Survey
* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project
Download Imaging Proptosis
Document related concepts
Transcript
Carolyn Kloek HMSIV Gillian Lieberman, MD November 2001 Imaging Proptosis Carolyn Kloek, Harvard Medical School Year IV Gillian Lieberman, MD Carolyn Kloek HMSIV Gillian Lieberman, MD AGENDA • Introduce our patient • Define and review Ddx of proptosis • Review the anatomy of the eye and orbit • Discuss different radiologic studies available for imaging the orbit • Show examples of how these imaging modalities can be used distinguish between different causes of proptosis • Return to our patient 2 Student Name Gillian Lieberman, MD The Patient •50 year old man riding bicycle hit by automobile •Hit head on pavement •Taken to the ED for evaluation •Clinical exam notable for left proptosis; patient states that he has had this “forever” •Head CT without contrast ordered to r/o intracranial bleed 3 Carolyn Kloek HMSIV Gillian Lieberman, MD Definition and Ddx of Proptosis PROPTOSIS: protrusion of the eye with a difference of > 3mm between the two eyes. DIFFERENTIAL DIAGNOSIS OF PROPTOSIS: I. DISORDERS OF EXTRAOCULAR MUSCLES dysthyroid eye disease, rhabdomyosarcoma II. INFECTIVE DISORDERS orbital cellulitis, preseptal cellulitis III. INFLAMMATORY DISEASE orbital pseudotumor IV. VASCULAR ABNORMALITIES carotico-cavernous fistula, AVM, orbital varix V. ORBITAL TUMORS optic nerve gliomas/meningiomas, lymphoma, mets, cavernous hemangioma 4 Carolyn Kloek HMSIV Gillian Lieberman, MD Review of the anatomy of the eye From Robbins Pathologic Basis of Disease. 5 Carolyn Kloek HMSIV Gillian Lieberman, MD Review of the anatomy of the orbit From James, Chew, and Bron. Lecture Notes on Ophthalmology, 8th ed. 6 Carolyn Kloek HMSIV Gillian Lieberman, MD Menu of Imaging Modalities for the Orbit 1. Plain film radiography 2. Ultrasound 3. CT 4. MRI 7 Carolyn Kloek HMSIV Gillian Lieberman, MD Normal Radiograph CALDWELL PROJECTION WATERS PROJECTION Frontal sinus Orbital roof Superior orbital fissure Frontal sinus Inferior orbital rim Maxillary sinus From Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis, 1993. Orbital floor From Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis, 1993. 8 Carolyn Kloek HMSIV Gillian Lieberman, MD Pros/Cons of Radiography PROS CONS ¾Cost-efficient ¾Limited ability to detect changes in tissue density ¾Good for initial evaluation of orbital trauma, esp fractures 9 Carolyn Kloek HMSIV Gillian Lieberman, MD Choose radiograph when: • you want to evaluate bony structure, ex. orbital fracture •You want to evaluate sinus pathology 10 Carolyn Kloek HMSIV Gillian Lieberman, MD Orbital Cellulitis •Infection of orbital soft tissue From Spalton, Hitchings, Hunter, Atlas of Clinical Ophthalmology, 2nd ed. •Often secondary to acute or chronic sinusitis • needs immediate treatment given risk of spread to CNS Air-fluid level in the left frontal sinus From Spalton, Hitchings, Hunter, Atlas of Clinical Ophthalmology, 2nd ed. 11 Carolyn Kloek HMSIV Gillian Lieberman, MD November 2001 Normal Ocular Ultrasound Posterior Anterior Retina Lens Anterior Chamber Posterior Chamber Optic Nerve From Vander, Gault. Ophthalmology Secrets, 1998. 12 Carolyn Kloek HMSIV Gillian Lieberman, MD Pros/Cons of Orbital Ultrasound PROS CONS ¾safe/inexpensive ¾examiner dependent ¾Can detect calcifications ¾good for detection of intraocular foreign bodies, ocular tumors, retinal detachment, vitreous hemorrahge From Newton, Bilaniuk. Radiology of the Eye and Orbit, 1990. 13 Carolyn Kloek HMSIV Gillian Lieberman, MD Choose ultrasound to image the orbit when: • you want to assess the presence or size of an ocular tumor • you want to look for clues to characterize tumor tissue (ex. calcifications) • a patient presents with an orbital process and you want to evaluate the orbit • locate intraocular foreign bodies 14 Carolyn Kloek HMSIV Gillian Lieberman, MD Cavernous Hemangioma • Right Proptosis Most common benign orbital tumor • Vasular orbital tumor, usually intraconal • Affects middle-aged women From Orbit, Eyeballs, and the Lacrimal System, American Academy of Ophthalmology, 1999-2000. • Presents as slowly progressive axial proptosis Anterior Posterior Well circumscribed retrobulbar mass with homogeneous irregular echo From Newton, Bilaniuk. Radiology of the Eye and Orbit, 1990. structure 15 Right Orbital Ultrasound Carolyn Kloek HMSIV Gillian Lieberman, MD Carotico-cavernous fistula •Arteriovenous communication between the carotid arterial system and the cavernous sinus • Can be high flow or low flow From Orbit, Eyeballs, and the Lacrimal System, American Academy of Ophthalmology, 1999-2000. • Secondary to trauma or spontaneous dilated superior ophthalmic vein From Frazier Byrne, Green. Ultrasound of the Eye and Orbit, 1992. 16 Carolyn Kloek HMSIV Gillian Lieberman, MD Normal CT Globe 50% 50% Lateral rectus Optic Nerve From Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis, 1993. Medial rectus Orbital apex 17 Carolyn Kloek HMSIV Gillian Lieberman, MD Pros/Cons of CT for orbital imaging PROS CONS ¾Good for bony pathology/ calcifications ¾Lower cost than MRI ¾Poor for imaging the soft tissues at the orbital apex ¾Always used before MRI in cases of trauma Young woman s/p trauma with proptosis. Intra-ocular metallic From Casper, Chi, Trokel. Orbital Disease, Foreign body Imaging and Analysis, 1993. 18 Carolyn Kloek HMSIV Gillian Lieberman, MD Choose CT to image the orbit when: • you want to evaluate bony pathology • you want to visualize calcifications • the patient is s/p trauma • there is a contra-indication to MRI 19 Carolyn Kloek HMSIV Gillian Lieberman, MD Thyroid Eye Disease From Spalton, Hitchings, Hunter, Atlas of Clinical Ophthalmology, 2nd ed. 80% 20% From Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis, 1993. •Can occur with hyper OR hypo thyroidism • Lymphocytic infiltration of EOM Æ enlarged EOM Æ impaired gaze/proptosis • Can be unilateral or bilateral Enlarged medial/lateral rectus muscles 20 Carolyn Kloek HMSIV Gillian Lieberman, MD Normal MRI T1 (better anatomic detail) T2 (better for detecting pathologic change) LENS GLOBE OPTIC N. ORBITAL FAT From Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis, 1993. EOM From Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis, 1993. 21 Carolyn Kloek HMSIV Gillian Lieberman, MD Pros/Cons of MRI for orbital imaging PROS CONS ¾good soft tissue contrast ¾cost ¾better for vascular and hemorrhagic lesions ¾Difficult to differentiate illdefined lesion ¾Good for work-up of wellcircumscribed lesions 22 Carolyn Kloek HMSIV Gillian Lieberman, MD Choose MRI to image the orbit when: • you suspect an intraocular process involving the optic nerve (meningioma, glioma, etc) • a patient presents with acute onset proptosis and you are unsure of the cause • there is an intraocular tumor and you want to assess whether there has been extraocular extension • there is a contra-indication to CT 23 Carolyn Kloek HMSIV Gillian Lieberman, MD Optic Nerve Glioma •Most often present in children and young adults with unilateral proptosis and decreased visual acuity •usually benign •rarely spreads along optic nerve and invade chiasm •25-50% associated with neurofibromatosis T1 T2 Mass of the optic nerve From Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis, 1993. 24 Carolyn Kloek HMSIV Gillian Lieberman, MD Back to our patientAxial CT without contrast Retrobulbar soft tissue density throughout which are dispersed multiple round high-attenuation foci 25 Carolyn Kloek HMSIV Gillian Lieberman, MD Back to our patientAxial CT without contrast Left middle cerebral artery Large curvilinear region of high attenuation 26 Carolyn Kloek HMSIV Gillian Lieberman, MD Our Patient MRI-Saggital View Dilated veins 27 Carolyn Kloek HMSIV Gillian Lieberman, MD Our Patient MRI- Axial View multiple dilated flow voids within the left sylvian fissure 28 Carolyn Kloek HMSIV Gillian Lieberman, MD Our Patient’s Diagnosis: AVM congenital or acquired vascular lesion Most common form of intracranial hamartoma Usually presents as an ill-defined mass 70% of AVMs symptomatic by second or third decade of life usually present with intracranial bleeds or seizures depending on size Endovascular or surgical treatment according to the location/type of lesion 29 Carolyn Kloek HMSIV Gillian Lieberman, MD Our Patient Our patient refused treatment for this AVM. There was no significant acute trauma related abnormalities. The patient left AMA. 30 Student Name Gillian Lieberman, MD References • • • • • • • Casper, Chi, Trokel. Orbital Disease, Imaging and Analysis. Thieme Medical Publishers, 1993. Frazier Byrne, Green. Ultrasound of the Eye and Orbit. Mosby-Year Book, Inc: 1992. James, Chew, Bron. Lecture Notes on Ophthalmology, 8th edition. Blackwell Science, 1977. Newton, Bilaniuk. Radiology of the Eye and Orbit. Clavadel Press:1990. Spalton, Hitchings, Hunter. Atlas of Clinical Ophthalmology. Gower Medical Publishing, 1984. Vander, Gault. Ophthalmology Secrets. Hanley&Belfus, 1998. Robbins Pathologic Basis of Disease. 31 Student Name Gillian Lieberman, MD Acknowledgements • • • • • • Larry Barbaras Jim Busch, MD Cara Lyn D’amour Ian Dunn Pamela Lepkowski Gillian Lieberman, MD 32 THANK YOU! 33
