FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2101915274> ?p ?o ?g. }

• W2101915274 endingPage "296" @default.
• W2101915274 startingPage "295" @default.
• W2101915274 abstract "Mediastinal bronchial artery aneurysms are uncommon, with fewer than 40 published case reports (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 2Zhang L.J. Yang G.F. Lu G.M. Noninvasive diagnosis of bronchial artery aneurysm using dual-source computed tomography angiography.Acta Radiol. 2008; 49: 291-294Crossref PubMed Scopus (13) Google Scholar). Presentation is varied, ranging from an incidental imaging finding to hemomediastinum and shock resulting from aneurysm rupture. Rupture can occur with a bronchial artery aneurysm of any size, so prompt treatment is indicated upon diagnosis. Current treatment options include surgical resection, transarterial embolization, and stent-grafting with subsequent percutaneous embolization of feeding vessels. We report a case of an asymptomatic 53-year-old man in whom a mediastinal bronchial artery aneurysm was incidentally discovered on computed tomography (CT) of the chest. The aneurysm and its branches were successfully coil-embolized via a transarterial approach. The case description is as follows.A 53-year-old man underwent a screening CT examination of the chest in the context of a testicular mass that was ultimately deemed benign. The CT scan revealed a 12-mm-diameter aneurysm arising from a 1–2-mm neck from the aorta (Figure, a–c). A short bronchial artery trunk emanated from the superior aspect of the aneurysm sac before bifurcating into left and right bronchial arteries. The patient was asymptomatic with no history of pulmonary infection or trauma or CT evidence of atherosclerosis. Of note, the patient's medical history was significant for non-Hodgkin lymphoma, which had been successfully treated with stem cell transplantation 10 years earlier. He received no radiation therapy.After written informed consent was obtained, the patient underwent treatment of the bronchial artery aneurysm by coil embolization. A bronchial artery angiogram was obtained from a right common femoral artery punctured with an 18-gauge, 7-cm needle (Cook, Bloomington, Indiana). A 6-F vascular sheath (Terumo, Tokyo, Japan) was inserted into the artery over a Bentsen guide wire (Cook). A 5-F Sos catheter (Angiodynamics, Queensbury, New York) was used to select the bronchial artery and an angiogram was obtained with use of Omnipaque contrast medium (Amersham, Princeton, New Jersey; Figure). A bronchial artery aneurysm arising from the trunk was identified. The spinal artery did not arise from the bronchial artery or its branches. A 2.6-F Turbo Tracker microcatheter (Boston Scientific, Natick, Massachusetts) was advanced through the Sos catheter into the left bronchial artery. Coil embolization was carefully performed with a combination of 3- and 4-mm Nester and Tornado coils (Cook) until the artery distal to the coils was occluded (Figure). Next, the right bronchial artery was selected and coil embolization was performed in a similar fashion. Branches were coil-embolized in a similar fashion. Finally, coils were placed across into the aneurysm sac itself. After the last coil was placed, repeat angiography demonstrated cessation of flow within the bronchial arterial branches with only a minimal amount of contrast medium opacification of the aneurysm sac. The sheath was removed and hemostasis was obtained. The patient was admitted overnight for observation and discharged the next day.The patient returned 3 months after the embolization for a follow-up evaluation. A CT angiogram of the thorax was obtained, which demonstrated that the aneurysm remained thrombosed.Three months after the embolization, the patient returned for a follow-up evaluation. Transesophageal echocardiography was performed, demonstrating complete thrombosis of the aneurysm sac. The thrombosed aneurysm was unchanged in size.Bronchial artery aneurysms are divided based on their anatomic location as mediastinal or intrapulmonary (3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar). In general, bronchial artery aneurysms are uncommon, with a reported incidence of less than 1% based on selective bronchial angiograms (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar). The subset of bronchial artery aneurysms occurring within the mediastinum are even more uncommon, as there are fewer than 40 published case reports (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 2Zhang L.J. Yang G.F. Lu G.M. Noninvasive diagnosis of bronchial artery aneurysm using dual-source computed tomography angiography.Acta Radiol. 2008; 49: 291-294Crossref PubMed Scopus (13) Google Scholar).Myriad predisposing conditions have been described in the setting of bronchial artery aneurysm, including bronchiectasis, atherosclerosis trauma, radiation therapy, mycotic infection, and Osler–Weber–Rendu syndrome. Interestingly, in approximately one quarter of described cases, no predisposing etiology could be identified (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar). One author (3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar) has hypothesized that these etiologies result in a common pathway of increased blood flow through the bronchial arteries and/or focal weakening of the arterial wall, which leads to aneurysm formation.Most cases present with hemoptysis or pain resulting from mass effect or hemorrhage. Hemodynamic compromise can occur in the setting of rupture (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar). CT imaging is the diagnostic modality of choice. Because of increased use of cross-sectional imaging, mediastinal bronchial artery aneurysms are now being diagnosed not only in symptomatic patients, but also as incidental findings in the asymptomatic populace (2Zhang L.J. Yang G.F. Lu G.M. Noninvasive diagnosis of bronchial artery aneurysm using dual-source computed tomography angiography.Acta Radiol. 2008; 49: 291-294Crossref PubMed Scopus (13) Google Scholar, 4Wilson S.R. Winger D.I. Katz D.S. CT visualization of mediastinal bronchial artery aneurysm.AJR Am J Roentgenol. 2006; 187: W544-W545Crossref PubMed Scopus (19) Google Scholar, 5Lin J. Wood D.E. Bronchial artery aneurysm refractory to transcatheter embolization.Ann Thorac Surg. 2008; 86: 306-308Abstract Full Text Full Text PDF PubMed Scopus (14) Google Scholar, 6Kasashima F. Endo M. Kosugi I. et al.Mediastinal bronchial artery aneurysm treated with a stent-graft.J Endovasc Ther. 2003; 10: 381-385Crossref PubMed Scopus (23) Google Scholar, 7Kalva S.P. Wicky S. Mediastinal bronchial artery aneurysms: endovascular therapy in two patients.Catheter Cardiovasc Interv. 2006; 68: 858-861Crossref PubMed Scopus (10) Google Scholar).Treatment is generally indicated on diagnosis because the first presenting symptom(s) may be a result of rupture. In addition, reported cases do not show a size threshold below which mediastinal bronchial artery aneurysms can be safely observed (8Fukunaga A. Okushiba S. Ohno K. et al.Mediastinal bronchial artery aneurysm with hematemesis.Dis Esophagus. 2003; 16: 328-331Crossref PubMed Scopus (23) Google Scholar, 9Sanchez E. Alados P. Zurera L. et al.Bronchial artery aneurysm treated with aortic stent graft and fibrin sealant.Ann Thorac Surg. 2007; 83: 693-695Abstract Full Text Full Text PDF PubMed Scopus (22) Google Scholar). Initial treatment efforts relied on surgical resection from midline or lateral thoracotomy. Increasingly, transarterial embolization has been employed as a treatment method, often with similar efficacy as surgery, but with decreased morbidity. One of the limitations of transarterial embolization is spontaneous recanalization of previously occluded vessels. In this scenario, repeat embolization or surgical resection should be performed (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar). It may be difficult to safely perform transarterial embolization of bronchial artery aneurysms that arise directly from the aorta with little or no neck. This anatomic challenge may be overcome by the use of detachable coils, which can be optimally positioned before deployment or by anchoring “pushable” coils in smaller branch arteries emanating from the aneurysm sac. Recently, thoracic stent-grafting in conjunction with percutaneous embolization has been used to treat mediastinal bronchial artery aneurysms not anatomically suitable for embolization alone (9Sanchez E. Alados P. Zurera L. et al.Bronchial artery aneurysm treated with aortic stent graft and fibrin sealant.Ann Thorac Surg. 2007; 83: 693-695Abstract Full Text Full Text PDF PubMed Scopus (22) Google Scholar, 10Sakai T. Razavi M.K. Semba C.P. Kee S.T. Sze D.Y. Dake M.D. Percutaneous treatment of bronchial artery aneurysm with use of transcatheter coil embolization and thoracic aortic stent-graft placement.J Vasc Interv Radiol. 1998; 9: 1025-1028Abstract Full Text PDF PubMed Scopus (28) Google Scholar). Mediastinal bronchial artery aneurysms are uncommon, with fewer than 40 published case reports (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 2Zhang L.J. Yang G.F. Lu G.M. Noninvasive diagnosis of bronchial artery aneurysm using dual-source computed tomography angiography.Acta Radiol. 2008; 49: 291-294Crossref PubMed Scopus (13) Google Scholar). Presentation is varied, ranging from an incidental imaging finding to hemomediastinum and shock resulting from aneurysm rupture. Rupture can occur with a bronchial artery aneurysm of any size, so prompt treatment is indicated upon diagnosis. Current treatment options include surgical resection, transarterial embolization, and stent-grafting with subsequent percutaneous embolization of feeding vessels. We report a case of an asymptomatic 53-year-old man in whom a mediastinal bronchial artery aneurysm was incidentally discovered on computed tomography (CT) of the chest. The aneurysm and its branches were successfully coil-embolized via a transarterial approach. The case description is as follows. A 53-year-old man underwent a screening CT examination of the chest in the context of a testicular mass that was ultimately deemed benign. The CT scan revealed a 12-mm-diameter aneurysm arising from a 1–2-mm neck from the aorta (Figure, a–c). A short bronchial artery trunk emanated from the superior aspect of the aneurysm sac before bifurcating into left and right bronchial arteries. The patient was asymptomatic with no history of pulmonary infection or trauma or CT evidence of atherosclerosis. Of note, the patient's medical history was significant for non-Hodgkin lymphoma, which had been successfully treated with stem cell transplantation 10 years earlier. He received no radiation therapy. After written informed consent was obtained, the patient underwent treatment of the bronchial artery aneurysm by coil embolization. A bronchial artery angiogram was obtained from a right common femoral artery punctured with an 18-gauge, 7-cm needle (Cook, Bloomington, Indiana). A 6-F vascular sheath (Terumo, Tokyo, Japan) was inserted into the artery over a Bentsen guide wire (Cook). A 5-F Sos catheter (Angiodynamics, Queensbury, New York) was used to select the bronchial artery and an angiogram was obtained with use of Omnipaque contrast medium (Amersham, Princeton, New Jersey; Figure). A bronchial artery aneurysm arising from the trunk was identified. The spinal artery did not arise from the bronchial artery or its branches. A 2.6-F Turbo Tracker microcatheter (Boston Scientific, Natick, Massachusetts) was advanced through the Sos catheter into the left bronchial artery. Coil embolization was carefully performed with a combination of 3- and 4-mm Nester and Tornado coils (Cook) until the artery distal to the coils was occluded (Figure). Next, the right bronchial artery was selected and coil embolization was performed in a similar fashion. Branches were coil-embolized in a similar fashion. Finally, coils were placed across into the aneurysm sac itself. After the last coil was placed, repeat angiography demonstrated cessation of flow within the bronchial arterial branches with only a minimal amount of contrast medium opacification of the aneurysm sac. The sheath was removed and hemostasis was obtained. The patient was admitted overnight for observation and discharged the next day. The patient returned 3 months after the embolization for a follow-up evaluation. A CT angiogram of the thorax was obtained, which demonstrated that the aneurysm remained thrombosed. Three months after the embolization, the patient returned for a follow-up evaluation. Transesophageal echocardiography was performed, demonstrating complete thrombosis of the aneurysm sac. The thrombosed aneurysm was unchanged in size. Bronchial artery aneurysms are divided based on their anatomic location as mediastinal or intrapulmonary (3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar). In general, bronchial artery aneurysms are uncommon, with a reported incidence of less than 1% based on selective bronchial angiograms (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar). The subset of bronchial artery aneurysms occurring within the mediastinum are even more uncommon, as there are fewer than 40 published case reports (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 2Zhang L.J. Yang G.F. Lu G.M. Noninvasive diagnosis of bronchial artery aneurysm using dual-source computed tomography angiography.Acta Radiol. 2008; 49: 291-294Crossref PubMed Scopus (13) Google Scholar). Myriad predisposing conditions have been described in the setting of bronchial artery aneurysm, including bronchiectasis, atherosclerosis trauma, radiation therapy, mycotic infection, and Osler–Weber–Rendu syndrome. Interestingly, in approximately one quarter of described cases, no predisposing etiology could be identified (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar). One author (3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar) has hypothesized that these etiologies result in a common pathway of increased blood flow through the bronchial arteries and/or focal weakening of the arterial wall, which leads to aneurysm formation. Most cases present with hemoptysis or pain resulting from mass effect or hemorrhage. Hemodynamic compromise can occur in the setting of rupture (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar, 3Hoffmann V. Ysebaert D. De Schepper A. Colpaert C. Jorens P. Acute superior vena cava obstruction after rupture of a bronchial artery aneurysm.Chest. 1996; 110: 1356-1358Crossref PubMed Scopus (28) Google Scholar). CT imaging is the diagnostic modality of choice. Because of increased use of cross-sectional imaging, mediastinal bronchial artery aneurysms are now being diagnosed not only in symptomatic patients, but also as incidental findings in the asymptomatic populace (2Zhang L.J. Yang G.F. Lu G.M. Noninvasive diagnosis of bronchial artery aneurysm using dual-source computed tomography angiography.Acta Radiol. 2008; 49: 291-294Crossref PubMed Scopus (13) Google Scholar, 4Wilson S.R. Winger D.I. Katz D.S. CT visualization of mediastinal bronchial artery aneurysm.AJR Am J Roentgenol. 2006; 187: W544-W545Crossref PubMed Scopus (19) Google Scholar, 5Lin J. Wood D.E. Bronchial artery aneurysm refractory to transcatheter embolization.Ann Thorac Surg. 2008; 86: 306-308Abstract Full Text Full Text PDF PubMed Scopus (14) Google Scholar, 6Kasashima F. Endo M. Kosugi I. et al.Mediastinal bronchial artery aneurysm treated with a stent-graft.J Endovasc Ther. 2003; 10: 381-385Crossref PubMed Scopus (23) Google Scholar, 7Kalva S.P. Wicky S. Mediastinal bronchial artery aneurysms: endovascular therapy in two patients.Catheter Cardiovasc Interv. 2006; 68: 858-861Crossref PubMed Scopus (10) Google Scholar). Treatment is generally indicated on diagnosis because the first presenting symptom(s) may be a result of rupture. In addition, reported cases do not show a size threshold below which mediastinal bronchial artery aneurysms can be safely observed (8Fukunaga A. Okushiba S. Ohno K. et al.Mediastinal bronchial artery aneurysm with hematemesis.Dis Esophagus. 2003; 16: 328-331Crossref PubMed Scopus (23) Google Scholar, 9Sanchez E. Alados P. Zurera L. et al.Bronchial artery aneurysm treated with aortic stent graft and fibrin sealant.Ann Thorac Surg. 2007; 83: 693-695Abstract Full Text Full Text PDF PubMed Scopus (22) Google Scholar). Initial treatment efforts relied on surgical resection from midline or lateral thoracotomy. Increasingly, transarterial embolization has been employed as a treatment method, often with similar efficacy as surgery, but with decreased morbidity. One of the limitations of transarterial embolization is spontaneous recanalization of previously occluded vessels. In this scenario, repeat embolization or surgical resection should be performed (1Tanaka K. Ihaya A. Horiuci T. et al.Giant mediastinal bronchial artery aneurysm mimicking benign esophageal tumor: a case report and review of 26 cases from literature.J Vasc Surg. 2003; 38: 1125-1129Abstract Full Text Full Text PDF PubMed Scopus (61) Google Scholar). It may be difficult to safely perform transarterial embolization of bronchial artery aneurysms that arise directly from the aorta with little or no neck. This anatomic challenge may be overcome by the use of detachable coils, which can be optimally positioned before deployment or by anchoring “pushable” coils in smaller branch arteries emanating from the aneurysm sac. Recently, thoracic stent-grafting in conjunction with percutaneous embolization has been used to treat mediastinal bronchial artery aneurysms not anatomically suitable for embolization alone (9Sanchez E. Alados P. Zurera L. et al.Bronchial artery aneurysm treated with aortic stent graft and fibrin sealant.Ann Thorac Surg. 2007; 83: 693-695Abstract Full Text Full Text PDF PubMed Scopus (22) Google Scholar, 10Sakai T. Razavi M.K. Semba C.P. Kee S.T. Sze D.Y. Dake M.D. Percutaneous treatment of bronchial artery aneurysm with use of transcatheter coil embolization and thoracic aortic stent-graft placement.J Vasc Interv Radiol. 1998; 9: 1025-1028Abstract Full Text PDF PubMed Scopus (28) Google Scholar)." @default.
• W2101915274 created "2016-06-24" @default.
• W2101915274 creator A5016679095 @default.
• W2101915274 creator A5068512231 @default.
• W2101915274 creator A5080641199 @default.
• W2101915274 date "2010-02-01" @default.
• W2101915274 modified "2023-09-27" @default.
• W2101915274 title "Successful Coil Embolization of Mediastinal Bronchial Artery Aneurysm" @default.
• W2101915274 cites W1992617072 @default.
• W2101915274 cites W2014046455 @default.
• W2101915274 cites W2014516954 @default.
• W2101915274 cites W2018540204 @default.
• W2101915274 cites W2036430496 @default.
• W2101915274 cites W2036787566 @default.
• W2101915274 cites W2052621610 @default.
• W2101915274 cites W2074130682 @default.
• W2101915274 cites W2133666311 @default.
• W2101915274 cites W4238915338 @default.
• W2101915274 doi "https://doi.org/10.1016/j.jvir.2009.10.030" @default.
• W2101915274 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4492296" @default.
• W2101915274 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20123213" @default.
• W2101915274 hasPublicationYear "2010" @default.
• W2101915274 type Work @default.
• W2101915274 sameAs 2101915274 @default.
• W2101915274 citedByCount "16" @default.
• W2101915274 countsByYear W21019152742014 @default.
• W2101915274 countsByYear W21019152742015 @default.
• W2101915274 countsByYear W21019152742016 @default.
• W2101915274 countsByYear W21019152742017 @default.
• W2101915274 countsByYear W21019152742018 @default.
• W2101915274 countsByYear W21019152742020 @default.
• W2101915274 countsByYear W21019152742021 @default.
• W2101915274 countsByYear W21019152742022 @default.
• W2101915274 crossrefType "journal-article" @default.
• W2101915274 hasAuthorship W2101915274A5016679095 @default.
• W2101915274 hasAuthorship W2101915274A5068512231 @default.
• W2101915274 hasAuthorship W2101915274A5080641199 @default.
• W2101915274 hasBestOaLocation W21019152742 @default.
• W2101915274 hasConcept C119599485 @default.
• W2101915274 hasConcept C126838900 @default.
• W2101915274 hasConcept C127413603 @default.
• W2101915274 hasConcept C2776035437 @default.
• W2101915274 hasConcept C2776098176 @default.
• W2101915274 hasConcept C2780977465 @default.
• W2101915274 hasConcept C30403606 @default.
• W2101915274 hasConcept C71924100 @default.
• W2101915274 hasConceptScore W2101915274C119599485 @default.
• W2101915274 hasConceptScore W2101915274C126838900 @default.
• W2101915274 hasConceptScore W2101915274C127413603 @default.
• W2101915274 hasConceptScore W2101915274C2776035437 @default.
• W2101915274 hasConceptScore W2101915274C2776098176 @default.
• W2101915274 hasConceptScore W2101915274C2780977465 @default.
• W2101915274 hasConceptScore W2101915274C30403606 @default.
• W2101915274 hasConceptScore W2101915274C71924100 @default.
• W2101915274 hasIssue "2" @default.
• W2101915274 hasLocation W21019152741 @default.
• W2101915274 hasLocation W21019152742 @default.
• W2101915274 hasLocation W21019152743 @default.
• W2101915274 hasLocation W21019152744 @default.
• W2101915274 hasOpenAccess W2101915274 @default.
• W2101915274 hasPrimaryLocation W21019152741 @default.
• W2101915274 hasRelatedWork W1969496678 @default.
• W2101915274 hasRelatedWork W1985852950 @default.
• W2101915274 hasRelatedWork W2036430496 @default.
• W2101915274 hasRelatedWork W2110090842 @default.
• W2101915274 hasRelatedWork W2167369865 @default.
• W2101915274 hasRelatedWork W2168560825 @default.
• W2101915274 hasRelatedWork W2334013324 @default.
• W2101915274 hasRelatedWork W2385498313 @default.
• W2101915274 hasRelatedWork W2394152547 @default.
• W2101915274 hasRelatedWork W4322746938 @default.
• W2101915274 hasVolume "21" @default.
• W2101915274 isParatext "false" @default.
• W2101915274 isRetracted "false" @default.
• W2101915274 magId "2101915274" @default.
• W2101915274 workType "article" @default.