Orbital Bands/Accessory Extraocular Muscles

Slides:

Advertisements

Similar presentations

MAGNETIC RESONANCE IMAGING OF CYSTIC KNEE LESIONS M. GONGI, W

Advertisements

Robert P. Rutstein, OD Claudio Busettini, PhD.

The “Guitar Pick” Sign: An expanding repertoire of orbital pathology Vincent Dam MD, Joel Stein MD, PhD, Suyash Mohan MD Department of Radiology Perelman.

Sponge: Set up Cornell Notes on pg. 71 Topic: 12.6: Visual Accessory Organs of the Eye Essential Questions: 1.What is the function of the lacrimal apparatus?

E Ure, Y Kayadibi, D Tekcan Sanli, Z I Hasiloglu

Padmaja Sudhakar MD Asst Professor Neurology University of Kentucky

Presentation # : eP-128 A Novel Imaging Measurement Identifying Patients with Orbital Floor Fracture Requiring Surgical Repair Taheri, MR1; Rudolph, M2;

Do Now Research the following diseases and give a sentence summarizing them Glaucoma Conjunctivitis “Floaters” Corneal Abrasion Astigmatism Night vision.

From: Magnetic Resonance Imaging of Optic Nerve Traction During Adduction in Primary Open-Angle Glaucoma With Normal Intraocular Pressure Invest. Ophthalmol.

The extraocular muscles are the six muscles that control movement of the eye and one muscle that controls eyelid elevation (levator.

In Pediatric Patients with Hypoplastic Internal Auditory Canals, What is the Utility of Thin-Section T2-Weighted Imaging to Determine the Contents of.

From: Palisade Endings Are a Constant Feature in the Extraocular Muscles of Frontal-Eyed, But Not Lateral-Eyed, Animals Invest. Ophthalmol. Vis. Sci..

Cerebral Lipiodol Embolism following Lymphatic Embolization for Plastic Bronchitis: Utility of Dual Energy CT Arastoo Vossough, M.D., Ph.D. Matthew P.

Bilateral Injuries to the Triangle of Guillain-Mollaret

STRABISMUS JOURNAL CLUB

A Case Presentation and Review of Imaging Features

THYROID EYE DISEASE 1. Soft tissue involvement 2. Eyelid retraction

Anatomy and function of extraocular muscles

Strabismus Surgery and the Late Elderly

Acquired cochlear nerve deficiency in a 14-year-old patient with hearing loss after meningococcal meningitis at the age of 6 months (patient A3). Acquired.

Patient 2. Patient 2. A, An axial T1-weighted postcontrast image with fat saturation (600/13/2) demonstrates an irregular mass centered at the right cerebellopontine.

A 30-year-old man with PSA

A–E, Axial contrast-enhanced CT scans, from superior to inferior.

Imaging Anatomy and Pathology of Extraocular Muscles in Adults

A, Brachial neuritis with long thoracic nerve neuritis.

Subsidence of LT-CAGE devices at L5–S1.

Thirty-five year-old male bilateral proptosis.

The Orbit, Orbital Contents and Cranial Nerves III, IV and VI

Sectional Anatomy Lesson 2 Topic 1 Cranium and Facial Bones

Extraocular Muscle Compartments in Superior Oblique Palsy

Patient 1. Patient 1. A, An axial T1-weighted postcontrast image with fat saturation (600/13/2 [TR/TE/excitations]) demonstrates asymmetrical enhancement.

A–C, Case 5. A–C, Case 5. Axial CT images at 1 month after birth show bilateral frontal and parietal calcifications (arrows). D–F, These calcifications.

Accessory salivary tissue has a variable appearance and location in the oral cavity. Accessory salivary tissue has a variable appearance and location in.

Case 1, extranodal orbital involvement in Rosai-Dorfman disease.

Patient 12. Patient 12. Both readers missed a defect found at endoscopy. Coronal MPR image from mm axial dataset missed a subtle defect of the right.

A, Sagittal T2WI MR image demonstrates a typical intraspinal extramedullary arachnoid cyst. A, Sagittal T2WI MR image demonstrates a typical intraspinal.

Contrast-enhanced fat-suppressed T1-weighted MR images obtained through the orbits show diffuse homogeneous thickening of the medial, lateral, and inferior.

MR images from the case of a 9-year-old male patient with IIH without papilledema. MR images from the case of a 9-year-old male patient with IIH without.

Coronal (A, B) and sagittal (D) sections of MIP reformations of a MDCTA performed on a 4-row-detector system in a 54-year old woman (patient 10) with an.

Intracranial hypertension in a 30-year-old woman presenting with headaches and tinnitus. Intracranial hypertension in a 30-year-old woman presenting with.

A 15-month-old girl with a history of trauma and type 1 CPC

Rectus Extraocular Muscle Size and Pulley Location in Concomitant and Pattern Exotropia Hao, Rui, et al. "Rectus extraocular muscle size and pulley location.

Aberrant course of the ICA in a 25-year-old man presenting with pulsatile tinnitus. Aberrant course of the ICA in a 25-year-old man presenting with pulsatile.

A and B, Axial and coronal high-resolution CT images of the larynx in a 73-year-old patient with papillary thyroid cancer and left vocal cord paralysis.

Bony cochlear nerve canal atresia in a patient with CND

Patient 10. Patient 10. A, Coronal high-resolution CT scan, obtained through the sphenoid sinus, shows a defective intersphenoid septum deviated to the.

Coronal (A), axial (B), and right parasagittal (C) CT images in a 58-year-old man show bilateral protrusion of the IOC into the maxillary sinus. Coronal.

Axial (A and B) and sagittal (C) T2-weighted MR images reveal synovial cysts at L4–5 bilaterally, causing severe central canal stenosis in a patient with.

Two different cases of FNS, both coronal plane bone algorithm CT images show significant enlargement of the tympanic segment of the facial nerve with the.

Axial T1WI (A) image shows a hyperintense mass in the anterior part of the vitreous (V), adjacent to the ciliary body (CB) on either side of the lens,

Selected MR images obtained through the brain and orbits 3. 0 and 2

A 17-year-old boy with right papilledema and orbital pain and rule out pseudotumor. A 17-year-old boy with right papilledema and orbital pain and rule.

A 58-year-old woman with positional headaches and tinnitus.

Coronal postcontrast T1-weighted image of the orbits in patient 1 demonstrates a heterogeneously enhancing ovoid lesion involving the right medial rectus.

Axial contrast-enhanced CT scan shows bilateral facial soft-tissue tumor infiltration, bilateral enlarged middle cranial fossae (arrowheads), bilateral.

Congenital absence of the cochlear nerve with an isolated cochlea.

Contrast-agent–enhanced T1-weighted MR images (700/15) obtained in a 71-year-old man with skin cancer, who had TMJ tenderness and discomfort in the left.

A, Sagittal T1-weighted image demonstrates a mildly hypointense well-defined mass arising from the posterior aspect of the tongue abutting the inferior.

Axial CT scan shows decalcification of sphenoid bone (arrowheads) adjacent to neurofibroma infiltration of the lateral rectus muscle (arrows) in the absence.

Axial T2-weighted image (A) demonstrates focal cortical dysplasia (arrow) centered in the left anterior temporal lobe in a right-handed patient. Axial.

Case 2.A, CT image from case 2, showing a small soft tissue mass at the apex of the right orbit (arrow). Case 2.A, CT image from case 2, showing a small.

A, Postcontrast T1-weighted MR image of the brain during metastatic work-up demonstrates no metastatic disease. A, Postcontrast T1-weighted MR image of.

37-year-old woman with right upper lid lesion of 1 year's duration, located mainly in its medial aspect. 37-year-old woman with right upper lid lesion.

Eastern Ophthalmic Pathology Society September 13-15, 2018

A, Sagittal T1-weighted, contrast-enhanced, fat-suppressed MR image shows infiltration of the superior extraconal space (small asterisk), superior rectus.

Patient 16: gestational-week fetus.

Consecutive cranial to caudal axial T2-weighted MR images demonstrate L4 and L5 nerve root anatomy. Consecutive cranial to caudal axial T2-weighted MR.

Case 2. Case 2. A, Coronal unenhanced T1-weighted image through the base of the skull. The left pterygopalatine fossa appears infiltrated by soft tissue.

MRN appearance of a normal sciatic nerve.

Papillary thyroid cancer.

Presentation transcript:

Orbital Bands/Accessory Extraocular Muscles B Kightlinger1, E Saraf Lavi1, C Sidani1, A Sneider1 1University of Miami Miller School of Medicine, Miami, FL We present 7 cases of orbital bands. All were believed to be unrelated to the patient's presenting symptoms. Reasons for initial imaging evaluation include Thyroid orbitopathy, trauma, sinusitis, papilledema, esotropia, and orbital neoplasm. Six of our cases involve bands that bridge the superior and inferior rectus muscles. One case revealed bilateral bands that extended from the inferior rectus muscles and attached to the temporal aspect of the globes. Five of the cases were found on MRI, two on CT. Bilateral bands were seen in 4 cases, unilateral in 3 cases. Orbital bands on imaging are found to be isodense and isotense to normal EOM on CT and MRI respectively. They are often smaller in bulk than normal EOM. Orbital bands should not be confused with the normal lateral rectus-superior rectus band (LR-SR) or the lateral levator aponeurosis (LLA) connecting the levator muscle to the lacrimal gland. Degeneration of the LR-SR has been implicated with two forms of strabismus, heavy eye syndrome and sagging eye syndrome. Purpose: Orbital bands and accessory extraocular muscles (EOM) have rarely been described in the neuroradiology literature. We discuss the various forms of these anatomic variants, their imaging appearance, clinical significance, and imaging pitfalls. Approach/Methods: Seven patients with orbital bands/accessory EOM seen on MRI/CT orbits were retrospectively reviewed from 2011 to 2014 from a single institution SR-LPS SR BAND ON MR LR LR MR IR IR IR BAND SR IR IR F Table 1. Case No. Age (yrs) Sex Clinical Indication Eye Band Course Modality 1 52 F Thyroid Orbitopathy R SR-IR CT 2 33 M Trauma B/L MR 3 22 Sinusitis 4 14 Papilledema 5 39 Esotropia 6 53 L 7 56 Orbital Neoplasm IR-Globe ON BAND BAND BAND Figure 4. Coronal and axial T1W MR Orbits with band connecting from the inferior rectus to the inferior globe. (IR: Inferior Rectus; LR: Lateral Rectus; MR: Medial Rectus; SR-LPS: Superior Rectus-Levator Palpebrae Superioris) IR Figure 2. Coronal and sagittal CT Orbits in a patient with thyroid orbitopathy unilateral right orbital band connecting superior and inferior recti. Note enlarged right medial rectus muscle. (IR: Inferior Rectus; LR: Lateral Rectus; MR: Medial Rectus; ON: Optic Nerve; SR: Superior Rectus) Summary/Conclusion: Orbital bands or accessory EOM are a rarely reported entity where there exists an abnormal connection of tissue bridging EOM and/or the globes. While many patients with orbital bands have no visual symptoms, they have a higher prevalence in people suffering from strabismus among other conditions. Awareness of orbital bands by radiologists will improve their detection, guide surgeons in their anatomic approach, and ultimately improve patient outcomes. Knowledge of orbital bands will also help radiologists avoid the pitfall for describing a suspicious orbital mass with unnecessary work up for an unrelated symptom. Findings/Discussion: The normal human orbit contains six EOM, levator palpebral superioris muscle, and the orbicularis oculi muscle. Numerical aberrations of the EOM are rare with an estimated prevalence of 2%. Three types of accessory EOM include: anomalous bands of muscle bridging two muscles; fibrous tissues adjacent to the muscles, which may attach to the globe; and muscles arising from the posterior orbit and inserting on the globe or EOM. Accessory EOM have rarely been reported in ophthalmologic literature but only one report has been found in radiology literature. The clinical importance of orbital bands likely depends on the size and location. Often they are found incidentally in autopsy or for workup of non associated visual symptoms. However, there is an increased incidence of orbital bands in patients with restrictive strabismus, globe retraction, and eyelid retraction. SR-LPS SO ON LR LR-SR MR LR-SR IR SR-LPS BAND SO ON MR BAND LR-SR MR LR-SR References: 1. Khitri MR, Demer JL. Magnetic Resonance Imaging of Tissues Compatible with Supernumerary Extraocular Muscles. Am J Ophthalmol 2010 Dec;150(6):925-31 2. Dobbs MD, Mawn LA, Donahue SP. Anomalous Extraocular Muscles with Strabismus. AJNR Am J Neuroradiol 2011 Oct;32(9):E167-8 3. Patel SH, Cunnane ME, Juliano AF, et al. Imaging appearance of the lateral rectus-superior rectus band in 100 consecutive patients without strabismus. AJNR Am J Neuroradiol 2014 Sep;35(9):1830-5 4. Sinclair NE, Roberts MA, Hourihan MD, et al. Radiologically manifested accessory extraocular muscles in thyroid eye disease. Ophthal Plast Reconstr Surg 2010 Jul-Aug;26(4):286-8 5. von Ludinghausen M. Bilateral supernumerary rectus muscles of the orbit. Clin Anat 1998;11:271–77 LR IR Figure 1. Coronal and axial T1W MR Orbits with bilateral orbital bands connecting the superior and inferior recti. (IR: Inferior Rectus; LR: Lateral Rectus; MR: Medial Rectus; ON: Optic Nerve; SO: Superior Oblique; SR-LPS: Superior Rectus-Levator Palpebrae Superioris) Figure 3. Coronal T1W MR Orbits in a patient demonstrating the normal anatomical LR-SR band. (IR: Inferior Rectus; LR: Lateral Rectus; MR: Medial Rectus; SO: Superior Oblique; SR-LPS: Superior Rectus-Levator Palpebrae Superioris; ON: Optic Nerve; LR-SR: Lateral Rectus-Superior Rectus Band)