OPT 033: Ocular Prosthesis Group 1 Reports PDF

Summary

This document describes the bony orbit, skeletal structure that houses and protects the eye, and its associated structures. It details the seven bones comprising the orbit: the frontal bone, maxilla, zygomatic bone, ethmoid bone, lacrimal bone, sphenoid bone, and palatine bone. The document also mentions contents of the orbit, ocular globe, and blood vessels, and discusses extrinsic muscles and nerves within the orbit.

Full Transcript

‭OPT 033: OCULAR PROSTHESIS‬
‭ roup Reports‬
G
‭Doctor of Optometry‬ ‭│ Fourth Year - Second Semester‬‭│ Academic Year 2024 - 2025‬
‭‬ ‭It helps maintain their position within the bony orbit.‬
‭GROUP 1: ORBITAL MARGIN‬
‭7 Cranial Bones‬
‭Bony Orbit‬
‭‬ ‭ he‬ ‭maxilla,‬ ‭palatine,‬ ‭ethmoid,‬ ‭and‬ ‭lacrimal‬ ‭bones‬ ‭are‬ ‭all‬
T
‭‬ ‭ he‬ ‭bony‬ ‭orbit,‬ ‭also‬ ‭known‬ ‭as‬ ‭the‬ ‭orbital‬ ‭cavity,‬ ‭is‬ ‭a‬ ‭skeletal‬
T ‭important‬ ‭components‬ ‭of‬ ‭the‬ ‭eye's‬ ‭orbit,‬ ‭each‬ ‭contributing‬ ‭to‬
‭structure‬‭within‬‭the‬‭skull‬‭that‬‭houses‬‭and‬‭protects‬‭the‬‭eye‬‭and‬‭its‬ ‭different aspects of the orbital structure.‬
‭associated structures.‬ ‭‬ ‭Below‬ ‭is‬‭a‬‭breakdown‬‭of‬‭their‬‭location,‬‭function,‬‭and‬‭importance‬
‭‬ ‭It‬ ‭is‬ ‭composed‬ ‭of‬ ‭seven‬ ‭bones:‬ ‭the‬ ‭frontal‬ ‭bone,‬ ‭maxilla,‬ ‭in relation to the orbital margins of the eye:‬
‭zygomatic‬ ‭bone,‬ ‭ethmoid‬ ‭bone,‬ ‭lacrimal‬ ‭bone,‬ ‭sphenoid‬ ‭bone,‬
‭and palatine bone.‬ ‭Maxilla Bone‬
‭‬ ‭These‬ ‭bones‬ ‭form‬ ‭the‬ ‭boundaries‬ ‭of‬ ‭the‬ ‭orbit‬ ‭and‬ ‭provide‬
‭mechanical‬ ‭protection‬ ‭for‬ ‭the‬ ‭eye,‬ ‭as‬ ‭well‬ ‭as‬ ‭support‬ ‭for‬ ‭the‬ ‭‬ ‭ ocation:‬ ‭The‬ ‭maxilla‬ ‭is‬ ‭the‬ ‭upper‬ ‭jawbone‬ ‭and‬ ‭forms‬ ‭a‬
L
‭muscles that control eye movement.‬ ‭significant‬ ‭part‬ ‭of‬ ‭the‬ ‭medial‬ ‭and‬ ‭inferior‬ ‭walls‬ ‭of‬ ‭the‬ ‭orbit.‬ ‭It‬
‭‬ ‭The‬ ‭bony‬ ‭orbit‬ ‭also‬ ‭contains‬ ‭several‬ ‭foramina‬ ‭and‬ ‭fissures‬ ‭connects to the lacrimal, ethmoid, and zygomatic bones.‬
‭through‬ ‭which‬ ‭important‬ ‭neurovascular‬ ‭structures,‬ ‭such‬ ‭as‬ ‭the‬ ‭‬ ‭Function:‬ ‭Forms‬ ‭the‬ ‭inferior‬ ‭margin‬ ‭of‬‭the‬‭orbit‬‭and‬‭part‬‭of‬‭the‬
‭optic nerve, pass.‬ ‭medial‬ ‭wall.‬ ‭Houses‬ ‭the‬ ‭nasolacrimal‬ ‭duct,‬ ‭which‬ ‭drains‬ ‭tears‬
‭from‬ ‭the‬ ‭eye‬ ‭to‬ ‭the‬ ‭nasal‬ ‭cavity.‬ ‭Provides‬‭structural‬‭support‬‭for‬
‭the eye and helps form the floor of the orbit.‬
‭Contents of the Orbit‬ ‭‬ ‭Importance:‬ ‭The‬ ‭maxilla‬ ‭is‬ ‭critical‬ ‭for‬ ‭the‬‭stability‬‭of‬‭the‬‭orbital‬
‭structure‬ ‭and‬ ‭plays‬ ‭a‬ ‭key‬ ‭role‬ ‭in‬ ‭tear‬ ‭drainage‬ ‭through‬ ‭the‬
‭ ontents‬‭of‬‭the‬‭orbit‬‭which‬‭includes‬‭various‬‭structures‬‭that‬‭support‬‭the‬
C ‭nasolacrimal duct.‬
‭function and protection of the eye.‬
‭Palatine Bone‬
‭Ocular Globe‬
‭‬ ‭ ocation:‬‭The‬‭palatine‬‭bone‬‭is‬‭located‬‭at‬‭the‬‭back‬‭portion‬‭of‬‭the‬
L
‭‬ ‭The eyeball itself occupies about 1/5 of the orbital volume‬ ‭inferior‬‭wall‬‭of‬‭the‬‭orbit.‬‭It‬‭contributes‬‭to‬‭the‬‭posterior‬‭part‬‭of‬‭the‬
‭orbital floor.‬
‭Blood Vessels‬ ‭‬ ‭Function:‬ ‭Primarily‬ ‭supports‬ ‭the‬ ‭orbital‬ ‭floor‬ ‭at‬ ‭the‬ ‭back,‬
‭‬ ‭ here‬ ‭are‬ ‭2‬ ‭types‬ ‭of‬ ‭blood‬ ‭vessels,‬ ‭these‬ ‭are‬ ‭the‬ ‭arteries‬‭and‬
T ‭providing‬ ‭structural‬ ‭integrity.‬ ‭Part‬ ‭of‬ ‭the‬ ‭hard‬‭palate‬‭(roof‬‭of‬‭the‬
‭veins.‬ ‭mouth) and also involved in forming part of the nasal cavity.‬
‭‬ ‭So,‬ ‭in‬ ‭the‬ ‭orbit‬ ‭there‬ ‭are‬ ‭also‬ ‭blood‬ ‭vessels,‬ ‭this‬ ‭includes‬ ‭the‬ ‭‬ ‭Importance:‬‭Though‬‭it‬‭does‬‭not‬‭directly‬‭affect‬‭the‬‭orbital‬‭margin,‬
‭ophthalmic‬‭artery,‬‭a‬‭branch‬‭of‬‭the‬‭internal‬‭carotid‬‭artery,‬‭and‬‭veins‬ ‭the‬‭palatine‬‭bone‬‭supports‬‭the‬‭overall‬‭strength‬‭of‬‭the‬‭orbit‬‭and‬‭the‬
‭such as the superior and inferior ophthalmic veins.‬ ‭facial skeleton.‬
‭‬ ‭They‬ ‭supply‬ ‭blood‬ ‭to‬ ‭the‬ ‭eye‬ ‭and‬‭surrounding‬‭structures‬‭of‬‭the‬
‭orbit‬ ‭Ethmoid Bone‬
‭‬ ‭ ocation:‬ ‭The‬‭ethmoid‬‭bone‬‭is‬‭located‬‭at‬‭the‬‭medial‬‭part‬‭of‬‭the‬
L
‭Extrinsic Muscles‬ ‭orbit,‬‭forming‬‭part‬‭of‬‭the‬‭medial‬‭wall.‬‭It‬‭lies‬‭between‬‭the‬‭lacrimal‬
‭‬ ‭This‬‭refers‬‭to‬‭the‬‭muscles‬‭that‬‭are‬‭located‬‭outside‬‭a‬‭structure‬‭that‬ ‭bone and maxilla.‬
‭ ove or control it.‬
m ‭‬ ‭Function:‬ ‭Forms‬ ‭the‬ ‭anterior‬ ‭portion‬ ‭of‬ ‭the‬ ‭medial‬ ‭orbital‬‭wall.‬
‭‬ ‭In‬‭the‬‭case‬‭of‬‭the‬‭eye,‬‭we‬‭have‬‭a‬‭specific‬‭group‬‭of‬‭muscles‬‭which‬ ‭Contains‬‭the‬‭ethmoid‬‭sinuses‬‭and‬‭forms‬‭part‬‭of‬‭the‬‭nasal‬‭cavity.‬‭It‬
‭are called extraocular muscles.‬ ‭houses‬‭the‬‭lacrimal‬‭fossa,‬‭which‬‭holds‬‭the‬‭lacrimal‬‭sac,‬‭involved‬
‭‬ ‭The six extraocular muscles control the movement of the eye:‬ ‭in tear drainage.‬
‭○‬ ‭Superior rectus‬ ‭‬ ‭Importance:‬ ‭The‬ ‭ethmoid‬ ‭bone‬ ‭contributes‬ ‭to‬ ‭the‬ ‭protection‬‭of‬
‭○‬ ‭Inferior rectus‬ ‭the‬‭eye‬‭and‬‭allows‬‭for‬‭tear‬‭drainage‬‭into‬‭the‬‭nasal‬‭cavity.‬‭It‬‭also‬
‭○‬ ‭Lateral rectus‬ ‭helps separate the orbit from the nasal cavity.‬
‭○‬ ‭Medial rectus‬
‭○‬ ‭Superior oblique‬ ‭Lacrimal Bone‬
‭○‬ ‭Inferior oblique‬ ‭‬ ‭Location:‬ ‭The‬ ‭lacrimal‬ ‭bone‬ ‭is‬ ‭located‬ ‭at‬ ‭the‬ ‭front‬ ‭part‬ ‭of‬ ‭the‬
‭ edial wall of the orbit, between the maxilla and ethmoid bone‬
m
‭Nerves‬ ‭‬ ‭Function:‬ ‭Forms‬ ‭the‬ ‭medial‬ ‭orbital‬ ‭margin‬ ‭and‬ ‭contains‬ ‭the‬
‭‬ I‭n‬‭the‬‭orbit,‬‭there‬‭are‬‭several‬‭cranial‬‭nerves‬‭that‬‭pass‬‭through‬‭or‬ ‭lacrimal‬‭fossa,‬‭which‬‭houses‬‭the‬‭lacrimal‬‭sac.‬‭The‬‭lacrimal‬‭sac‬‭is‬
‭terminate in the orbit.‬ ‭part‬ ‭of‬ ‭the‬ ‭system‬ ‭that‬ ‭drains‬ ‭tears‬ ‭from‬ ‭the‬ ‭eye‬ ‭into‬ ‭the‬
‭‬ ‭These are:‬ ‭nasolacrimal duct, ultimately draining into the nasal cavity.‬
‭○‬ ‭Optic nerve (CN II)‬‭– Vision‬
‭○‬ ‭Oculomotor‬ ‭nerve‬ ‭(CN‬ ‭III)‬ ‭–‬ ‭Controls‬ ‭most‬ ‭extraocular‬ ‭Frontal Bone‬
‭muscles‬ ‭‬ ‭The‬ ‭frontal‬ ‭bone‬ ‭forms‬‭the‬‭superior‬‭part‬‭of‬‭the‬‭orbit,‬‭specifically‬
‭○‬ ‭Trochlear‬ ‭nerve‬ ‭(CN‬ ‭IV)‬ ‭–‬ ‭Controls‬ ‭the‬ ‭superior‬ ‭oblique‬ t‭he roof.‬
‭muscle‬ ‭‬ ‭It‬‭plays‬‭a‬‭critical‬‭role‬‭in‬‭tear‬‭drainage‬‭and‬‭helps‬‭protect‬‭the‬‭eye‬‭by‬
‭○‬ ‭Abducens‬ ‭nerve‬ ‭(CN‬ ‭VI)‬ ‭–‬ ‭Controls‬ ‭the‬ ‭lateral‬ ‭rectus‬ ‭contributing to the medial boundary of the orbit.‬
‭muscle‬ ‭‬ ‭It‬ ‭contributes‬ ‭to‬ ‭the‬ ‭protection‬ ‭of‬ ‭the‬ ‭eye‬ ‭and‬ ‭houses‬ ‭the‬
‭○‬ ‭Branches‬ ‭of‬ ‭the‬ ‭trigeminal‬ ‭nerve‬ ‭(CN‬ ‭V)‬ ‭–‬ ‭Provides‬ ‭supraorbital‬ ‭foramen‬ ‭or‬ ‭notch,‬ ‭which‬ ‭allows‬ ‭nerves‬ ‭and‬ ‭blood‬
‭sensation‬ ‭vessels to pass through.‬
‭‬ ‭The‬ ‭bone's‬ ‭orbital‬ ‭plate‬ ‭provides‬ ‭structural‬ ‭integrity,‬ ‭separating‬
‭Adipose (Fat) Tissue‬ ‭the‬ ‭orbital‬ ‭cavity‬ ‭from‬ ‭the‬ ‭frontal‬ ‭sinus‬ ‭and‬ ‭the‬ ‭anterior‬ ‭cranial‬
‭‬ ‭Its‬‭function‬‭is‬‭to‬‭act‬‭like‬‭a‬‭cushion‬‭and‬‭stabilize‬‭the‬‭ocular‬‭globe‬ ‭fossa.‬
‭ nd other orbital structures.‬
a

‭Transes by: Adelle Katherine R. Intan‬ ‭1‬
‭OPT 033: OCULAR PROSTHESIS‬
‭ roup Reports‬
G
‭Doctor of Optometry‬ ‭│ Fourth Year - Second Semester‬‭│ Academic Year 2024 - 2025‬
‭‬ ‭This‬ ‭role‬ ‭in‬ ‭the‬‭orbit‬‭is‬‭crucial‬‭for‬‭shielding‬‭the‬‭eye‬‭from‬‭trauma‬ ‭Optic Foramen (Optic Canal)‬
‭ nd supporting the structures of the forehead and brow region.‬
a ‭‬ ‭Function:‬ ‭Transmits‬ ‭the‬ ‭optic‬ ‭nerve‬‭(CN‬‭II)‬‭and‬‭the‬‭ophthalmic‬
‭ rtery into the orbit.‬
a
‭Zygomatic Bone‬ ‭‬ ‭Location:‬ ‭Found‬ ‭in‬ ‭the‬ ‭lesser‬ ‭wing‬‭of‬‭the‬‭sphenoid‬‭bone,‬‭near‬
‭‬ ‭ lso‬‭known‬‭as‬‭the‬‭malar‬‭bone‬‭,‬‭is‬‭a‬‭paired‬‭bone‬‭in‬‭the‬‭face‬‭that‬
A ‭the apex of the orbit.‬
‭forms the prominence of the cheek.‬ ‭‬ ‭The‬‭optic‬‭foramen‬‭is‬‭an‬‭opening‬‭located‬‭in‬‭the‬‭lesser‬‭wing‬‭of‬‭the‬
‭‬ ‭It‬ ‭connects‬ ‭with‬ ‭the‬ ‭maxilla,‬ ‭frontal‬ ‭bone,‬ ‭and‬ ‭temporal‬ ‭bone,‬ ‭sphenoid bone within the bony orbit.‬
‭contributing‬‭to‬‭the‬‭structure‬‭of‬‭the‬‭eye‬‭socket‬‭(orbit)‬‭and‬‭providing‬ ‭‬ ‭It‬ ‭serves‬ ‭as‬ ‭a‬ ‭crucial‬ ‭passageway‬ ‭for‬ ‭the‬ ‭optic‬ ‭nerve‬ ‭(cranial‬
‭support for the face’s musculature.‬ ‭nerve II) and the ophthalmic artery to enter the eye.‬
‭‬ ‭This‬‭foramen‬‭is‬‭essential‬‭for‬‭vision,‬‭as‬‭it‬‭allows‬‭the‬‭optic‬‭nerve‬‭to‬
‭Sphenoid Bone‬ ‭transmit visual information from the retina to the brain.‬
‭‬
‭ complex, butterfly-shaped bone located at the base of the skull.‬
A
‭‬ ‭It‬‭forms‬‭part‬‭of‬‭the‬‭eye‬‭socket,‬‭the‬‭side‬‭of‬‭the‬‭skull,‬‭and‬‭the‬‭floor‬ ‭Superior Orbital Fissure (Sphenoidal Fissure)‬
‭of the cranial cavity.‬ ‭‬ ‭ unction:‬ ‭An‬ ‭opening‬ ‭that‬ ‭lets‬ ‭important‬ ‭nerves‬ ‭and‬ ‭blood‬
F
‭‬ ‭The‬ ‭sphenoid‬ ‭connects‬ ‭with‬ ‭several‬ ‭other‬ ‭bones,‬ ‭including‬ ‭the‬ ‭vessels‬ ‭travel‬ ‭between‬ ‭your‬ ‭brain‬ ‭and‬ ‭eye.‬ ‭It‬‭helps‬‭control‬‭eye‬
‭frontal,‬‭temporal,‬‭and‬‭occipital,‬‭and‬‭contains‬‭important‬‭structures‬ ‭movements,‬ ‭vision,‬ ‭and‬ ‭automatic‬ ‭eye‬ ‭functions‬ ‭like‬ ‭pupil‬‭size.‬
‭like the sella turcica, which houses the pituitary gland.‬ ‭Transmits several important structures, including:‬
‭‬ ‭Its‬‭shape‬‭and‬‭position‬‭make‬‭it‬‭crucial‬‭for‬‭the‬‭structural‬‭integrity‬‭of‬ ‭○‬ ‭Oculomotor‬ ‭nerve‬ ‭(CN‬ ‭III)‬ ‭–‬ ‭Controls‬ ‭most‬ ‭of‬ ‭the‬ ‭eye’s‬
‭the skull and the protection of the brain.‬ ‭movements and helps with pupil constriction.‬
‭○‬ ‭Trochlear‬ ‭nerve‬ ‭(CN‬ ‭IV)‬ ‭–‬ ‭Controls‬ ‭one‬ ‭eye‬ ‭muscle‬ ‭that‬
‭helps you look down.‬
‭○‬ ‭Abducens‬‭nerve‬‭(CN‬‭VI)‬‭–‬ ‭Controls‬‭the‬‭muscle‬‭that‬‭moves‬
‭the eye outward.‬
‭○‬ ‭Branches‬ ‭of‬‭the‬‭ophthalmic‬‭nerve‬‭(CN‬‭V1)‬‭–‬‭These‬‭help‬
‭with‬ ‭feeling‬ ‭in‬ ‭the‬ ‭forehead,‬ ‭upper‬ ‭eyelid,‬‭and‬‭parts‬‭of‬‭the‬
‭eye.‬
‭○‬ ‭Sympathetic‬ ‭Nerve‬ ‭Branches‬ ‭–‬ ‭Help‬ ‭control‬ ‭automatic‬
‭functions like pupil dilation (how wide or narrow the pupil is).‬
‭○‬ ‭Superior‬ ‭Ophthalmic‬ ‭Vein‬ ‭–‬ ‭Carries‬‭blood‬‭away‬‭from‬‭the‬
‭eye and connects to the brain’s blood vessels.‬
‭‬ ‭Location:‬‭Between‬‭the‬‭greater‬‭and‬‭lesser‬‭wings‬‭of‬‭the‬‭sphenoid‬
‭bone, connecting the orbit to the middle cranial fossa.‬
‭‬ ‭In‬ ‭the‬ ‭middle‬ ‭of‬ ‭the‬ ‭fissure,‬ ‭there‬ ‭is‬ ‭a‬ ‭fibrous‬ ‭ring‬ ‭called‬ ‭the‬
‭Annulus‬‭of‬‭Zinn‬‭.‬‭This‬‭ring‬‭acts‬‭as‬‭the‬‭starting‬‭point‬‭for‬‭some‬‭of‬
‭the‬ ‭eye‬ ‭muscles‬ ‭that‬ ‭help‬ ‭you‬ ‭move‬ ‭your‬ ‭eye‬ ‭in‬ ‭different‬
‭directions‬‭.‬

‭GROUP 2: PAIRED BONES‬

‭‬ ‭Paired‬ ‭bones‬ ‭are‬ ‭essential‬ ‭components‬ ‭of‬ ‭the‬ ‭human‬ ‭skeletal‬
‭ ystem.‬
s
‭‬
‭They exist in symmetrical pairs, one on each side of the body.‬
‭‬ ‭This‬ ‭symmetry‬ ‭allows‬ ‭for‬ ‭balanced‬ ‭movement‬ ‭and‬ ‭function,‬
‭making them crucial for our daily activities.‬
‭Foramen and Fissure‬ ‭‬ ‭From‬‭protecting‬‭vital‬‭organs‬‭to‬‭enabling‬‭complex‬‭motions,‬‭paired‬
‭bones‬‭play‬‭a‬‭fundamental‬‭role‬‭in‬‭maintaining‬‭our‬‭body's‬‭structure‬
‭and overall health.‬
‭‬ ‭ oramen‬‭and‬‭fissures‬‭are‬‭passageways‬‭through‬‭the‬‭bones‬‭of‬‭the‬
F
‭‬ ‭The‬ ‭human‬ ‭body‬ ‭includes‬ ‭several‬ ‭paired‬ ‭bones,‬ ‭such‬ ‭as‬ ‭the‬
‭skulls‬‭that‬‭allow‬‭different‬‭structures‬‭of‬‭the‬‭nervous‬‭and‬‭circulatory‬
‭parietal‬ ‭and‬ ‭temporal‬ ‭bones‬ ‭of‬ ‭the‬ ‭skull,‬ ‭the‬ ‭clavicle‬
‭system to enter and exit the skull.‬
‭(collarbones), and the scapulae (shoulder blades).‬
‭‬ ‭The‬‭difference‬‭between‬‭foramen‬‭and‬‭fissure‬‭is‬‭that‬‭the‬‭fissure‬‭is‬‭a‬
‭‬ ‭These‬‭bones‬‭are‬‭mirror‬‭images‬‭of‬‭each‬‭other‬‭working‬‭together‬‭to‬
‭different‬ ‭shape‬ ‭of‬ ‭hole‬ ‭(mura‬ ‭ug‬ ‭crack)‬ ‭that‬ ‭typically‬ ‭occurs‬
‭provide stability and support.‬
‭between separate anatomical structures.‬
‭‬ ‭Three most important of these are:‬
‭Maxilla Bone‬
‭○‬ ‭Nasolacrimal (tear) canal‬
‭○‬ ‭Optic foramen‬ ‭‬ ‭Location:‬ ‭Centrally‬ ‭located‬ ‭within‬ ‭the‬ ‭skull‬ ‭and‬ ‭makes‬ ‭up‬ ‭the‬
‭○‬ ‭Superior orbital (sphenoidal fissure)‬ ‭ enter of the face.‬
c
‭‬ ‭Function:‬ ‭It‬ ‭provides‬ ‭critical‬ ‭bone‬ ‭structure‬ ‭to‬ ‭the‬ ‭skull‬ ‭and‬
‭Nasolacrimal Canal‬ ‭defines‬ ‭the‬ ‭face.‬ ‭Forms‬ ‭the‬ ‭floor‬ ‭and‬ ‭lateral‬ ‭wall‬ ‭of‬ ‭the‬ ‭nasal‬
‭cavity.‬
‭‬ ‭Function:‬‭Drains‬‭tears‬‭from‬‭the‬‭lacrimal‬‭sac‬‭into‬‭the‬‭nasal‬‭cavity‬
‭‬ ‭Involved in the formation of the orbit, nose, palate.‬
(‭ specifically into the inferior meatus).‬
‭‬ ‭Location:‬ ‭Found‬ ‭at‬ ‭the‬ ‭medial‬ ‭wall‬ ‭of‬ ‭the‬ ‭orbit,‬ ‭between‬ ‭the‬
‭Palatine Bone‬
‭maxilla and lacrimal bones.‬
‭‬ ‭Location:‬ ‭Situated‬ ‭at‬ ‭the‬ ‭back‬ ‭of‬ ‭the‬ ‭nasal‬‭cavity‬‭between‬‭the‬
‭ axilla and sphenoid.‬
m
‭‬ ‭Function:‬‭Helps‬‭form‬‭the‬‭nasal‬‭and‬‭oral‬‭cavities,‬‭the‬‭roof‬‭of‬‭the‬
‭mouth, and the lower portion of the eye sockets (orbits).‬

‭Transes by: Adelle Katherine R. Intan‬ ‭2‬
‭OPT 033: OCULAR PROSTHESIS‬
‭ roup Reports‬
G
‭Doctor of Optometry‬ ‭│ Fourth Year - Second Semester‬‭│ Academic Year 2024 - 2025‬
‭‬ ‭Helps‬ ‭in‬ ‭building‬ ‭3‬ ‭cavities‬ ‭the‬ ‭skull:‬ ‭oral‬ ‭cavity,‬ ‭nasal‬ ‭cavity,‬ ‭Restricted Eye Movement (Strabismus)‬
‭ rbits‬
o ‭‬ ‭ roblem:‬ ‭Abnormalities‬ ‭in‬ ‭the‬ ‭zygomatic,‬ ‭lacrimal,‬ ‭or‬ ‭palatine‬
P
‭bones‬ ‭can‬ ‭affect‬ ‭the‬ ‭alignment‬‭of‬‭the‬‭eye‬‭and‬‭the‬‭muscles‬‭that‬
‭Zygomatic Bone‬ ‭control‬‭eye‬‭movement,‬‭leading‬‭to‬‭strabismus‬‭(misalignment‬‭of‬‭the‬
‭‬ ‭Location:‬ ‭Located‬ ‭just‬ ‭below‬ ‭each‬ ‭eye‬ ‭and‬‭extends‬‭upward‬‭to‬ ‭eyes), whether due to trauma, congenital conditions, or disease.‬
t‭he outer side of each eye.‬
‭‬ ‭Function:‬ ‭A‬ ‭structure‬ ‭which‬ ‭joins‬ ‭the‬ ‭bones‬ ‭of‬ ‭the‬ ‭face‬ ‭while‬ ‭Difficulty with Tear Drainage (Epiphora)‬
‭protecting‬‭the‬‭arteries,‬‭nerves,‬‭veins,‬‭and‬‭organs‬‭which‬‭lie‬‭below‬ ‭‬ ‭ roblem:‬‭Lacrimal‬‭bone‬‭fractures‬‭or‬‭congenital‬‭malformations‬‭of‬
P
‭the surface.‬ ‭the‬‭lacrimal‬‭system‬‭can‬‭lead‬‭to‬‭tear‬‭drainage‬‭problems,‬‭such‬‭as‬
‭epiphora (excessive tearing).‬
‭Lacrimal Bone‬ ‭‬ ‭This‬‭can‬‭occur‬‭due‬‭to‬‭damage‬‭to‬‭the‬‭nasolacrimal‬‭duct‬‭or‬‭lacrimal‬
‭‬ ‭ ocation:‬‭Medial‬‭(inner)‬‭part‬‭of‬‭each‬‭orbit,‬‭near‬‭the‬‭corner‬‭of‬‭the‬
L ‭sac, often resulting from trauma or abnormal bone development.‬
‭eye, and are situated between the maxilla and the ethmoid bone.‬
‭‬ ‭Function:‬ ‭The‬ ‭lacrimal‬ ‭bones‬ ‭support‬‭the‬‭nasolacrimal‬‭duct‬‭for‬ ‭Orbital Floor Fractures (Blowout Fractures)‬
‭tear‬ ‭drainage‬ ‭and‬ ‭contribute‬ ‭to‬ ‭the‬ ‭structure‬ ‭of‬ ‭the‬ ‭orbit,‬ ‭‬ ‭ roblem:‬ ‭Orbital‬ ‭blowout‬‭fractures,‬‭typically‬‭involving‬‭the‬‭orbital‬
P
‭protecting and supporting the eye.‬ ‭floor‬‭(often‬‭the‬‭maxillary‬‭bone),‬‭can‬‭lead‬‭to‬‭damage‬‭to‬‭the‬‭tissues‬
‭and‬ ‭structures‬ ‭surrounding‬ ‭the‬ ‭eye,‬ ‭such‬ ‭as‬ ‭the‬ ‭inferior‬ ‭rectus‬
‭Nasal Bone‬ ‭muscle‬ ‭or‬ ‭orbital‬ ‭fat,‬ ‭leading‬ ‭to‬ ‭herniation‬ ‭and‬ ‭changes‬ ‭in‬ ‭eye‬
‭‬ ‭Location:‬ ‭Upper-middle‬ ‭area‬ ‭of‬ ‭the‬ ‭face,‬ ‭forming‬ ‭the‬‭bridge‬‭of‬ ‭positioning.‬
t‭he nose‬
‭‬ ‭Function:‬ ‭Structural‬ ‭support‬ ‭to‬ ‭the‬ ‭nose,‬ ‭protect‬ ‭internal‬‭nasal‬ ‭Cosmetic Concerns‬
‭structures, and help shape the appearance of the face.‬ ‭‬ ‭ roblem:‬ ‭Paired‬ ‭bone‬ ‭abnormalities,‬ ‭such‬ ‭as‬ ‭nasal‬ ‭bone‬ ‭or‬
P
‭zygomatic‬ ‭deformities,‬ ‭can‬ ‭lead‬ ‭to‬‭cosmetic‬‭concerns,‬‭including‬
‭Inferior Nasal Conchae Bone‬ ‭asymmetry,‬ ‭a‬ ‭sunken‬ ‭appearance,‬ ‭or‬ ‭altered‬ ‭positioning‬ ‭of‬ ‭the‬
‭‬ ‭Location:‬ ‭Inside‬ ‭the‬ ‭nasal‬ ‭cavity,‬ ‭along‬‭the‬‭lateral‬‭walls,‬‭below‬ ‭eyes.‬
t‭he middle nasal conchae.‬
‭‬ ‭Function:‬‭Filter‬‭warm‬‭and‬‭humidify‬‭air,‬‭increase‬‭surface‬‭area‬‭for‬ ‭GROUP 3: UNPAIRED BONES‬
‭airflow,‬‭and‬‭help‬‭protect‬‭the‬‭respiratory‬‭system‬‭and‬‭enhance‬‭the‬
‭sense of smell.‬
‭Frontal Bone‬
‭Importance of Paired Bones‬ ‭Importance of Paired Bones‬
‭In Relation to Ocular Prosthesis‬ ‭‬
‭ single bone that forms the smooth curvature of the forehead.‬
A
♡
‭ ‬ ‭ ymmetry & Balance‬
S ♡
‭ ‬ ‭ rbital Support‬
O ‭‬ ‭Has two main parts: the squamous part, and the orbit.‬
‭♡‬ ‭Protection‬ ‭♡‬ ‭Protection‬ ‭‬ ‭It‬ ‭protects‬ ‭the‬ ‭frontal‬ ‭lobe‬ ‭of‬ ‭the‬ ‭brain‬ ‭&‬ ‭the‬ ‭ethmoid‬ ‭bone’s‬
‭♡‬ ‭Movement‬ ‭♡‬ ‭Symmetry & Aesthetics‬ ‭horizontal plate.‬
‭♡‬ ‭Strength & Flexibility‬ ‭♡‬ ‭Movement Coordination‬ ‭‬ ‭Cribriform‬ ‭plate‬ ‭–‬ ‭allows‬ ‭the‬ ‭olfactory‬ ‭nerve‬ ‭bundles‬ ‭to‬ ‭pass‬
‭♡‬ ‭Redundancy‬ ‭♡‬ ‭Fit & Comfort‬ ‭through‬ ‭its‬ ‭perforated‬ ‭surface‬ ‭and‬ ‭bring‬ ‭the‬‭ceiling‬‭of‬‭the‬‭nasal‬
‭cavity.‬
‭Paired Bones Abnormalities‬ ‭‬ ‭Three‬ ‭regions/parts:‬ ‭Squamous‬ ‭part‬ ‭(Forehead),‬ ‭Orbital‬ ‭part‬
‭(Orbit), Nasal Part (Nose)‬
‭Orbital Misalignment‬ ‭Squamous part (Forehead)‬
‭‬ ‭ roblem:‬‭Abnormalities‬‭in‬‭the‬‭paired‬‭bones‬‭of‬‭the‬‭orbit,‬‭such‬‭as‬
P ‭‬
‭ ost anterior neurocranium bone‬
M
‭zygomatic,‬ ‭maxillary,‬ ‭or‬ ‭nasal‬ ‭bones,‬ ‭can‬ ‭cause‬ ‭orbital‬ ‭‬ ‭One of the skull bones enclosing the brain (neurocranium)‬
‭misalignment or displacement.‬ ‭‬ ‭Largest area of the frontal bone‬
‭○‬ ‭Frontal sinuses‬‭– located superior to the orbit.‬
‭Facial Asymmetry‬ ‭○‬ ‭Supraorbital‬ ‭notch‬ ‭–‬ ‭superior‬ ‭border‬ ‭of‬ ‭the‬ ‭orbit‬
‭‬ ‭Problem:‬ ‭Abnormalities‬ ‭in‬ ‭the‬ ‭zygomatic,‬ ‭maxillary,‬ ‭nasal,‬ ‭or‬ ‭(supraorbital‬ ‭margin)‬ ‭where‬ ‭the‬ ‭supraorbital‬ ‭vessels‬ ‭and‬
l‭acrimal bones can lead to facial asymmetry or deformities.‬ ‭nerve pass through.‬
‭‬ ‭These‬ ‭abnormalities‬ ‭may‬ ‭be‬ ‭congenital‬ ‭(e.g.,‬ ‭in‬ ‭craniofacial‬ ‭○‬ ‭Superciliary‬‭arches‬‭–‬‭a‬‭ridge‬‭on‬‭the‬‭frontal‬‭bone‬‭above‬‭the‬
‭syndromes) or caused by trauma.‬ ‭eye socket.‬
‭○‬ ‭Glabella‬ ‭–‬ ‭smooth‬ ‭and‬ ‭slightly‬‭elevated‬‭surface‬‭above‬‭the‬
‭Orbital Volume Loss‬ ‭nasal root.‬
‭○‬ ‭Zygomatic‬ ‭processes‬ ‭–‬ ‭a‬‭long‬‭arched‬‭process,‬‭projecting‬
‭‬ ‭ roblem:‬ ‭Orbital‬ ‭fractures,‬ ‭particularly‬ ‭to‬ ‭the‬‭orbital‬‭floor‬‭(often‬
P
‭from the lower part of the squamous part of temporal bone.‬
‭involving‬ ‭the‬ ‭maxillary‬ ‭or‬ ‭zygomatic‬ ‭bones),‬ ‭can‬‭lead‬‭to‬‭loss‬‭of‬
‭orbital‬ ‭volume,‬ ‭causing‬ ‭the‬ ‭eye‬ ‭to‬ ‭sink‬ ‭back‬ ‭into‬ ‭the‬ ‭orbit‬
‭Orbital Part‬
‭(Enophthalmos).‬
‭‬
‭ orms the roof of the orbit and the ethmoidal sinuses.‬
F
‭Difficulty Securing the Prosthesis‬ ‭‬ ‭Comprises two openings:‬
‭○‬ ‭Anterior‬ ‭ethmoidal‬ ‭foramen‬ ‭–‬ ‭for‬ ‭the‬ ‭anterior‬ ‭ethmoidal‬
‭‬ ‭Problem:‬ ‭Abnormalities‬ ‭in‬ ‭the‬ ‭palatine‬ ‭or‬‭zygomatic‬‭bones‬‭can‬
‭vessels and nerve‬
‭ lter the shape and depth of the orbit.‬
a
‭○‬ ‭Posterior‬‭ethmoidal‬‭foramen‬‭–‬‭for‬‭the‬‭posterior‬‭ethmoidal‬
‭‬ ‭A‬‭shallow‬‭or‬‭underdeveloped‬‭orbit‬‭(such‬‭as‬‭in‬‭orbital‬‭hypoplasia)‬
‭vessels and nerve‬
‭can‬‭make‬‭it‬‭challenging‬‭to‬‭secure‬‭the‬‭ocular‬‭prosthesis,‬‭as‬‭there‬
‭may not be enough structural support for it to stay in place.‬

‭Transes by: Adelle Katherine R. Intan‬ ‭3‬
‭OPT 033: OCULAR PROSTHESIS‬
‭ roup Reports‬
G
‭Doctor of Optometry‬ ‭│ Fourth Year - Second Semester‬‭│ Academic Year 2024 - 2025‬
‭Nasal Part‬ ‭‬ ‭ phenoid bone contributes to the‬
S
‭‬ ‭ onnected‬ ‭to‬ ‭the‬ ‭frontal‬‭processes‬‭of‬‭the‬‭maxilla‬‭and‬‭the‬‭nasal‬
C ‭○‬ ‭Floor of the middle cranial fossa of the skull‬
‭bones, forming the stem of the nose‬ ‭○‬ ‭Forming of the foramina‬
‭○‬ ‭Forming of the canals of cranium‬
‭Ethmoid Bone‬ ‭‬ ‭ our main parts of Sphenoid Bone‬
F
‭○‬ ‭Body (corpus)‬
‭‬ ‭Singular‬‭porous‬‭bone‬‭that‬‭makes‬‭up‬‭the‬‭middle‬‭area‬‭of‬‭the‬‭facial‬ ‭○‬ ‭Lesser wing of sphenoid‬
‭ tructure.‬
s ‭○‬ ‭Greater wing of sphenoid‬
‭‬
‭Forms the midfacial region of the skull.‬ ‭○‬ ‭Pterygoid processes‬
‭‬ ‭Importance:‬ ‭Allows‬ ‭the‬‭olfactory‬‭fibers‬‭to‬‭pass‬‭through‬‭in‬‭order‬
‭for you to smell things‬ ‭Body (corpus)‬
‭‬
t‭he most centrally positioned portion‬
‭Ethmoidal Labyrinths‬
‭‬ ‭Anteriorly‬‭– contributes to the nasal cavity‬
‭‬ ‭Lie‬‭on‬‭both‬‭lateral‬‭sides‬‭and‬‭contain‬‭numerous‬‭little‬‭cavities‬‭with‬ ‭‬ ‭Laterally‬‭– builds the media wall of the optic canal‬
‭ thmoidal cells which are referred to as the ethmoidal sinus.‬
e ‭‬ ‭Superiorly‬ ‭–‬ ‭forms‬ ‭the‬‭sella‬‭turcica,‬‭the‬‭hypophyseal‬‭fossa,‬‭and‬
‭the dorsum sellae‬
‭Perpendicular Plate‬ ‭‬
‭Posterior to the body‬‭– clivus slopes is located‬
‭‬ ‭ ‬ ‭flattened‬ ‭bony‬ ‭lamina‬ ‭of‬ ‭the‬ ‭ethmoid‬ ‭bone‬ ‭that‬‭is‬‭the‬‭largest‬
A ‭‬ ‭Sphenoidal‬ ‭sinuses‬ ‭–‬‭located‬‭in‬‭the‬‭sphenoid‬‭body‬‭behind‬‭the‬
‭bony part assisting in forming the nasal septum.‬ ‭nasal cavity and divided by a septum‬
‭○‬ ‭Vertically‬
‭○‬ ‭Inferiorly‬ ‭Lesser Wings of Sphenoid‬
‭‬ ‭Arise‬‭superolaterally‬‭from‬‭the‬‭sphenoid‬‭body‬‭where‬‭they‬‭form‬‭the‬
‭★‬ ‭ ribriform plate‬‭– latin‬‭cribriform‬‭= perforated‬
C ‭ ptic canal (→optic nerve, ophthalmic artery)‬
o
‭○‬ ‭lies‬‭within‬‭the‬‭ethmoidal‬‭notch‬‭of‬‭the‬‭frontal‬‭bone‬‭and‬‭forms‬ ‭‬
‭The inferior surface participates in the lateral margin of the orbit‬
‭the roof of the nasal cavity.‬ ‭‬ ‭Superior surface forms part of the cranial cavity‬
‭★‬ ‭Crista galli‬‭– latin‬‭crista galli‬‭= crest of the cock‬
‭○‬ ‭small vertical protrusion on top of the plate.‬ ‭Greater Wings of Sphenoid‬
‭★‬ ‭Olfactory bulbs‬‭– lie on two grooves lateral to the crista galli‬
‭‬
‭ he greater wings arise posterolaterally from the body.‬
T
‭‬ ‭Lateral surfaces form the infratemporal surfaces.‬
‭Sphenoid Bone‬ ‭‬ ‭Anterior‬ ‭surfaces‬ ‭make‬ ‭up‬ ‭part‬ ‭of‬ ‭the‬ ‭posterior‬ ‭aspect‬ ‭of‬ ‭the‬
‭lateral wall of the orbit‬
‭‬
‭ he sphenoid bone is 1 of the 8 bones that make up the cranium.‬
T
‭‬ ‭Greek‬‭sphenoeides‬‭, which means wedge-shaped.‬ ‭Three Important Openings Near their Roots‬
‭‬ ‭The‬‭most‬‭complex‬‭bone‬‭of‬‭the‬‭human‬‭body‬‭because‬‭of‬‭its‬‭shape.‬ ★
‭ ‬ ‭ oramen rotundum‬‭– transmits the maxillary nerve.‬
F
‭Known as‬‭wasp bone‬‭.‬ ‭★‬ ‭Foramen‬ ‭ovale‬ ‭–‬ ‭allows‬ ‭the‬ ‭passage‬ ‭of‬ ‭the‬‭mandibular‬‭nerve,‬
‭‬
‭It makes up most of the‬‭middle part of the base of skull‬ ‭accessory‬ ‭meningeal‬ ‭artery,‬ ‭lesser‬ ‭petrosal‬‭nerve‬‭and‬‭emissary‬
‭‬ ‭Anatomical: It is butterfly-shaped.‬ ‭vein (mnemonic "MALE")‬
‭○‬ ‭Serves as a‬‭keystone bone‬‭.‬ ‭★‬ ‭Foramen‬ ‭spinosum‬ ‭–‬ ‭traversed‬ ‭by‬ ‭the‬ ‭middle‬ ‭meningeal‬
‭○‬ ‭Has‬‭a‬‭body,‬‭a‬‭pair‬‭of‬‭greater‬‭wings,‬‭lesser‬‭wings,‬‭2‬‭pterygoid‬ ‭vessels,‬ ‭spinous‬ ‭nerve‬ ‭(branch‬ ‭of‬ ‭mandibular‬ ‭nerve)‬‭lies‬‭at‬‭the‬
‭processes.‬ ‭posterior margin of the greater wings.‬
‭○‬ ‭It forms most of the BASE of the central skull.‬
‭The Sphenoid Bone has a Common Border‬
‭★‬ ‭ ight‬‭&‬‭left‬‭lesser‬‭wings‬‭of‬‭the‬‭sphenoid‬‭resemble‬‭wings‬‭of‬‭a‬
R
‭moth or bird‬ ‭‬
‭ rontal bone (via the sphenofrontal suture)‬
F
‭★‬ ‭Sella Turcica‬‭– located at the midline.‬ ‭‬ ‭Parietal bone (via the the sphenoparietal suture)‬
‭○‬ ‭Tuberculum Sellae‬‭– forms the anterior wall‬ ‭‬ ‭Squamous‬‭part‬‭of‬‭the‬‭temporal‬‭bone‬‭(via‬‭the‬‭spheno‬‭squamosal‬
‭○‬ ‭Hypophyseal‬ ‭(Pituitary)‬ ‭fossa‬ ‭–‬ ‭rounded‬ ‭depression,‬ ‭suture)‬
‭deepest part‬ ‭‬ ‭Occipital bone (via the spheno-occipital suture)‬
‭○‬ ‭Dorsum Sellae‬‭– forms the posterior wall‬ ‭○‬ ‭Note:‬ ‭As‬ ‭the‬ ‭sphenoid‬ ‭and‬ ‭occipital‬ ‭bone‬ ‭fuse‬ ‭during‬
‭★‬ ‭Chiasmatic Groove‬‭– sulcus formed by optic chiasm‬ ‭puberty‬ ‭(tribasilar‬ ‭bone)‬ ‭the‬ ‭spheno-occipital‬ ‭suture‬
‭disappears by the age of 25‬

‭Transes by: Adelle Katherine R. Intan‬ ‭4‬