Orbit by Xiu

BONY ORBIT

Orbital RoofOrbital Roof• Orbital plate of the frontal bone and sphenoid bone.

BONY ORBIT

Orbital RoofOrbital Roof• Anterolaterally = the lacrimal fossa.

BONY ORBIT

Orbital RoofOrbital Roof• Posteriorly, at the junction of the roof and the medial wall = the optic

foramen. Optic canal: Optic nerve, ophthalmic a.

BONY ORBIT

Orbital RoofOrbital Roof• Supraorbital foramen : Supraorbital nerve (V1)

BONY ORBIT

Medial Orbital WallMedial Orbital Wall• Maxilla, lacrimal bone, ethmoid, and the body of the sphenoid.

BONY ORBIT

Medial Orbital WallMedial Orbital Wall• Anteriorly = the lacrimal groove for the lacrimal sac.

BONY ORBIT

Medial Orbital WallMedial Orbital Wall• Lamina papyracea = orbital plate of ethmoid bone.

Often appears to be dehiscent on CT, and therefore care should be taken not to make an erroneous diagnosis of bone destruction or fracture.

BONY ORBIT

Orbital FloorOrbital Floor• Roof of the maxillary sinus.• Maxillary bone, zygomatic, and the orbital process of the palatine

BONY ORBIT

Orbital FloorOrbital Floor• Inferior orbital fissure

Fromed by GWS and zygomatic bone laterally, maxillary and Ethamoid bones medially. Mostly contiguous with SOF Anteroir continuation of foramen rotundum.

BONY ORBIT

Orbital FloorOrbital Floor• Infraorbital foramen: infraorbital nerve (V2)

BONY ORBIT

Orbital FloorOrbital Floor• The inferior oblique muscle.

Arises from the floor of the orbit just lateral to the opening of the nasolacrimal canal. It is the only extraocular muscle that does not originate from the orbital apex.

BONY ORBIT

Lateral Orbital WallLateral Orbital Wall• The lateral wall of the orbit is the thickest wall.• Formed by GWS bone, frontal process of the zygomatic bone.

BONY ORBIT

Lateral Orbital WallLateral Orbital WallThe lateral orbital tubercle : A small elevation of the orbital margin of the zygoma,.

This important landmark is the site of attachment for (1) the check ligament of the lateral rectus muscle, (2) the suspensory ligament of the eyeball, (3) the lateral palpebral ligament, and (4) the aponeurosis of the levator palpebrae muscle.

BONY ORBIT

Superior orbital fissureSuperior orbital fissure• Formed by LWS medially, GWS laterally• Primay connection orbit and Intracranial• Contents: CN3, CN4, CN5(V1), CN6, SOV

BONY ORBIT

Superior orbital fissureSuperior orbital fissure• Formed by LWS medially, GWS laterally• Primay connection orbit and Intracranial• Contents: CN3, CN4, CN5(V1), CN6, SOV

The eyelids

• Protect and help lubricate the eyes. • Supported by a tarsal plate.

The eyelids

Tarsal plateTarsal plate• A fibrous layer that gives the lids shape, strength, and a place for

muscles to attach.• Underneath and within the tarsal plate lie meibomian glands.

The eyelids

Orbital septum

• Fascia arising from orbital periosteum.• Inserts into aponeurosis and fascia of lids at margins of

superior and inferior tarsi.

EXTRAOCULAR MUSCLES

RectiRecti• Superior, inferior, lateral, medial• Origins at annulus of Zinn• Insertions at coneoscleral surface

SO = 4

LR = 6

EXTRAOCULAR MUSCLES

RectiRecti• Superior, inferior, lateral, medial• Origins at annulus of Zinn• Insertions at coneoscleral surface

SO = 4

LR = 6

Abducens nerve (CN6)For lateral rectus

which abductis the eye

EXTRAOCULAR MUSCLES

Superior obliqueSuperior oblique• Origin at medial margin of annulus of

Zinn.• courses nasally through trochlea at

superomedial rim.• Inserts posterolaterally on sclera

superiorly.

SO = 4

LR = 6

EXTRAOCULAR MUSCLES

Inferior obliqueInferior oblique • Origin at anteroinferior

orbital rim.• Insertion posterolaterally on

sclera inferiorly.

SO = 4

LR = 6

Ophthalmic artery

• Major arterial supply of the orbit• First intradural branch of internal carotid artery; passes through

optic canal, pierces dural sheath laterlly at apex

Ophthalmic veins

• SOV: Located between CN2 and superior rectus; drain through SOF into cavernous sinus

• IOV: Located adjacent to inferior rectus; drains through IOF into pterygoid plexus.

LACRIMAL APPARATUSLACRIMAL APPARATUS

LACRIMAL APPARATUS• Larcrimal gland = A serous gland lies in the superolateral

angle of the orbit, in a lacrimal fossa. • Measures 20 x 12 x 5 mm.

LACRIMAL APPARATUS

• Divided into palpebral and orbital (larger and supperior) lobes by the lateral border of the levator aponeurosis.

LACRIMAL APPARATUS

• Accessory lacrimal glands (of Krause and Wolfring) in the lids and conjun ctiva.

• There are 20 to 40 glands of Krause in the upper fornix and 6 to 8 in the lower fornix.

• The glands of Wolfring are fewer, consisting of three at the upper border of the superior tarsus and one at the lower border of the inferior tarsus

Optic nerve pathway

Intraocular segment• 1 mm in length• Ganglion cell axons

exit globe

CN II: optic nerve

Intraorbital segment• 20-30 mm in length• Extended posteromedially from back of globe to orbital

apex (within intraconal space)• CN2 longer than actual distance form optic chiasm to

globe allowing for eye movement

CN II: optic nerve

Intraorbital segment

CN II: optic nerve

Intraorbital segment• Covered by 3 meningeal layers as brain • Subarachonoid space contains CSF continue with

suprasellar cistern

CN II: optic nerve

Intracanalicular Segment• Segment within bony optic canal • 4-9 mm in length

CN II: optic nerve

Intracanalicular Segment

CN II: optic nerve

Dura of CN2 fuses with orbital periosteum (Periorbita)

Intracranial Segment• About 10 mm length from

optic canal to chiasm• Covered by pia and

surrounded by CSF within suprasellar cistern

CN II: optic nerve

Axial CTCN II: optic nerve

CN II: optic nerve

Axial T2/ inferior to superior

CN II: optic nerve

Imaging recommendationImaging recommendation

CT:CT:• Excellent evaluation of orbit aided by natural contrast between fat,

bone, air & soft tissue.• Easily detects calcifications.• Noncontrast CT alone for thyroid orbitopathy.• Preferred for assessing bony structures and foramina.

MRI:MRI:• Optimal soft tissue contrast for globe, optic nerve, orbital

structures, and intracranial findings.• Preferred for evaluation of tumor and inflammation.• Motion artifact on MR is common due to irrepressible eye motion.• Stronger gradients, faster sequences, surface coils, routine use of

fat suppression +/- Gd improve image quality.

CT & MRI are complementary techniques:

both indicated for evaluation of complex lesions.

Thyroid OrbitopathyThyroid Orbitopathy

• Graves’ disease = multisystem/autoimmune dz of unknown cause.

• Characterized by one or more of 3 pathognomonic clinical entities: (1) hyperthyroidism associated with diffuse hyperplasia of the

thyroid gland.

(2) infiltrative ophthalmopathy ( Graves ophthalmopathy ).

(3) infiltrative dermopathy.

( Graves’ dysthyroid ophthalmopathy, Graves’ ophthalmopathy, Thyroid Ophthalmopathy, Endocrine Exophthalmos)

• M/C cause of unilateral and bilateral exophthalmos in the adult population.

• More common in women.• More severity in men and in Pt more than 50 ys.• May occur in hypothyroid or euthyroid.• Occasionally, occurs in Hashimoto’s thyroiditis.

Clinical of Thyroid orbitopathyClinical of Thyroid orbitopathy• Upper and lower eyelid retraction• Exophthalmos• Limitation of eye movements• Eyelid edema• Epibulbar vascular congestion.

Thyroid OrbitopathyThyroid OrbitopathyStaging (Werner's modified classification):Staging (Werner's modified classification):• Stage I : eyelid retraction without symptoms • Stage II : eyelid retraction with symptoms • Stage III : proptosis >22 mm without diplopia • Stage IV : proptosis >22 mm with diplopia • Stage V : corneal ulceration • Stage VI : loss of sight

Rx:Rx: short- and long-term steroid therapy, cyclosporine, radiation, surgical decompression, correction of

eyelid position

Pathology:Pathology:• Infiltration by mast cells and

lymphocytes, edema, muscle fiber necrosis, lipomatosis, fatty degeneration.

• The inferior rectus muscle is involved most commonly, followed by the medial rectus and the superior rectus.

Pathology:Pathology:• Infiltration by mast cells and

lymphocytes, edema, muscle fiber necrosis, lipomatosis, fatty degeneration.

• The inferior rectus muscle is involved most commonly, followed by the medial rectus and the superior rectus.

mnemonic: I'M SLow

InferiorMedial

SuperiorLateral

Thyroid OrbitopathyThyroid OrbitopathyCT and MR imaging:CT and MR imaging:• Coke-bottle sign : Enlarged

muscle belly with sparing the anterior tendinous insertion. Low-density on CT: acc of

lymphocytes and mucopolysaccharide deposition.

HyperSI T2WI within muscle: represent inflammation, good clinical response to a trial of steroid therapy.

• Increased orbital fat• Enlargement of the lacrimal

glands• Edema eyelids

Proptosis.

Stretching optic n.

Thyroid myopathy. Axial CT scan shows enlargement of the inferior rectus muscles (arrows).

Thyroid myopathy. • A, Coronal T1WI and B, Sagittal T1WI. Scans show enlargement of extraocular

muscles. In A, 1, Inferior rectus muscle; 2, medial rectus muscle; 3, superior oblique muscle; 4, superior rectus muscle; 5, lateral rectus muscle; and 6, optic nerve. 2, 1, inferior oblique muscle; 2, inferior rectus muscle; and 3, superior rectus muscle.

Graves’ dysthyroid orbitopathy. • Axial slice shows an absolute increase in the amount of orbital fat with pronounced proptosis. • There is stretching of the extraocular muscles, which appear to be smaller than usual (small arrows). • There is also stretching of the optic nerve.

• DDx: pseudotumor (usually includes tendon of eye muscles) .

Thyroid orbitopathy Pseudotumor

• proptosis = globe protrusion >21 mm anterior to interzygomatic line on axial scans at level of lens

ORBITAL CYSTIC LESIONSORBITAL CYSTIC LESIONS• Dermoid cyst• Hematic Cysts and Cholesterol Granuloma• Enterogenous cysts • Congenital cystic eye• Dacryocele• Parasitic cysts • Optic Nerve Sheath Meningocele• Epithelial Implantation Cysts• Lacrimal Gland Cysts

Dermoid cyst Dermoid cyst • Choristoma = a focus of tissue histologically normal for

an organ or part of an organ at a site other than the site at which it is located.

Dermoid or epidermoid cystDermoid or epidermoid cyst::::• A dermoid or epidermoid cyst is a choristoma. • M/C orbital tumors of childhood. • Most frequently found in favor the upper portion of the

orbit (temporal > nasal).• The tumor is congenital but may not be noted at birth. • Many become evident only in the 2nd decade.

Dermoid cyst Dermoid cyst • Choristoma = a focus of tissue histologically normal for

an organ or part of an organ at a site other than the site at which it is located.

Dermoid or epidermoid cystDermoid or epidermoid cyst::::• Both have a fibrous capsule with varying degrees of

thickness. • The epidermoid has a lining of keratinizing, stratified

squamous epithelium. • The dermoid contains one or more dermal adnexal

structures such as sebaceous glands and hair follicles.

Dermoid cyst Dermoid cyst • Dermolipomas (lipodermoids) = less dense than solid d

ermoids and contain more adipose tissue.

• Epibulbar osseous choristomas = dermoids that composed of mature, compact bone along with other typical choristomatous elements such as pilosebaceous units and hair follicles.

• Teratoma = choristomatous tumors that contain tissues representing two or more germ layers. Teratomas within the orbit are rarely malignant. Orbital teratomas tend to affect girls, are unilateral, grow rapidl

y, and are not associated with other anomalies.

CT AND MR IMAGING FEATURESCT AND MR IMAGING FEATURES

CT MRI

Epidermoid cyst • Non-enh mass with or without bone erosion• No calcification• Scalloping with sclerosis of the adjacent bone may be present• Minimal enh of the capsule may be present

• HypoSI on T1WI and hyperSI on T2WI• Minimal enh of capsule may be present• Associated orbital inflammatory changes, when cyst is ruptured

Dermoid cyst • Non-enh mass with or without bone erosion• Calcification, if present, is a characteristic feature• fat, if present, is characteristic • Scalloping with sclerosis of the adjacent bone may be present• Minimal enh of the capsule may be present

• HypoSI on T1WI and hyperSI on T2WI• Fatty tissue• Minimal enh of capsule may be present• Associated orbital inflammatory changes, when cyst is ruptured

Dermolipoma •Density of adipose tissue •Intensity of adipose tissue

Orbital cystic lesion > Dermoid cystOrbital cystic lesion > Dermoid cyst

Dermoid Axial CT scan shows a fat-containing lesion (arrow) compatible with an orbital

dermoid.

Orbital cysticlesion > Dermoid cystOrbital cysticlesion > Dermoid cyst

Giant Dermoid (B) PW axial MR image and T2-weighted coronal MR image (C) show a giant dermoid

(arrow). The lesion is inhomogeneous and contains hyperintense areas caused by fat. The lesion is nearly isointense to fat on the T2-weighted MR image.

Orbital cysticlesion > Dermoid cystOrbital cysticlesion > Dermoid cyst

Dermoid Axial-enhanced CT scan shows a well-circumscribed, rounded, low-density dermoid

cyst (C) in the nasal aspect of the anterior orbit.

Epidermoid cyst. A, Postcontrast axial CT scan shows a nonenhanced low-density mass (E) compatible

with an epidermoid cyst. Notice the scalloping of the lateral orbital wall (arrows). B, T2WI. The epidermoid cyst (E) appears as a homogeneous hyperintense mass.

Dermolipoma. Coronal TWI shows a hyperintense mass (arrows) compatible with a

dermolipoma.

Hematic Cysts and Cholesterol GranulomaHematic Cysts and Cholesterol Granuloma

• Hematic cyst = organizing hematoma, hematocele

• Cholesterol granuloma hematic cyst with orbital bone-pushing and bone destroying. secondary lesions that are formed due to a posttraumatic,

postsurgical, or postinflammatory event.

CT findings of Subperiosteal hematomas

• Acute hematoma = sharply defined extraconal, homogeneous, high-density, nonenhancing mass with a broad base abutting the

bone and displacing the peripheral orbital fat.

• Chronic hematoma = sharply defined extraconal, heterogeneous, relatively hypodense, nonenhancing mass.

• Long-standing chronic hematic cysts (cholesterol granulomas) = cystic lesions, associated with compression bone atrophy as well as expansion and erosions of adjacent bone.

MR findings of Subperiosteal hematomas

Orbital cystic lesion > Hematic Cysts and Cholesterol GranulomaOrbital cystic lesion > Hematic Cysts and Cholesterol Granuloma

Acute subperiosteal hematoma. Coronal CT scan through the orbit showing a hyperdense acute subperiosteal

hematoma (arrows) along the roof of the orbit and displacing the orbital contents inferiorly.

Acute subperiosteal hematoma. B, Coronal T1WI showing the intermediate signal intensity of an acute subperiosteal hematoma (white

arrows). Note the displaced periosteum (black arrow). C, Sagittal T1WI of the same patient in B showing the acute subperiosteal orbital hematoma (white arrows).

Note the displaced periosteum (black arrow). D, Axial T2WI of the same patient in B through the orbit. Note the low signal intensity of the acute hematoma

(arrows) on the T2-weighted image.

Acute subperiosteal hematoma. Coronal CT scan through the orbit of an 8-year-old boy showing an acute

subperiosteal hematoma (curved arrows). Note its hyperdense nature and fusiform shape. Note the normal lacrimal gland (arrow) on the opposite side.

Subacute subperiosteal hematoma (less than 7 days). A, Axial CT scan of the orbit in a 2-year-old child. Note the subacute subperiosteal

hematoma (arrows) and displacement of the peripheral orbital fat (F). B, Coronal reformatted images of the same patient showing the subacute hematoma.

Chronic subperiosteal hematoma (cholesterol granuloma). Axial CT scan shows an expansile mass (arrows) compatible with a chronic hematic

Chronic subperiosteal hematoma (cholesterol granuloma).

A, Axial CT scan with oblique sagittal reformatting showing a cholesterol granuloma (arrows) of the left orbit. Note the displacement of the globe (G) inferiorly. The lesion, which is almost isodense with brain, has caused ragged bony destruction (arrowheads). On the axial image, the lesion may be mistaken for a lacrimal gland mass.

B, Histopathologic examination of a cholesterol granuloma showing abundant cholesterol cells (arrows), foreign-body giant cells (arrowheads), and inflammatory cells hematoxylin-eosin, original magnification ×40).

Subacute subperiosteal hematoma. A, Axial contrast-enhanced T1WI shows a subacute subperiosteal hematoma (arrows) in an 8-year-old child. Note the

high to mixed signal intensity pattern on the T1WI. Note the fluid-fluid level (arrowheads). B, Axial proton-density image of the same patient showing a fluid-fluid level (arrowheads) within the hematoma (arrows). C, Axial T2WI showing a mixed signal intensity pattern with hypointensity images related to the intracellular

methemoglobin portion of the subacute hematoma (arrows). Note the fluid-fluid level (arrowheads). D, Coronal T1WI reveals an excellent demonstration of the subacute subperiosteal hematoma (arrows). Note the high to

intermediate signal intensity of the hematoma.

Chronic subperiosteal hematoma (about 12 days). A, Axial CT scan of the orbit showing a chronic subperiosteal hematoma

(arrows) seen as an isodense lesion with a fluid-fluid level (arrowhead ). B, Coronal T1WI showing the cholesterol granuloma (arrows) in the same

patient in A as a high-signal lesion, indicating its chronic nature.

Chronic subperiosteal hematoma (about 12 days). C, Sagittal T1WI illustrates the high signal pattern of the subperiosteal hematoma (white

arrows), resulting in downward displacement of the optic nerve (black arrow). D, Axial proton density MR image shows this chronic hematoma (cholesterol granuloma)

as a hyperintense lesion (arrowheads).

Enterogenous cystsEnterogenous cysts

• Congenital choristomatous cysts of the CNS.

• Contain a single layer of mucin-secreting epithelial cells that resemble gastrointestinal epithelium.

• Common site = lower cervical and cervicothoracic regions.

• An orbital location is extremely rare.

Enterogenous cystsEnterogenous cystsImaging findings;Imaging findings;• CT

Isodense or hyperdense, depending on the mucous content of the cyst.

• MRI Hypointense or hyperintense on T1WI, depending on the

mucous content of the cyst. Hyperintense on T2WI

• Bony erosion may be present. • May be rim enhancement on enhanced CT and MRI.

Congenital cystic eyeCongenital cystic eye

• A rare congenital anomaly.

• Presents at birth as a complex cyst occupying the orbit, without any vestige of a globe.

• The cyst wall is lined by cells derived from undifferentiated retina and retinal pigment epithelium.

• Some remnant of an optic nerve–like structure and extraocular muscles may be present.

Congenital cystic eyeCongenital cystic eyeImaging findings;Imaging findings;• Rounded or ovoid, septated cyst• The superior orbital fissure may be enlarged ipsilaterally.• A rudimentary connection to a thinned optic nerve may be seen.

• CT Nonenhancing low-density mass

• MRI Hypointense on T1WI( not equal to mormal vitreous). Hyperintense on T2WI. Nonenhancing mass

Orbital cystic lesion > Congenital cystic eyeOrbital cystic lesion > Congenital cystic eye

Congenital cystic eye B, Axial T1WI through the orbit shows a large orbital cyst, an enlarged orbit, and no discernible normal

bulbar structures on the left. C, Axial T2WI shows a rudimentary optic nerve (arrow) leading into the lesion. Signal intensity is

homogeneously high. D, Coronal contrast-enhanced, T1WI shows thin, enhancing strands and a more focal amorphous tissue

mass in the posterior aspect of the lesion (probably dysmorphic retinal tissue).

DacryoceleDacryocele

• Lachrymal sac mucocele• A cystic expansion of the nasolacrimal sac. • Caused by a proximal or distal block of the

nasolacrimal duct.

• Dacryoceles are considered a congenital anomaly of the lacrimal drainage system.

• Usually apparent in the first few days of life.

DacryoceleDacryoceleImaging findings;Imaging findings;• well-circumscribed, rounded lesions centered in the

nasolacrimal sac region.• Nonenhancing mass, unless infected.

• CT Nonenhancing (unless infected) low-density mass.

• MRI Hypointense on T1WI and hyperintense on T2WI.

Orbital cystic lesion > DacryoceleOrbital cystic lesion > Dacryocele

Dacryoceles Enhanced coronal T1WI shows bilateral dacryoceles (arrows).

Parasitic cysts Parasitic cysts

• Hydatid Cysts The hydatid cyst is related to infection tapeworm,

Echinococcus granulosus. A well-defined cystic mass with or without a fluid-fluid level

containing the parasite. Clinically, patients present with slowly progressive, painless

orbital signs.

• Cysticercosis Cysticercosis is a disease due to infestation by tapeworm

Cysticercus cellulosae, Taenia solium. Clinically, patients present with either a visible

subconjunctival cyst or orbital signs due to an extraocular muscle cyst that is unresponsive to treatment with oral corticosteroids.

Parasitic cysts Parasitic cysts CT

Cystic lesions within or near an EOM

Some degree of enhancement around the cyst wall

Scolex can be identified Diffuse myositis may be

present Cystic lesion within or

near lacrimal gland or other part of the orbit

MRI Cystic lesions within or

near an EOM Some degree of

enhancement around the cyst wall

Scolex can be identified Diffuse myositis may be

present Hypointense on T1WI

and hyperintense on T2WI.

Orbital cystic lesion > Parasitic cysts Orbital cystic lesion > Parasitic cysts

Cysticercosis. Axial T2WI shows multiple intracranial abscesses (arrows) and an orbital abscess (hollow arrow). The orbital cyst shows a fluid-fluid level. Scolices are seen within the abscesses as tiny hypointense areas.

Optic Nerve Sheath MeningoceleOptic Nerve Sheath Meningocele

• Saccular dilatation of the meninges surrounding the orbital portion of the optic nerve.

• Occur primarily or secondarily in association with other orbital processes, such as meningioma, optic nerve pilocytic astrocytoma, and hemangioma.

• Present with changes in visual acuity or visual field.

(optic nerve sheath cyst, arachnoid cyst, perioptic hygroma, and dural ectasia)(optic nerve sheath cyst, arachnoid cyst, perioptic hygroma, and dural ectasia)

Optic Nerve Sheath MeningoceleOptic Nerve Sheath Meningocele

• The CT and MR imaging; Prominent focal or segmental enlargement of the dural

arachnoid sheath around the optic nerve May be associated with an empty sella. May be associated with enlarged subarachnoid cisterns

(optic nerve sheath cyst, arachnoid cyst, perioptic hygroma, and dural ectasia)(optic nerve sheath cyst, arachnoid cyst, perioptic hygroma, and dural ectasia)

Orbital cystic lesion > Optic Nerve Sheath MeningoceleOrbital cystic lesion > Optic Nerve Sheath Meningocele

Ectasia of the optic nerve sheath (meningocele). Axial T1WI shows the prominence of the subarachnoid space around the nerves (arrows).

Orbital cystic lesion > Optic Nerve Sheath MeningoceleOrbital cystic lesion > Optic Nerve Sheath Meningocele

Ectasia of the optic nerve sheath (meningocele). T2WI shows marked expansion of the subarachnoid space around the right optic nerve (arrow). Note the empty sella (E) and dilated Gasserian cisterns (G).

Epithelial Implantation CystsEpithelial Implantation Cysts

• Derived from cells of cutaneous epithelium conjunctival epithelium or respiratory epithelium that are traumatically displaced under the skin of the eyelid or

into the orbit.

• The CT and MR imaging appearance; Nonspecific. Similar to that of any simple cyst.

• A nonenhanced cystic orbital mass following orbital surgery or enucleation should raise the question of the presence of an epithelial implantation cyst.

Orbital cystic lesion > Epithelial Implantation CystsOrbital cystic lesion > Epithelial Implantation Cysts

Epithelial implantation cyst Axial CT scan shows a well-defined mass (arrows) compatible with an epithelial implantation cyst.

Lacrimal Gland CystsLacrimal Gland Cysts

• Due to blockage of the gland’s excretory ducts.

• The CT and MR imaging appearance Similar to that of any simple cyst.

Orbital cystic lesion > Lacrimal Gland CystsOrbital cystic lesion > Lacrimal Gland Cysts

Lacrimal gland cyst Axial T2-weighted MR image shows a lacrimal gland cyst (arrow).

INFLAMMATORY LESIONSINFLAMMATORY LESIONS• Orbital Cellulitis.• Mycotic Infections.• Pseudotumors.• Optic neuritis.• Sarcoidosis.• Wegener’s Granulomatosis.• Amyloidosis

Orbital Cellulitis Orbital Cellulitis

• Orbital cellulitis = M/C cause of proptosis in children.

• M/C cause of orbital cellulitis = Sinusitis.• M/C organism = Bacteria.• M/ C bacteria = Staphylococcus, Streptococcus

Pneumococcus, Pseudomonas, Neisseriaceae, Haemophilus, and mycobacteria.

• M/C virus = Herpes simplex and herpes zoster.

STAGING OF ORBITAL CELLULITISSTAGING OF ORBITAL CELLULITIS

Inflammatory lesion > Orbital cellulitisInflammatory lesion > Orbital cellulitis

Preseptal and retroseptal orbital inflammation. Axial CT scan shows periorbital soft-tissue infiltration and edema (white arrow)and retroseptal subperiosteal inflammation and edema (black arrow).

Orbital cellulitis . A, Enhanced, fat-suppressed, axial T1WI showing diffuse enhancement of pre- and

postseptal orbital tissue (arrows). B, Enhanced, fat-suppressed, sagittal T1WI shows an air-fluid level in the frontal sinus

(arrows) and diffuse orbital enhancement (curved arrow). There is no orbital abscess formation.

Orbital subperiosteal phlegmon. A, Axial CT scan shows proptosis of the left eye with mucoperiosteal thickening of the

left ethmoid sinus (E), with soft-tissue induration in the medial subperiosteal space (arrowheads). Note the lateral displacement of the inflamed left medial rectus muscle (1). Optic nerve (2).

B, Coronal CT scan, same patient as in A, shows clouding of the right ethmoid (E) and maxillary (M) sinuses, with subperiosteal soft-tissue induration (arrowheads) and swelling of the right medial rectus muscle (white arrow) and right inferior rectus muscle (black arrow).

Orbital subperiosteal abscess. CT scan shows proptosis of the left eye with mucosal thickening of the ethmoid air

cells (E), with subperiosteal abscess (hollow arrow). Note the air bubble (arrowhead ) within the abscess and the swollen left medial rectus muscle (arrow).

Orbital cellulitis and abscesses. CT scan shows right periorbital cellulitis and three abscesses. (A), Right retroseptal

abscess. (B), Left retrobulbar abscess. (C), Left eyelid abscess. Note slightly engorged left superior ophthalmic vein (hollow arrow).

Thrombosis of the superior ophthalmic vein. Axial CT scan shows an engorged left superior ophthalmic vein with a filling defect

(arrow), which was caused by a sphenoid sinus infection.

Bilateral cavernous sinus thrombosis. Coronal CT section through the cavernous sinus following bolus injection reveals opacification of the

internal carotid arteries bilaterally. The cavernous sinus reveals decreased attenuation in keeping with cavernous sinus thrombosis. Note enhancement of the dura bordering the left cavernous sinus.

Mycotic (septic) aneurysm. 1, Enhanced axial CT scan shows an enhancing mass (arrow) in the left cavernous sinus related to a

mycotic artery. 2, Lateral angiogram shows a large aneurysm (arrow) of the cavernous portion of the internal carotid

artery.

Mycotic InfectionsMycotic Infections

MucormycosisMucormycosisThere are four major types of mucormycosis:

1. rhinocerebral = M/C type

2. pulmonary

3. gastrointestinal

4. disseminated

Mycotic InfectionsMycotic InfectionsRhinocerebral type of mucormycosisRhinocerebral type of mucormycosis• usually occur in DM or immunocompromised.

• M/C = Mucor and Aspergillus.• The infection usually begins in the nose• Spreads to the paranasal sinuses• Extends into the orbit and cavernous sinuses.

• The pathologic hallmark of mucormycosis = invasion of the walls of small vessels.

• Rapid brain infarction may develop.

Mycotic InfectionsMycotic InfectionsImaging findingsImaging findings

• Combination of orbital and sinus involvement• Multicentric or unicentric sinusitis

• Mycetoma = HypoSI on T2WI : One important sign but not pathognomonic.

• vascular thrombosis• Invasion of the walls vessels.

Inflammatory lesion > Mycotic InfectionsInflammatory lesion > Mycotic Infections

Aspergillosis. A, Axial T2WI shows soft-tissue induration in the left sphenoid sinus (white arrow). Note the internal carotid (C) and early soft-tissue infiltration of the left cavernous sinus

(hollow arrow).

Inflammatory lesion > Mycotic InfectionsInflammatory lesion > Mycotic Infections

Aspergillosis. B, Axial PD MR image follow-up scan. C, Axial T2-weighted MR image follow-up scan. Scans show progression of the pathologic process, with marked infiltration of the left cavernous sinus (C)

and formation of the left temporal lobe abscess (arrowhead ) with marked peripheral edema. Note apical infiltration into the left orbit (black arrow in B) and inflammatory mycotic tissue in the left

sphenoid sinus (white arrow). Note the nonvisualization of the left internal carotid artery (compare with A); this results from invasion of the

mycotic process, a finding confirmed by angiography and surgery. The mycotic process (m) has extended over the left petrous apex.

Orbital pseudotumors Orbital pseudotumors

• A nongranulomatous inflammatory process in the orbit with no known local or systemic causes.

• A diagnosis of exclusion based on the history, clinical course, response to steroid therapy, laboratory tests, and biopsy in a limited number of cases.

(Idiopathic Orbital Inflammatory Disorders)

• After Graves’ disease, pseudotumor is the next most common ophthalmologic disease.

• Usually affects adults.• Usully bilateral orbital involvement.

• Bilateral orbital pseudotumors in adults suggest the possibility of systemic vasculitis or a systemic lymphoproliferative disorder.

• Acute onset of painful ophthalmoplegia , diplopia, proptosis, and impaired vision from perioptic nerve involvement.

• Pain is an important feature of pseudotumors; however, not all patients with pseudotumors present with pain.

Pseudotumors may be classified as (1) acute and subacute idiopathic anterior orbital inflammation

(2) acute and subacute idiopathic diffuse orbital inflammation

(3) acute and subacute idiopathic myositic orbital inflammation

(4) acute and subacute idiopathic apical orbital inflammation

(5) idiopathic dacryoadenitis

(6) perineuritis.

• Tolosa-Hunt syndrome (painful ophthalmoplegia) is a variant of pseudotumor in which the inflammatory process is restricted to the vicinity of the superior orbital fissure, the optic canal, or the cavernous sinus.

Anterior Orbital InflammationAnterior Orbital Inflammation

• Inflammation involves the anterior orbit and adjacent globe.

• Pain, proptosis, lid swelling, and decreased vision.

• Extraocular muscle (EOM) motility is usually unaffected.

Anterior Orbital InflammationAnterior Orbital Inflammation

CT and MR imagingCT and MR imaging • Thickening of the uveal-scleral rim with

obscuration of the optic nerve junction, which enhances with contrast infusion on CT.

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Anterior Orbital InflammationOrbital pseudotumors > Anterior Orbital Inflammation

Pseudotumor: periscleritis/perineuritis. Postcontrast axial CT scan shows diffuse thickening of the scleral coat with infl

ammatory infiltration into Tenon’s space (T ) and perineuritis (arrow).

Diffuse Orbital PseudotumorDiffuse Orbital Pseudotumor

• Tumefactive, or infiltrative type of pseudotumor

• Entire retrobulbar space and mold itself around the globe while respecting its natural shape.

• These large, bulky masses can be intraconal, extraconal, or involve both spaces.

• Very difficult to differentiate from lymphoma.

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Diffuse Orbital PseudotumorOrbital pseudotumors > Diffuse Orbital Pseudotumor

Pseudotumor. Axial CT scan shows diffuse infiltration of the entire retrobulbar space. The

optic nerve appears as a lucent band (arrow) embedded within the lesion.

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Diffuse Orbital PseudotumorOrbital pseudotumors > Diffuse Orbital Pseudotumor

Pseudotumor. A, Axial PW MR image. B, Axial T2-weighted MR image. Scans show infiltrative process (arrows) compatible with pseudotumor. The lesion is isointense to brain on PW and T2-weighted MR scans.

Orbital MyositisOrbital Myositis

• One or more of the EOMs are infiltrated by an inflammatory process.

• Most frequently affected muscles = superior complex and the medial rectus.

CT findingsCT findings• Enlargement of the EOMs, which extends

anteriorly to involve the tendon insertion.• Obliteration of the fat between the periosteum of

the orbital wall and the muscle cone.

CT findingsCT findings• Enlargement of the EOMs, which extends

anteriorly to involve the tendon insertion.• Obliteration of the fat between the periosteum of

the orbital wall and the muscle cone.

EOM enlargementEOM enlargement

1. Thyroid obthalmopathy.

2. Pseudotumor.

3. Carotidcavernous fistula.

4. Granulomatous disease.

5. Neoplasm (primary or metastatic

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Orbital MyositisOrbital pseudotumors > Orbital Myositis

Myositic pseudotumor. Postcontrast Axial CT scan shows marked thickening and enhancement of the left

medial rectus muscle (arrow). Note extension of the process into its tendinous insertion on the globe (arrowhead ).

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Orbital MyositisOrbital pseudotumors > Orbital Myositis

Myositic pseudotumor. A, Axial precontrast (top) and postcontrast (bottom) TIWI through the lower

portion of the orbits demonstrate a mass (arrow) with moderate enhancement consistent with an enlarged inferior rectus muscle.

B, Coronal postcontrast, T1FS through the orbits reveal diffuse enhancement of the enlarged inferior rectus muscle (arrows).

C, Axial PDW (top) and T2WI(bottom) through the inferior orbits demonstrate increased signal intensity of the enlarged inferior rectus muscle (arrows).

Perineuritis and PeriscleritisPerineuritis and Periscleritis

• Idiopathic perineuritis = inflammation of the sheath of the optic nerve

• Can simulate optic neuritis by presentation (orbital pain, pain with extraocular motility, decreased visual acuity, and disc edema).

Perineuritis and PeriscleritisPerineuritis and Periscleritis

CT and MR imaging:CT and MR imaging:• A ragged, edematous enlargement of the optic

nerve sheath complex.

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Perineuritis and PeriscleritisOrbital pseudotumors > Perineuritis and Periscleritis

Pseudotumor (perineuritis type). Axial CT scan shows the intraconal region of infiltration (arrowheads) surrounding the left optic

nerve. Slight thickening of the posterior sclera indicates posterior scleritis and fluid (exudate) in Tenon’s

space.

Lacrimal AdenitisLacrimal Adenitis

• Presents with tenderness in the upper outer quadrant Presents with tenderness in the upper outer quadrant of the orbit in the region of the lacrimal gland.of the orbit in the region of the lacrimal gland.

• Because of the wide variety and incidence of Because of the wide variety and incidence of pathology that can involve the lacrimal gland, pathology that can involve the lacrimal gland, biopsy biopsy of this accessible site is necessary to obtain a of this accessible site is necessary to obtain a definitive diagnosis.definitive diagnosis.

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Lacrimal AdenitisOrbital pseudotumors > Lacrimal Adenitis

Reactive lymphoid hyperplasia, lymphoma, and pseudotumor of the lacrimal gland. A, Axial proton-weighted MR image showing a presumed reactive lymphoid hyperplasia (arrow). B, Axial T1WI showing lacrimal gland lymphoma (arrow). C, Axial T1WI showing pseudotumor of the lacrimal gland (arrow).

Apical Orbital InflammationApical Orbital InflammationOrbital pseudotumors Orbital pseudotumors

• Pseudotumor that infiltration of the orbital apex.Pseudotumor that infiltration of the orbital apex.

• Present with typical orbital apex syndrome : pain, Present with typical orbital apex syndrome : pain, minimal proptosis, and painful ophthalmoplegia. minimal proptosis, and painful ophthalmoplegia.

• The CT and MR imaging findings;The CT and MR imaging findings; An irregular infiltrative process of the orbital apex with An irregular infiltrative process of the orbital apex with

extension along the posterior portion of the EOMs or the extension along the posterior portion of the EOMs or the optic nerve. optic nerve.

Inflammatory lesionInflammatory lesion > > Orbital pseudotumors > Apical Orbital InflammationOrbital pseudotumors > Apical Orbital Inflammation

Orbital sarcoidosis presenting as superior orbital fissure syndrome. A, Unenhanced axial T1WI. Note the infiltrative process involving the orbital apex on the left

side (large arrow). Note extension through the superior orbital fissure into the left temporal epidural space (arrowheads).

B, Enhanced axial T1WI FS show marked enhancement of this sarcoid granulomatous infiltration (straight arrows). Note the abnormal enhancement in the left temporal fossa

Optic neuritisOptic neuritis= Acute inflammatory process of the optic n.

CauseCause• Multiple sclerosis• Infection : • Parainfections : • Autoimmune optic neuritis• Radiation optic neuropathy

• M/C cause of Optic neuritis. • Optic neuritis = often an early sign of MS.• Typical unilateral visual loss.

• syphilis• toxoplasmosis• toxocariasis• borreliosis (Lyme disease) • other granulomatous diseases.

• occurring 10 to 14 days after the primary illness.• Chicken pox, rubella, rubeola, mumps, herpes zoster, mononucleosis, and viral encephalitis • Typical bilateral visual loss,

• SLE or other autoimmune states

CauseCause• Multiple sclerosis• Infection : • Parainfections : • Sutoimmune optic neuritis• Radiation optic neuropathy

• SLE or other autoimmune states

Optic neuritisOptic neuritisCT• some enlargement of the optic nerve• some degree of contrast enhancement.

MRI• Thickened and hyperintense T2WI.• Diffuse enhancement within the nerve on T1WI

FS.• Evidence of MS plaques

Inflammatory lesion > Optic neuritisInflammatory lesion > Optic neuritis

Optic neuritis. Enhanced axial CT scan shows enhancement of the left optic nerve (arrow).

This may not be differentiated from sarcoidosis or meningioma.

Optic neuritis. Axial PW (A) and T2W (B) images show enlargement of the left entire

optic nerve (arrows) in this 14-year-old girl with left optic neuritis.

Postradiation optic neuritis. Enhanced, fat-suppressed, axial T1-weighted MR image shows enhancement

of the intracanalicular segment of right optic nerve (arrow). Notice the postorbital exenteration on the left side.

Optic neuritis. (A) Enhanced axial T1WI and (B) enhanced axial fat-suppression T1W MR scans

showing marked enhancement of intraorbital (black arrows) and intracanalicular segments (white arrows) of optic nerves. Biopsy revealed a demyelinating process.

SarcoidosisSarcoidosis• A granulomatous systemic disease.• Pathology = Noncaseating granulomas • Diagnosis based on biosy.• Affecting all races, both sexes, and all ages.

• Presentation : asymptomatic with abnormal findings on CXR.

• Visual system abnormalitiesVisual system abnormalities are the most common extrathoracic manifestations of sarcoidosis.

SarcoidosisSarcoidosis• Ophthalmic lesions develop in approximately 25% of

patients.• Chest abnormalities are found in about 80% of

patients with ocular sarcoidosis.• Any part of the globe or orbit may be involved.

• M/c orbital involvementM/c orbital involvement = = chronic dacryoadenitischronic dacryoadenitis. . May be unilateral and easily mimic a lacrimal gland tumor.

SarcoidosisSarcoidosis

• A Mikulicz-like syndromeA Mikulicz-like syndrome = Sacoidosis involvement of bilateral lacrimal glands and salivary gland causings dry eyes and xerostomia.

• The most common cranial nerves to be affected are the CN 2CN 2, 7, 5, 8, 3, 6 respectively.

Inflammatory lesionInflammatory lesion > > SarcoidosisSarcoidosis

Sarcoidosis chronic dacryoadenitis. Axial CT scan shows enlargement of the right lacrimal gland. Note the mild enlargement

of the left lacrimal gland.

Sarcoidosis. Coronal-enhanced CT scan shows moderate enhancement of markedly enlarged

lacrimal glands (arrows).

Presumed sarcoidosis of the lacrimal gland. Axial CT scan in this 7-year-old African American child shows marked enlargement of

the lacrimal glands (arrows).

Sarcoidosis with optic nerve involvement. Axial T1WI scan shows no obvious lesion. There is a suggestion of slight thickening of

the left optic nerve (arrow).

Sarcoidosis-granuloma of the optic nerve. Enhanced axial T1WI scan shows increased enhancement of the left optic nerve

(arrows) and a large granuloma involving the intracranial segment of the left optic nerve (single arrow).

Sarcoidosis-granuloma of the optic nerve.Enhanced axail T1WI : Pre and Post treatment with steroid.

Wegener’s GranulomatosisWegener’s Granulomatosis• A multisystem disease.• Mainly occurs in the fifth decade of life. • A triad:

1. Necrotizing granulomas in the upper and lower respiratory tracts

2. Necrotizing vasculitis of the lung, upper respiratory tract, and other sites.

3. Glomerulonephritis.

• If left untreated, the disease is often fatal. • Combined corticosteroid cyclophosphamide

treatment has proven very successful.

Wegener’s GranulomatosisWegener’s Granulomatosis• Ocular involvement is also common: occurring in

18% to 50% of the cases.• The disease most commonly spreads from the

paranasal sinuses to the orbit.

The CT and MR imaging appearanceThe CT and MR imaging appearance;; Similar to that of pseudotumor and lymphoma. Nasal and paranasal sinus involvement is present in the

majority of cases.

Inflammatory lesionInflammatory lesion > > Wegener’s GranulomatosisWegener’s Granulomatosis

Wegener’s granulomatosis with involvement of the lacrimal gland. Axial postcontrast CT scan shows diffuse enlargement of the right lacrimal gland. Notice the rather straight configuration of the posterior aspect of the lesion (hollow arrow). In epithelial tumors of the lacrimal gland, the posterior border of the tumor has a rounded configuration. In Wegener’s granulomatosis, enlargement of the lacrimal gland may be symmetric and extensive. Notice the slight enlargement of the involved left lacrimal gland in this patient.

Wegener’s granuloma. Axial CT scan showing an infiltrative process involving the right lacrimal gland and

extending along the extraorbital space (arrows).

Progressive Wegener’s granulomatosis of the left orbit. Axial postcontrast T1WI through the mid orbits demonstrates marked enhancement of the inflammatory

granulomatous process, which completely obliterates the left orbit, with stretching and anterior displacement of the globe.

Note the diffuse enhancement of the tentorium cerebelli.

AmyloidosisAmyloidosis• Amyloidosis = deposition of an amorphous hyaline

material in various tissues; such as muscle, skin, nerve, submucosa, adrenal gland,

and the orbit.

• Involvement of the orbit;1. part of primary hereditary systemic amyloidosis.

2. part of secondary amyloidosis.

3. localized isolated process.

AmyloidosisAmyloidosis

• On CT, amyloid deposits (homogeneous eosinophilic protein) simulate pseudotumors, vascular malformation, and other mass lesions, and the deposits can occasionally calcify.

• On MR imaging, the amyloid deposits have signal intensities similar to those of skeletal muscle on all imaging sequences.

Inflammatory lesionInflammatory lesion > > AmyloidosisAmyloidosis

Amyloidosis of the right orbit with calcification. Axial CT section without infusion of contrast material reveals a mass in the extraconal space of the right orbit with a slight

bulge into the intraconal space. Note the speckled calcifications within the amyloid deposit. The adjacent ethmoid sinus is normal.

Inflammatory lesionInflammatory lesion > > AmyloidosisAmyloidosis

Amyloidosis of the lacrimal gland and orbit. Axial CT scan shows marked calcification of the left lacrimal gland (arrow).

ORBITAL VASCULAR CONDITIONORBITAL VASCULAR CONDITION

• Capillary Hemangioma.• Cavernous Hemangioma.• Lymphangioma.• Orbital Varix• Carotid Cavernous Fistulas • Hemangiopericytoma

Capillary HemangiomaCapillary Hemangioma(Benign Hemangioendothelioma)(Benign Hemangioendothelioma)

• The most common orbital vascular tumor in infants.

• Occur in the first year of life. • The tumor often increases in size for 6 to 10 months

and then gradually involutes.

• Most commonly in the superior nasal quadrant.

• Superficial lesions appear red, whereas subcutaneous lesions appear blue.

• They may expand slightly during crying or straining.

Treatment options include observation and topical, oral, or intralesional corticosteroid therapy. Interferon therapy, laser therapy, and surgery typically are reserved for patients with potentially life-threatening complications.

• Arterial supply from external carotid or internal carotid arteries.

• May extend intracranially through the superior orbital fissure, optic canal, and orbital roof.

•Histology: demonstrates capillary-sized vascular spaces surrounded by proliferating benign endothelial cells.

• Complications are rare but may include profuse hemorrhage, thrombosis, optic nerve compression, bone remodeling, and calcification.

• May be found in association with the rare neurocutaneous syndrome known as PHACEPHACE

• PPosterior fossa brain malformations

• Large facial HHemangiomas

• AArterial anomalies

• CCardiac anomalies and aortic Coarctation

• EEye abnormalities

( colobomas, optic nerve hypoplasia, increased retinal vascularity, and glaucoma)

Location : entirely extraconal or substantial extraconal component.

• CT findings: Lobulated, irregularly marginated, and heterogeneous. Intense homogeneous enhancement.

• MRI findings: hypointense or slightly hyperintense to brain on T1WI. hyperintense to brain on PDWI and T2WI. intense enhancement.

Vascular lesionVascular lesion > > Capillary HemangiomaCapillary Hemangioma

Typical capillary hemangioma in a 41/2-month-old girl with proptosis of the right eye and cutaneous hemangioma

A baby boy with a left orbital capillary hemangioma that presented shortly after birth.

A , Axial contrast-enhanced CT scan shows a mass filling and expanding the left orbit. The hemangioma appears to extend through the superior orbital fissure into the left cavernous sinus. The mass encircles and stretches the optic nerve sheath complex.

B, Axial T1WI reveals a large, heterogeneous, finely lobulated mass expanding the left bony orbit. The focal regions of hypointensity are consistent with flow voids attributable to vessels.

C, Axial T1WI scan shows that the capillary hemangioma involuted completely 2 years after the initialpresentation.

Capillary hemangioma. Postcontrast axial CT scan shows an enhancing mass (m) with involvement of the eyelid and

extension into the right cavernous sinus (arrow).

Capillary hemangioma. A, Enhanced axial CT scan showing a large retrobulbar mass compatible with a capillary

hemangioma (H ). B, Dynamic axial CT scanning reveals rapid wash-in of contrast in hemangioma (H).

Cavernous HemangiomaCavernous Hemangioma• M/C orbital vascular tumor in adults.• Most often in women (60%–70%) between the

ages of mean age, 43–48 years.• Slowly progressive enlargement.

• Histologically, composed of large, dilated vascular channels (sinusoid-like spaces) lined by thin, attenuated endothelial cells.

• A distinct fibrous pseudocapsule.

At histologic analysis, large dilated vascular channels lined by flattened or attenuated endothelial cells with an

intervening fibrous interstitium are visible

Vascular lesionVascular lesion > > Cavernous HemangiomaCavernous Hemangioma

Cavernous HemangiomaCavernous HemangiomaCT and MR imaging;CT and MR imaging;

May be located anywhere in the orbit but frequently (83%) occur within the retrobulbar muscle cone.

Uncommonly, an intramuscular hemangioma may occur. Well-defined masses. Variable contrast enhancement. Always respect the contour of the globe ( until ruptured ). Orbital bone modeling is not uncommon.

Cavernous malformation in a 39-year-old woman with painless progressive proptosis

Capillary hemangioma. A, Serial axial CT scan. B, Reformatted coronal CT scans. A and B show a well-defined

intraconal markedly enhancing hemangioma (H ).

Capillary hemangioma. A, Satittal PW MR scan. B, Sagittal T2-weighted MR scan. Scans show an intraconal mass

(M), which was presumed to be a cavernous hemangioma.

Capillary hemangioma. Sagittal MR images obtained without (right) and with (left) intravenous Gd-DTPA show a

hemangioma in the anterior floor of the orbit.

Large cavernous malformation cavernous malformation in a 43-year-old woman with painless proptosis of the

right eye

Axial T1-weighted MR image

Axial contrast enhanced T1-weighted fat-suppressed, image, obtained immediately after the intravenous administration of a gadolinium-based contrast material

Axial contrastenhanced T1-weighted fat-suppressed MR image, obtained 1 hour later

LymphangiomaLymphangioma(Venous Lymphatic malformations)(Venous Lymphatic malformations)

• The origin of lymphangioma = controversial.

• The lesion is an unencapsulated mass

• Consisting mostly of bloodless vascular and lymph channels.

• Clinical finding of worsening proptosis when the child has an upper respiratory tract infection.

• Occur in children and young adults.

Venous lymphatic malformation in a 5-year-old girl

during an upper respiratory tract viral infection.

after the patient recovered from the viral infection

• Spontaneous (or after minor trauma) hemorrhage within the lesion is common, resulting in a chocolate cyst.

• More common in the extraconal space.

• Typically diffuse and not well encapsulated• Usually multilobular.

• CT: Poorly circumscribed, heterogeneous masses of increased

density. Bony remodeling may be present. Calcification is rare. Minimal to marked contrast enhancement may be present.

• MR imaging: Relatively hypointense or hyperintense to brain on T1WI. Very hyperintense on T2WI. Fluid-fluid levels related to hemorrhages of various ages are

characteristic of lymphangioma.

Axial unenhanced CT image

Venous lymphatic malformation in an 11-year-old boy with progressive proptosis of the right eye and lateral displacement of the globe

Orbital VarixOrbital Varix

• Primary orbital varices = congenital venous malformations.

• M/C cause of spontaneous orbital hemorrhage.

• Typically manifest in the 2nd or 3rd decade of life, males and females equally.

• Clinically, proptosis or globe displacement increases during a Valsalva maneuver, reflecting the varix’s connection to the venous system. (Stress proptosis )

Photograph obtained with the patient at rest

Conjunctival orbital varix in a 56-year-old man whose right eyelid bulges when straining

Photograph obtained during the Valsalva maneuver

Conjunctival orbital varix in a 56-year-old man whose right eyelid bulges when straining

Photograph obtained with the upper eyelid elevated

The CT appearance;The CT appearance; May be normal in axial sections. Quite abnormal in coronal sections, particularly in the prone

position. Thrombosis and hemorrhage. May be associated with intracranial venous anomalies.

MR imaging;MR imaging; Hypointense on T1WI. Hyperintense on T2WI. Enhanced on postcontrast. Several round or tubular structures with associated

phleboliths.

Orbital varix in a 33-year-old woman with proptosis when straining

pronesupine

CE T1-weighted fat-suppressed images

CECT image obtained with the patient at rest

Bilateral orbital varices in a 27-year-old woman with a sensation of eye pressure when stooping to pick up her child

CECT image obtained with the patient at Valsalva maneuver

Vascular lesionVascular lesion > > Orbital VarixOrbital Varix

Orbital varixA, Axial CT scan shows no obvious lesion.

B, Coronal CT scan shows a large mass (arrows).

Carotid Cavernous Fistulas Carotid Cavernous Fistulas

• Often manifest with the classic triad of pulsatile exophthalmos, conjunctival chemosis, and an auscultatory bruit.

• A CCF may result from trauma or surgery, or it may occur spontaneously.

• Spontaneous CCF have been reported in patients with osteogenesis imperfecta, Ehlers-Danlos syndrome, and pseudoxanthoma elasticum.

Carotid Cavernous Fistulas Carotid Cavernous Fistulas

CT and MR imaging;CT and MR imaging; Proptosis. Engorgement of the superior ophthalmic vein. Enlargement of the ipsilateral extraocular muscles.

May be evidence of venous thrombosis in the lumen of the superior ophthalmic vein or cavernous sinus.

Vascular lesionVascular lesion > > Carotid Cavernous Fistulas Carotid Cavernous Fistulas

Carotid cavernous fistula. Enhanced axial CT scan shows enlarged intraorbital veins (arrows) and an enlarged left cavernous sinus.

Carotid cavernous fistula in a 52-year-old woman with proptosis, chemosis, and

conjunctival injection

Axial T2-weighted MR images

Axial maximum intensity projection image from MR angiography

HemangiopericytomaHemangiopericytoma

• Rare, slow-growing vascular neoplasms that arise from unique cells called pericytes of Zimmermann.

• About 50% of the cases are malignant, and distant metastases. Most such metastases go to the lungs.

• If not excised completely, these lesions tend to recur, and wide surgical excision is the treatment of choice.

HemangiopericytomaHemangiopericytoma

CT & MRI:CT & MRI: Slightly less distinct. Erosion of the underlying bone may be present. Marked contrast enhancement.

Vascular lesionVascular lesion > > HemangiopericytomaHemangiopericytoma

Hemangiopericytoma in a 47-year-old man with proptosis of the left eye. Axial contrast-enhanced CT image shows a lobulated, slightly and homogeneously enhancing

left ethmoid sinus mass that has eroded the medial orbital wall. Note the extraconal extension of the lesion into the orbit and the resultant displacement of the

globe.

Vascular lesionVascular lesion > > HemangiopericytomaHemangiopericytoma

Hemangiopericytoma. A, Contrast-enhanced axial CT scan shows an enhancing mass (M) compatible with

hemangiopericytoma. Note the erosion of the lateral orbital wall (arrowhead ). B, Recurrent hemangiopericytoma. Enhanced axial T1WI shows a heterogeneously

enhancing mass (arrows) compatible with recurrent hemangiopericytoma.

ORBITAL TUMORSORBITAL TUMORS

• Orbital lymphoma• Orbital Schwannoma & Neurofibroma• Fibrous Histiocytoma• Fibroma and Fibrosarcoma• Nodular Fasciitis• Rhabdomyosarocama• Orbital mesenchymal chondrosarcomaOrbital mesenchymal chondrosarcoma

Orbital LymphomaOrbital Lymphoma

• 75% have or will have systemic lymphoma.

• True lymphoid tissue in the orbit is found in the subconjunctival and lacrimal glands.

• Both benign and malignant lymphoid tumors of the orbit occur predominantly in adults and are extremely rare in children.

• Involvement of one or more paranasal sinuses is more typical of B-cell lymphoma.

• Involvement of the nasal cavity is more typical of T-cell lymphoma.

The CT and MR imaging findings;The CT and MR imaging findings; Usually nonspecific: impossible to differentiate

from orbital pseudotumors, lacrimal gland tumors, optic nerve tumors, Graves’ orbitopathy, primary orbital tumors, or orbital cellulitis.

Homogeneous masses of relatively high density and sharp margins.

More often seen in the anterior portion, the retrobulbar area, or in the superior orbital compartment.

Mild to moderate enhancement.

The CT and MR imaging findings;The CT and MR imaging findings; Mold themselves around the orbital structures

without producing bony erosion. However, the aggressive malignant lymphomas

can produce frank destruction of bone.

Both pseudotumors and lymphoma may have intermediate or low signal intensity on T1WI and appear isointense to fat on T2WI.

ORBITAL TUMORSORBITAL TUMORS> > Orbital lymphomaOrbital lymphoma

Lymphoma.Postcontrast axial CT scan shows an infiltrative process involving the left lacrimal

gland (1), lateral orbital compartment (2), and perioptic nerve region (arrows).

Lymphoma.Postcontrast axial CT scan shows a soft-tissue mass (arrow) in the left retrobulbar

region.

Lymphoma.Postcontrast axial CT scan shows a large mass (M) involving the right lacrimal

gland (arrow) and retrobulbar region.

Orbital Schwannoma & NeurofibromaOrbital Schwannoma & Neurofibroma

Neurofibromas and schwannomas are two benign tumors originating from Schwann cells that occur in the orbit as isolated lesions or in association with neurofibromatosis.

Malignant peripheral nerve tumors (malignant schwannoma, neurofibrosarcoma) are extremely rare in the orbit.

The optic nerve has no Schwann cells; therefore, orbital schwannomas must arise from peripheral nerve fibers of nerves III, IV, V, VI, VII, and the autonomic nerves.

Orbital Schwannoma & NeurofibromaOrbital Schwannoma & Neurofibroma

On CT and MR imaging, orbital schwannomas appear as sharply marginated, oval or fusiform, intraconal or extraconal masses

Moderate to marked enhancement.

The optic nerve is always displaced and may be engulfed by the tumor.

ORBITAL TUMORSORBITAL TUMORS> > Orbital Schwannoma & NeurofibromaOrbital Schwannoma & Neurofibroma

Neurofibroma A, Postcontrast axial CT scan demonstrating a well-enhanced intraconal neurofibroma (arrow) of the posterior orbit. B, Axial T1WI scan of a posterior neurofibroma (arrow) as in A. Tumor is isointense to brain and hypointense to orbital fat. C, Axial fat-suppressed T1-weighted MR image of the tumor seen in A and B demonstrating the marked contrast

enhancement of a posterior neurofibroma (arrow).

ORBITAL TUMORSORBITAL TUMORS> > Orbital Schwannoma & NeurofibromaOrbital Schwannoma & Neurofibroma

Orbital schwannoma. Contrast-enhanced axial CT scan shows a large enhancing mass (M).

Fibrous HistiocytomaFibrous Histiocytoma Fibrous histiocytoma is a mesenchymal tumor that involves

the fascia, muscle, and soft tissues. Some authors to be the most common mesenchymal tumor

of the orbit.

The tumor may be either benign or malignant. Malignant lesions cause bone erosion. Benign lesions cause bone remodeling.

CT and MR imaging;• Well-circumscribed masses.

• Intraconal or extraconal masses

• Moderate to marked contrast enhancement

ORBITAL TUMORSORBITAL TUMORS> > Fibrous histiocytoma Fibrous histiocytoma

Fibrous histiocytoma. Axial postcontrast CT scan showing a bilobed enhancing mass (M) involving the peripheral orbital space.

Fibroma and FibrosarcomaFibroma and Fibrosarcoma Fibroma is the least common fibrous tumor of the orbit and

is found mostly in young adults. It is usually encapsulated and grows slowly over several

years. It arises from the fascia of the EOMs or Tenon’s capsule in

the orbit. Fibromatosis tends to be locally infiltrative and grows

rapidly, which may cause it to be considered as a low-grade fibrosarcoma.

Fibrosarcoma is also rare in the orbit.

CT and MR imagingCT and MR imaging may show a lesion with either benign-appearing or invasive characteristics.

ORBITAL TUMORSORBITAL TUMORS> > Fibroma and FibrosarcomaFibroma and Fibrosarcoma

Aggressive fibromatosis. A, Enhanced axial CT scan shows a mass (arrow) with moderate enhancement. B, Axial T1WI. The mass (arrow) is isointense to brain tissue. C, Axial T2WI. The mass (arrow) appears hyperintense to muscles. D, Enhanced fat-suppression axial T1WI. The mass (arrow) shows marked enhancement. Note invasion of the globe.

Nodular FasciitisNodular Fasciitis Common fibrous tumor. Found elsewhere in the limbs and trunk of adults. Head and neck involvement = more commonly in infants and

children.

Orbital involvement may develop in the lid, conjunctiva, Tenon’s capsule, or the deep orbit.

CT and MR imaging findings are nonspecific.CT and MR imaging findings are nonspecific.• Similar to those of aggressive fibromatosis.

Best treated with complete excision. Recurrence rate of 1-2%.

ORBITAL TUMORSORBITAL TUMORS> > Nodular FasciitisNodular Fasciitis

Nodular fasciitis. : A 36-year-old man presented with an apparent inflammatory left orbital mass, which was unresponsive to 3 weeks of antibiotics.

• Axial (A) and coronal (B) contrast-enhanced CT: Soft-tissue windows show an ill-defined, enhancing, extraconal or subperiosteal soft-tissue mass in the left superior-lateral orbit, with a low-attenuation central area (arrowheads). Note the subtle enhancement along the anterior cranial fossa (arrow).

• C, Coronal CT bone windows demonstrate focal erosion in the frontal bone adjacent to this low-attenuation region (arrowhead). • D, Coronal T1WI reveals an intermediate intensity extending lateral to the orbital rim in addition to eroding the frontal bone. • E, Coronal, fat-saturation, postgadolinium, T1WI shows most of the mass enhances, with a central, nonenhancing focus adjacent to the bone

erosion. Note the intracranial dural reaction (arrow). • F, Coronal, fast-STIR (2000/12/160) image. The mass is isointense to gray matter, with a focal area of hyperintensity corresponding to the cystic-

appearing region on the postgadolinium image. • The preoperative diagnosis was ruptured dermoid cyst or an aggressive lacrimal region abscess with osteomyelitis.

RHABDOMYOSARCOMARHABDOMYOSARCOMA

M/C primary orbital malignancy in children. M/C soft-tissue malignancy of childhood.

RMS area.

• Head and neck = 35%

• GU system = 23%

• Extremities for = 17%.

10% occur primarily in orbit. 10% metastasize to / invade orbit.

Rapidly progressive exophthalmos + proptosis of upper lid.

Metastases: lung, bone marrow, cervical lymph nodes (rare).

Imagings:Imagings: Location:Location: superior orbit / retrobulbar (71%), lid (22%),

conjunctiva (7%) Large soft-tissue mass with ill-defined margins with significant

enhancement. Extraocular muscles not involved. Heterogeneous : hemorrhage. Extension into preseptal space, adjacent sinus, nasal cavity,

intracranial cavity. Bony erosion may present. MRI : Iso/Hypo on T1WI and Hyper on T2WI.

ORBITAL TUMORSORBITAL TUMORS> > RHABDOMYOSARCOMA OF THE ORBITRHABDOMYOSARCOMA OF THE ORBIT

Rhabdomyosarcoma (5-year-old boy). Enhanced axial CT scan shows an orbital mass (M) with moderate contrast enhancement.

ORBITAL TUMORSORBITAL TUMORS> > RHABDOMYOSARCOMA OF THE ORBITRHABDOMYOSARCOMA OF THE ORBIT

Rhabdomyosarcoma (5-year-old boy). Axial enhanced CT scan shows a large mass (M) in the right orbit extending into the right ethmoid air cells (E) and right infratemporal fossa (arrow).

Orbital mesenchymal Orbital mesenchymal chondrosarcomachondrosarcoma

Extremely rare More frequently in young women.

Proptosis, with orbital pain, diplopia, and headache.

Imaging Findings:Imaging Findings:

• Well-defined soft-tissue mass.

• Mottled, coarse calcification.

• Moderate, delayed contrast enhancement.

• Hypo/iso T1WI and iso on T2WI (to brain).

ORBITAL TUMORSORBITAL TUMORS> > Orbital mesenchymal chondrosarcomaOrbital mesenchymal chondrosarcoma

Mesenchymal chondrosarcoma. A, Enhanced axial CT scan shows a heavily calcified mass (M) in the right retrobulbar space.

ORBITAL TUMORSORBITAL TUMORS> > Orbital mesenchymal chondrosarcomaOrbital mesenchymal chondrosarcoma

Mesenchymal chondrosarcoma. B, Axial nonenhanced T1WI shows that the mass (M) is isointense to brain. Note areas of hypointensity

related to more dense calcification. C, Axial, T2WI shows that the mass (M) is heterogeneous but markedly hypointense, related to intratumoral

foci of calcifications. D, Axial-enhanced T1WI shows that the mass is rather hypervascular, as evidenced by marked contrast

enhancement. The calcified component of the mass shows less enhancement (arrows).

SECONDARY ORBITAL TUMORSSECONDARY ORBITAL TUMORS Directly invasion.

• From sinonasal cavities, oral cavity, skin of face and intracranial.

Metastases to the orbit.• Women : CA breast.• Men: CA lung, kidney, or prostate.

• Children: Primary neuroblastoma, Ewing’s sarcoma, and Wilms’

tumor.

Metastatic lesions may occur in any of the orbital compartments.

CT and MRI findings: may simulate benign and malignant orbital tumor.

ORBITAL TUMORSORBITAL TUMORS> > SECONDARY ORBITAL TUMORSSECONDARY ORBITAL TUMORS

Bilateral orbital metastases from a carcinoma of the breast. Axial postcontrast CT scan through the midorbits demonstrates a homogeneous mass in

the retrobulbar space of the left orbit with no bony involvement. Note partial obliteration of the extraocular muscles and the optic nerve. There is asymmetric enlargement of the mid- to posterior portion of the right lateral rectus

muscle.

ORBITAL TUMORSORBITAL TUMORS> > SECONDARY ORBITAL TUMORSSECONDARY ORBITAL TUMORS

Orbital metastasis from a malignant histiocytoma.Axial-enhanced T1WI shows a metastatic deposit involving the lateral wall of the right orbit

(arrows).

OTHER ORBITAL LESIONSOTHER ORBITAL LESIONS

• Langerhans’ Cell Histiocytosis• Juvenile Xanthogranuloma

Langerhans’ Cell Histiocytosis x A granulomatous disease. The letter X indicating unknown nature. Hand-Schuller-Christian disease = the chronic disseminated

form of LCH.

Predilection for children 1 to 4 years old. M/C located in bone or bone marrow. Orbital involvement is not uncommon. Usually occurs as part of an acute disseminated form disease.

The frontal bone was most commonly involved by LCH.• Usually seen in the superolateral wall.

Langerhans’ Cell Histiocytosis X

CT and MR imagings:CT and MR imagings: M/C orbital manifestation is a solitary lesion. Multiple lesions may be present, resulting in multiple bony

defects.

Osteolytic lesion, commonly in the superotemporal orbital region.

A fairly well-defined or diffuse soft-tissue mass encroaching adjacent organs.

Moderate to marked enhancement.

OTHER ORBITAL LESIONSOTHER ORBITAL LESIONS> > Langerhans’ Cell Histiocytosis Langerhans’ Cell Histiocytosis

Langerhans’ cell histiocytosis. Four-year-old boy with a history of gradual proptosis, diabetes insipidus, and skin lesions consistent with Hand-Schu¨ller-Christian disease. A, Postcontrast axial CT scan shows replacement of the greater wing of the sphenoid bone (arrows) by soft tissue, which demonstrates marked enhancement.

B, Postcontrast axial CT scan in the same patient as in A showing a destructive lesion involving the squama of the right temporal bone (hollow arrow) as well as the posterior wall of the right maxillary sinus (solid arrow). Notice the marked soft-tissue infiltration into the right temporal fossa (hollow arrow).

OTHER ORBITAL LESIONSOTHER ORBITAL LESIONS> > Langerhans’ Cell Histiocytosis Langerhans’ Cell Histiocytosis

Langerhans’ cell histiocytosis. Langerhans’ cell histiocytosis. A, Enhanced axial CT scan shows a prominent soft-tissue mass (M) with destruction of the

orbital wall (arrow). B, Enhanced coronal CT scan shows a destructive mass involving the superolateral orbit

(arrows).

Juvenile Xanthogranuloma

Nevoxanthoendothelioma Benign grunulomatous disease of unknown etiology and pathogenesis. Usually self-healing disorder of infants, children, and occasionally adults.

The M/C site is the skin. Orbital involvement with JXG is rare. M/C sites of orbital involvement = iris and the ciliary body.

Imagings:Imagings: Enhancing soft tissue mass and anterior portion of orbit. Bony wall of the orbit may be involved. Distinguished from LCH radiologically.

OTHER ORBITAL LESIONSOTHER ORBITAL LESIONS> > Juvenile XanthogranulomaJuvenile Xanthogranuloma

JXG of the orbit. JXG of the orbit. A, Enhanced axial CT scan shows an enhancing infiltrative process involving the medial orbital region (arrow).

B, Axial T1WI shows the lesion (arrow) to be isointense to brain.

C, Gadolinium-enhanced, fat-suppressed axial MRI shows marked enhancement of the orbital lesion (arrows). The lesion was adherent to the sclera.

OTHER ORBITAL LESIONSOTHER ORBITAL LESIONS> > Juvenile XanthogranulomaJuvenile Xanthogranuloma

JXG of the orbit. JXG of the orbit. A, Enhanced axial T1WI shows an enhanced soft-tissue infiltrative process involving the lateral orbital

walls (open arrows), epidural space (white arrows), and temporal fossa (t).

B, Enhanced coronal T1WI marked soft-tissue infiltration of both orbits (arrows), as well as involvement of the frontal bone on both sides.

Orbit by Xiu

Education

Pancreatic cystic lesion by xiu

Cosmic Orbit - · PDF fileCosmic Orbit Connect the Cosmos to Inner Orbit Mantak Chia Edited by: Annette Der sken

Tetragrams And 28 Xiu

Revista escolar "Xiu-Xiu"

Xiu 4 zi 袖子

Western Keltic Mines Inc. xiu 1

Lesson 1 A Matter of Taste Lesson 1 A Matter of Taste By Xiu xiaohong

Slim Xtreme And Zi Xiu Tang

Orbit Heights Villa ORB Orbit Grand Orbit Eternia Orbit ... Meet/132837_20100128.pdf · Orbit Plaza Orbit WTC Orbit Arya Orbit Haven Orbit Terraces Date – 27 th January 2010 ORBIT

Anatomy of orbit by pushkar dhir

Dong Man Xiu Chang 32

Herstal Lighting by Orbit Illuminations

Xiu Xing Jing Tu C

by Dr Philip Xiu - Elsevier · by Dr Philip Xiu Medicine is a fascinating, exciting and sometimes challenging subject to learn. To begin with there’s a lot of new things to learn,

XIU 2020 -Echeverry Nieto Samuel David

Dong Man Xiu Chang 11

Orbit analysis by SKF

Orbit Lighting by Skialight

Orbit Bearings was awarded by Ashok Leyland in their ......Orbit Bearings was awarded by Ashok Leyland in their Supplier Summit 2012 Orbit Bearings received an award for its “Outstanding

Comparing satellite orbit determination by batch