1999
DOI: 10.1016/s0033-8389(05)70090-7
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Ct of Soft Tissue Injury and Orbital Fractures

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Cited by 35 publications
(12 citation statements)
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“…Complex orbital rim and fractures of the internal orbital skeleton (orbital walls) are best analysed by high resolution axial CT. MRI usually is not the initial modality for assessment of orbital trauma, but it is helpful in evaluating vascular injuries such as carotid cavernous fistula or post traumatic pseudoaneurysms 10 . Our series had 11 patients with orbital trauma where fractures were clearly delineated on CT where as plain radiographs failed to identify fracture in two patients.…”
Section: Njr I Vol 1 I No 1 I Issue 1 I July-dec 2011mentioning
confidence: 99%
“…Complex orbital rim and fractures of the internal orbital skeleton (orbital walls) are best analysed by high resolution axial CT. MRI usually is not the initial modality for assessment of orbital trauma, but it is helpful in evaluating vascular injuries such as carotid cavernous fistula or post traumatic pseudoaneurysms 10 . Our series had 11 patients with orbital trauma where fractures were clearly delineated on CT where as plain radiographs failed to identify fracture in two patients.…”
Section: Njr I Vol 1 I No 1 I Issue 1 I July-dec 2011mentioning
confidence: 99%
“…Mauriello et al found that an orbital CT scan exposes the patient to 00.2-00.3 Gy. This dosage is similar to orbital series of plain films or a complete head CT scan [6]. Lakits et al found that the radiation dose delivered to the lens is 73.9 mGy for conventional axial and coronal scanning and only 35.4 mGy using helical CT [7].…”
Section: Introductionmentioning
confidence: 81%
“…В то же время несомненными до-стоинствами МРТ является хорошая визуализа-ция мягких тканей, отсутствие лучевой нагрузки, сходная с СКТ возможность получения изображе-ний во всех (аксиальной, корональной, сагитталь-ной, косой) проекциях без изменения положения тела пациента. С учётом вышесказанного ядер-но-магнитный резонанс используется для диагно-стики травматического каротидно-кавернозного соустья [26], поиска неметаллических инородных тел, оценки состояния вершины глазницы, пара-селлярной области и структур задней черепной ямки, а также канальной и внутричерепной части зрительного нерва [3,11,43].…”
Section: Discussionunclassified