References
- Zilkha A. Computed tomography in facial trauma. Radiology 1982; 114: 545–548
- Kreipke D L, Moss J J, Franco J M, Maves M D, Smith D J. Computed tomography and thin-section tomography in facial trauma. AJR. 1984; 142: 1041–1045
- Kelly J K, Lazo A, Metes J J. Radiology of orbital trauma. Management of Ocular, Orbital and Adnexal Trauma, T C Spoor, F A Nesi. Raven Press, New York, NY 1988; 247–269
- Unger J A. Orbital apex fractures: The contribution of computed tomography. Radiology 1984; 150: 713–717
- Guyon J J, Brant-Zavadzki M, Seiff S R. CT demonstration of optic canal fractures. AJR. 1984; 143: 1031–1034
- Lindahl S. Computed Tomography of intraorbital foreign bodies. Acta Radiologica 1987; 28: 235–240
- Roberts C F, Leehey P J. Intraorbital wood foreign bodies mimicking air at CT. Radiology 1992; 185: 507–508
- Seigel R S, Williams A G, Hutchinson J W, Wolter J R, Arlow T J, Rogers D E. Subperiosteal hematomas of the orbit: Angiographic and computed tomographic diagnosis. Radiology 1982; 143: 711–714
- Koornneef L, Zonneveld F W. The role of direct multiplaner high resolution CT in the assessment and management of orbital trauma. Radiol Clin North Am. 1987; 25: 753–756
- Yamamoto Y, Sakwrai M, Asari S. Towne (half-axial) and semisagittal computed tomography in the evaluation of blow-out fractures of the orbit. J Comput Assist Tomogr. 1983; 7: 306–309
- Rahj ah V A. Wooden orbital foreign body. J Laryngol Otol 1993; 107: 735–736
- Spect C S, Varge J H, Jalali M M, Edelstein J P. Orbito-cranial wooded foreign bodies diagnosed by MRI. Dry wood can be isodense with air and orbital fat by computed tomography. Surv Ophth 1992; 36: 341–344
- Gillespie J E, Isherwood I, Barker G R, Quayle A A. Three dimensional reformations of computed tomography in the assessment of facial trauma. Clin Rad., 38: 523–526
- Tessier P, Hemmy D. Three dimensional imaging in medicine. Scand J Plast Reconstr Surg. 1986; 20: 3–11
- Vannier M W, Marsh J L, Warner J O. Three dimensional CT reconstruction images for craniofacial surgery planning and evaluation. Radiology 1984; 150: 179–184
- Tonami H, Yamamoto I, Matsuda M, Tamamura H, Yokota H, Nakagawa T, et al. Orbital fractures: Surface coil MR imaging. Radiology 1991; 179: 789–794
- Kelly W M, Paglen P G, Pearson J A, San Diego A G, Soloman M A. Ferromagnetism of intraocular foreign bodies causes unilateral blindness after MR study. AJNR. 1986; 7: 243–245
- Otto P M, Otto R A, Virapongse C, Friedman S M, Emerson S, King C P, et al. Screening test for detection of metallic foreign objects in the orbit before magnetic resonance imaging. Invest Radiol. 1992; 27: 308–311
- Byrne S F, Green R L. Trauma and periorbital Disease. Ultrasound of the Eye and Orbit, S F Byrne, R L Green. Mosby-Yearbook, Inc, St Louis, MO 1992; 431–461
- Reshef D S, Osoinig K C, Nerad J A. Diagnosis and intraoperative localization of a deep orbital organic foreign body. Orbit. 1987; 6: 3–15
- Taki W, Handa H, Mikake H, Kobayashi A, Yonekawa Y, Yamamura K. New detachable balloon technique for traumatic carotid cavernous sinus flstulae. AJNR. 1985; 6: 961–964
- Berges O. Color doppler flow imaging of the orbital veins. Acta Ophthalmologica 1992; 204: 55–58
- Lieb E W, Flaharty P M, Ho A, Sergott R C. Color doppler imaging of the eye and orbit, a synopsis of a 400 case experience. Acta Ophthalmologica 1992; 204: 50–54
- Nugent R, Rootman J, Robertson W. Applied investigative. Diseases of the Orbit, J Rootman. Lipincott, Philadelphia, PA 1988; 35–48