default.
• W2005303501 hasConceptScore W2005303501C2778269268 @default.
• W2005303501 hasConceptScore W2005303501C2779134260 @default.
• W2005303501 hasConceptScore W2005303501C2779480337 @default.
• W2005303501 hasConceptScore W2005303501C2780643987 @default.
• W2005303501 hasConceptScore W2005303501C2780868729 @default.
• W2005303501 hasConceptScore W2005303501C2781347138 @default.
• W2005303501 hasConceptScore W2005303501C2989005 @default.
• W2005303501 hasConceptScore W2005303501C43270747 @default.
• W2005303501 hasConceptScore W2005303501C71924100 @default.
• W2005303501 hasIssue "4" @default.
• W2005303501 hasLocation W20053035011 @default.
• W2005303501 hasLocation W20053035012 @default.
• W2005303501 hasOpenAccess W2005303501 @default.
• W2005303501 hasPrimaryLocation W20053035011 @default.
• W2005303501 hasRelatedWork W1970021731 @default.
• W2005303501 hasRelatedWork W1993392243 @default.
• W2005303501 hasRelatedWork W2000943393 @default.
• W2005303501 hasRelatedWork W2139284815 @default.
• W2005303501 hasRelatedWork W2385809106 @default.
• W2005303501 hasRelatedWork W2791231276 @default.
• W2005303501 hasRelatedWork W2888002929 @default.
• W2005303501 hasRelatedWork W2966929690 @default.
• W2005303501 hasRelatedWork W3007656576 @default.
• W2005303501 hasRelatedWork W3030864734 @default.

• next