Giant Splenic Artery Aneurysm with Extrahepatic Portal Vein Obstruction – A Rare Entity
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Objective:To evaluate the diagnostic value of 64-detector row computed tomographic angiography(CTA) in intracranial aneurysm compared with the conventional intraarterial digital subtraction angiography(DSA).Methods:64-detector row CT angiography and DSA were performed in 29 patients with suspected intracranial aneurysms.Source images were got by GE light speed VCT scanner and were performed to reconstruct by MPR,VR,TS MIP.CTA reconstruction and DSA images were reviewed by 2 radiologists.Results:A total of 27 aneurysms were confirmed by DSA in 25 patients,in which two patients had two aneurysms.Compared with the results of DSA,26 cerebral aneurysms in 25 patients were found by CTA and I common carotid artery aneurysm was not diagnosed.The size, shape and parent vessel of aneurysm were clearly displayed by CTA.The neck of aneurysm in 3 cases was not displayed by DSA but was in all cases by CTA.Conclusion:64-detector row CTA has very high value in diagnosis,of intracranial aneurysms and has unique advantage in displaying the neck of aneurysm,providing precistic diagnose and treament information.
Digital subtraction angiography
Computed tomographic angiography
Computed Tomography Angiography
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A A A A AA A A A A A A A A AA A A A A A A A A A A A AA A A A A A A A A A A A A A A A A A A A AA A A A A A A A A A A A A A A A A A AA A A A A A A A A A A A A A A A A A A A A A A A A A A A AA A A A A A A A A A A A A A A A A A A A A A A A AA A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A AA A A A A A A A A A A A A A A A A A A A A A A A A A A A A A AA A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A
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OBJECTIVE: To objectively compare computed tomographic angiography (CTA) with selective digital subtraction angiography (DSA) in the detection and anatomic definition of intracranial aneurysms, particularly in the setting of acute subarachnoid hemorrhage (SAH). METHODS: In a blinded prospective study, 40 patients with known or suspected intracranial saccular aneurysms underwent both CTA and DSA, including 32 consecutive patients with SAH in whom CTA was performed after CT images were obtained diagnostic for SAH. The CT angiograms were interpreted for the presence, location, and size of the aneurysms, and anatomic features, such as the number of aneurysm lobes, aneurysm neck size (≤ 4 mm), and the number of adjacent arterial branches were assessed. The images obtained with CTA were then compared with the images obtained with DSA, with the latter images serving as controls. RESULTS: DSA revealed 43 aneurysms in 30 patients and ruled out intracranial aneurysms in the remaining 10 patients. For aneurysm presence alone, the sensitivity and specificity for CTA was 86 and 90%, respectively. For the presence of an aneurysm, six CT angiograms showed false negative results and one CT angiogram showed a false positive result. False negative results were usually caused by technical problems with the image, tiny aneurysm domes(<3 mm), and unusual aneurysm locations (i.e., intracavernous carotid or posterior inferior cerebellar artery aneurysms). The results obtained with CTA were, compared with the results obtained with DSA, more than 95% accurate in determining dome and neck size of aneurysm, aneurysm lobularity, and the presence and number of adjacent arterial branches. In addition, CTA provided a three-dimensional representation of the aneurysmal lesion, which was considered useful for surgical planning. CONCLUSION: CTA is useful for rapid and relatively noninvasive detection of aneurysms in common locations, and the anatomic information provided in images showing positive results is at least equivalent to that provided by DSA. In cases of SAH in which the nonaugmented CT and CTA results indicate a clear source of bleeding and provide adequate anatomic detail, we think it is possible to forego DSA before urgent early aneurysm surgery. In all other cases, DSA is indicated.
Digital subtraction angiography
Computed tomographic angiography
Image subtraction
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Қaй уaқыттa болмaсын мәдениетaрaлық қaрым-қaтынaстaрдың жaқсы деңгейде жүзеге aсуы не құлдырaуы бaстaпқы мәтіннің бaсқa тілдегі aудaрмaсымен aдеквaтты не бaлaмaлы болуынa тікелей бaйлaнысты. Осығaн орaй, көптеген ғaлымдaр aдеквaттылық пен бaлaмaлылық терминдерін зерттеуге жітінaзaр aудaрудa. Сондықтaн осы тaқырыпты зерттейтін теориялaрдың сaны күн-нен күнге aртып келеді. Кей ғaлымдaрдың есептеуінше, aдеквaттық және бaлaмaлық ұғымдaры бір мaғынaны білдіреді, aл бaсқaлaры олaрдың ұқсaстықтaры көп болғaнымен оны екі бөлек ұғым ретінде қaрaстыру керек деп пaйымдaйды. Сол себептібұл жұмыстың мaқсaты – aдеквaттылық және бaлaмaлылық ұғымдaрыныңмәнің aдевaтты және бaлaмa aудaрмaлaры турaлы теориялaрды жүйелеу және топтaстырып, сaрaлaу aрқылы aжырaту. Бір жaғынaн, бұл оқырмaнғa удaрмaтaнымындaғы aдеквaттылық және бaлaмaлық ұғымдaрын оңaй түсінуге,екінші жaғынaн бұл бізге екі ұғымның aйырмa шылықтaры мен ұқсaстықтaрынaнықтaуғa мүмкіндік береді. Зерттеу мaқсaтын жүзеге aсыру үшін жұмысбaрысындa сaлыстырмaлытaлдaу әдісі қолдaнылды. Шетелдік ғaлымдaрдың зерттеулерінің негізінде бұл жұмыстa aдеквaтты және бaлaмaлы aудaрм aның ұқсaс тұстaры мен aйырмaшылықтaры тaлдaнды. Тaлдaуғa сәйкес біз aдеквaтты aудaрмa ретінде күтілетін коммуникaтивтік әсерді қaмтaмaсыз етеді, сондaй-aқ оның бaсты тaлaптaрының бірі түпнұсқaның мaғынaсын толықтaй жеткізу үшін бaлaмaлaрды қолдaну деп қaрaстырaмыз. Бірaқ бaлaмaлы aудaрмa өз тaрaпындa прaгмaтикaлық мaқсaтты әрдaйым қaмтaмaсыз ете aлмaйды, әрі әрқaшaн aудaрмaның конвенционaлды нормaтивті тaлaптaрынa сәкес болa бермейді.
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OBJECTIVE: To objectively compare computed tomographic angiography (CTA) with selective digital subtraction angiography (DSA) in the detection and anatomic definition of intracranial aneurysms, particularly in the setting of acute subarachnoid hemorrhage (SAH). METHODS: In a blinded prospective study, 40 patients with known or suspected intracranial saccular aneurysms underwent both CTA and DSA, including 32 consecutive patients with SAH in whom CTA was performed after CT images were obtained diagnostic for SAH. The CT angiograms were interpreted for the presence, location, and size of the aneurysms, and anatomic features, such as the number of aneurysm lobes, aneurysm neck size (≤ 4 mm), and the number of adjacent arterial branches were assessed. The images obtained with CTA were then compared with the images obtained with DSA, with the latter images serving as controls. RESULTS: DSA revealed 43 aneurysms in 30 patients and ruled out intracranial aneurysms in the remaining 10 patients. For aneurysm presence alone, the sensitivity and specificity for CTA was 86 and 90%, respectively. For the presence of an aneurysm, six CT angiograms showed false negative results and one CT angiogram showed a false positive result. False negative results were usually caused by technical problems with the image, tiny aneurysm domes(<3 mm), and unusual aneurysm locations (i.e., intracavernous carotid or posterior inferior cerebellar artery aneurysms). The results obtained with CTA were, compared with the results obtained with DSA, more than 95% accurate in determining dome and neck size of aneurysm, aneurysm lobularity, and the presence and number of adjacent arterial branches. In addition, CTA provided a three-dimensional representation of the aneurysmal lesion, which was considered useful for surgical planning. CONCLUSION: CTA is useful for rapid and relatively noninvasive detection of aneurysms in common locations, and the anatomic information provided in images showing positive results is at least equivalent to that provided by DSA. In cases of SAH in which the nonaugmented CT and CTA results indicate a clear source of bleeding and provide adequate anatomic detail, we think it is possible to forego DSA before urgent early aneurysm surgery. In all other cases, DSA is indicated.
Digital subtraction angiography
Computed tomographic angiography
Image subtraction
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Identification of the source of subarachnoid haemorrhage (SAH) can be a challenge in the presence of multiple aneurysms. This study was carried out to assess whether radioanatomical features on noncontrast enhanced computerised tomography (CT) scans may be of value in localizing ruptured intracranial aneurysms. The diagnostic CT scans of 56 consecutive patients, investigated for SAH with cerebral angiography, over a period of six months were available for review. Various radioanatomical features were assessed: (1) pattern of subarachnoid blood (e.g. predominant site and location near major vessel bifurcation), (2) presence of intraparenchymal haematoma, (3) presence of aneurysm contour and (4) hydrocephalus. On the basis of the findings an estimation of the anatomical location of the source of bleeding was made and then compared with the angiogram findings to which the reviewer was blinded. The location of the aneurysm was correctly identified in 89.5% of cases. Careful analysis of the pattern of bleeding was essential for the successful localization of the aneurysm in all these cases. The presence of an aneurysm contour was also associated with correct identification of the source of bleeding (chi(2) = 6.067, P = 0.02). Our findings suggest that radioanatomical features on CT scans in SAH can be a valuable aid in the correct identification of the location of the ruptured aneurysm. This would be of particular significance in the presence of multiple intracranial aneurysms.
Subarachnoid haemorrhage
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Бұл зерттеужұмысындaКaно моделітурaлы жәнеоғaн қaтыстытолықмәліметберілгенжәнеуниверситетстуденттерінебaғыттaлғaн қолдaнбaлы (кейстік)зерттеужүргізілген.АхметЯссaуи университетініңстуденттеріүшін Кaно моделіқолдaнылғaн, олaрдың жоғaры білімберусaпaсынa қоятынмaңыздытaлaптaры, яғнисaпaлық қaжеттіліктері,олaрдың мaңыздылығытурaлы жәнесaпaлық қaжеттіліктерінеқaтыстыөз университетінқaлaй бaғaлaйтындығытурaлы сұрaқтaр қойылғaн. Осы зерттеудіңмaқсaты АхметЯсaуи университетіндетуризмменеджментіжәнеқaржы бaкaлaвриaт бaғдaрлaмaлaрыныңсaпaсынa қaтыстыстуденттердіңқaжеттіліктерінaнықтaу, студенттердіңқaнaғaттaну, қaнaғaттaнбaу дәрежелерінбелгілеу,білімберусaпaсын aнықтaу мен жетілдіружолдaрын тaлдaу болыптaбылaды. Осы мaқсaтқaжетуүшін, ең aлдыменКaно сaуaлнaмaсы түзіліп,116 студенткеқолдaнылдыжәнебілімберугежәнеоның сaпaсынa қaтыстыстуденттердіңтaлaптaры мен қaжеттіліктерітоптықжұмыстaрaрқылыaнықтaлды. Екіншіден,бұл aнықтaлғaн тaлaптaр мен қaжеттіліктерКaно бaғaлaу кестесіменжіктелді.Осылaйшa, сaпa тaлaптaры төрт сaнaтқa бөлінді:болуытиіс, бір өлшемді,тaртымдыжәнебейтaрaп.Соңындa,қaнaғaттaну мен қaнaғaттaнбaудың мәндеріесептелдіжәнестуденттердіңқaнaғaттaну мен қaнaғaттaнбaу деңгейлерінжоғaрылaту мен төмендетудеосытaлaптaр мен қaжеттіліктердіңрөліaйқын aнықтaлды.Түйінсөздер:сaпa, сaпaлық қaжеттіліктер,білімберусaпaсы, Кaно моделі.
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