Fascia of neck .ppt
42 views
48 slides
Oct 21, 2023
Slide 1 of 48
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
About This Presentation
Anatomy of fascia of neck and dural venous sinuses
Slide Content
Fascial Compartments of the Neck
The orbital region
Meninges (review)
Dural venous sinuses (review)
BAAB
23/05/2016
The orbital region
Meninges (review)
Dural venous sinuses (review)
BAAB
23/05/2016
Fascialspaces (also termed fascialtissue spaces or tissue
spaces) are potential spaces that exist between the fasciae
and underlying organs and other tissues.
The fascialspaces are different from the fasciae
themselves, which are bands of connective tissue that
surround structures, e.g. muscles.
Fascia is a layer of fibrous tissue that surrounds muscles,
vessels and nerves.
In the neck, there are several layers of fascia, which act
to support and compartmentalisethe structures present.
spaces) are potential spaces that exist between the fasciae
and underlying organs and other tissues.
The fascialspaces are different from the fasciae
themselves, which are bands of connective tissue that
surround structures, e.g. muscles.
Fascia is a layer of fibrous tissue that surrounds muscles,
vessels and nerves.
In the neck, there are several layers of fascia, which act
to support and compartmentalisethe structures present.
The spaces filled with loose areolar connective tissue
may also be termed clefts.
Other contents such as salivary glands, blood vessels,
nerves and lymph nodes are dependent upon the
location of the space. Those containing neurovascular
tissue (nerves and blood vessels) may also be termed
compartments.
may also be termed clefts.
Other contents such as salivary glands, blood vessels,
nerves and lymph nodes are dependent upon the
location of the space. Those containing neurovascular
tissue (nerves and blood vessels) may also be termed
compartments.
Boundaries of the Neck
The superior boundary of the neck is demarcated by the
superior nuchalline of the cranium and the lower margin
of the mandible.
The inferior boundary of the neck is demarcated by the
suprasternalnotch, the clavicleand the first rib.
Clearly, these boundaries are irregular and difficult to
define precisely, because of the continuity of structures
running from one region to another (i.e. between thorax
and neck and between neck and head).
The neck is conveniently thought of as the tissue
surrounding the 7 cervical vertebrae.
The superior boundary of the neck is demarcated by the
superior nuchalline of the cranium and the lower margin
of the mandible.
The inferior boundary of the neck is demarcated by the
suprasternalnotch, the clavicleand the first rib.
Clearly, these boundaries are irregular and difficult to
define precisely, because of the continuity of structures
running from one region to another (i.e. between thorax
and neck and between neck and head).
The neck is conveniently thought of as the tissue
surrounding the 7 cervical vertebrae.
Fascial Compartments of the Neck are divided into
superficialand deepparts.
The superficial fascia (tela subcutanea) surrounds the
entire neck, but does not contribute to the
compartmentalization.
The superficial cervical fascia lies between the
dermisand the deep cervical fascia.
superficialand deepparts.
The superficial fascia (tela subcutanea) surrounds the
entire neck, but does not contribute to the
compartmentalization.
The superficial cervical fascia lies between the
dermisand the deep cervical fascia.
Fig; The platysma muscle, located within the superficial cervical
fascia
fascia
The superficial cervical fascia contains various
structures:
◦Neurovascular supply to the skin
◦Superficial veins (e.g the external jugular vein)
◦Superficial lymph nodes
◦Fat
◦Platysma muscle
In obese individuals, extra fat is deposited in the
superficial fascia, creating the ‘double chin’.
structures:
◦Neurovascular supply to the skin
◦Superficial veins (e.g the external jugular vein)
◦Superficial lymph nodes
◦Fat
◦Platysma muscle
In obese individuals, extra fat is deposited in the
superficial fascia, creating the ‘double chin’.
The platysmamuscle is situated on the
anterioraspect of the neck.
◦It has two heads, which originate from the fascia of the
pectoralis major and deltoid.
◦Fibres from the two heads cross the clavicle, and meet in the
midline, fusing with the muscles of the face.
◦Motor innervation to the platysma is via the cervical branch
of the facial nerve.
anterioraspect of the neck.
◦It has two heads, which originate from the fascia of the
pectoralis major and deltoid.
◦Fibres from the two heads cross the clavicle, and meet in the
midline, fusing with the muscles of the face.
◦Motor innervation to the platysma is via the cervical branch
of the facial nerve.
The deep cervical fascia is located underneath the
superficial fascia, and is organised into several
layers.These layers act like a shirt collar, supporting
the structures and vessels of the neck.
The deep fascia also has a superficialand a deep
fasciae.
1. One superficial layer of deep fascia is called
investing fascia, surrounding the whole neck.
superficial fascia, and is organised into several
layers.These layers act like a shirt collar, supporting
the structures and vessels of the neck.
The deep fascia also has a superficialand a deep
fasciae.
1. One superficial layer of deep fascia is called
investing fascia, surrounding the whole neck.
Fig: Transverse section of the neck. The investing layer of fascia in
highlighted in blue. Note how the fascia completely envelopes the
SCM and trapezius.
highlighted in blue. Note how the fascia completely envelopes the
SCM and trapezius.
It surrounds all the structures in the neck. Where it
meets the trapezius and SCMmuscles, by splitting into
two, completely surrounding them.
The investing fascia can be thought of as a tube;with
superior, inferior, anterior and posterior attachments:
◦Superior: attaches to the external occipital protuberance and
the superior nuchal line.
◦Anterior: attaches to the hyoid bone.
◦Inferior: attaches to the spine and acromion of the scapula,
the clavicle, and the manubrium of the sternum.
◦Posterior: attaches along theligamentum nuchae.
meets the trapezius and SCMmuscles, by splitting into
two, completely surrounding them.
The investing fascia can be thought of as a tube;with
superior, inferior, anterior and posterior attachments:
◦Superior: attaches to the external occipital protuberance and
the superior nuchal line.
◦Anterior: attaches to the hyoid bone.
◦Inferior: attaches to the spine and acromion of the scapula,
the clavicle, and the manubrium of the sternum.
◦Posterior: attaches along theligamentum nuchae.
There are four layers of deep fascia that separate the neck
into compartments.
2. The prevertebrallayer (yellow in the fig), which
surrounds muscles attached to the vertebral column.
The prevertebralfascia surrounds thevertebral columnand
its associated muscles (scalene, prevertebral, and deep
muscles of the back). It has attachments along the
antero/posterior and supero/inferior axes:
Superior: attaches to the base of the skull.
Anterior:attaches to the transverse
processesandvertebral bodiesof the vertebral column.
into compartments.
2. The prevertebrallayer (yellow in the fig), which
surrounds muscles attached to the vertebral column.
The prevertebralfascia surrounds thevertebral columnand
its associated muscles (scalene, prevertebral, and deep
muscles of the back). It has attachments along the
antero/posterior and supero/inferior axes:
Superior: attaches to the base of the skull.
Anterior:attaches to the transverse
processesandvertebral bodiesof the vertebral column.
Posterior: attaches along theligamentum nuchae.
Inferior:fuses with the endothoracic fascia of the
ribcage.
The anterolateralportion of prevertebral fascia forms
the floor of the posterior triangle of the neck. It also
surrounds the brachial plexus and subclavian artery as
they leave the neck, forming the axillary sheath. The
axillary sheath continues from the prevertebral layer
and surrounds the brachial plexus
Inferior:fuses with the endothoracic fascia of the
ribcage.
The anterolateralportion of prevertebral fascia forms
the floor of the posterior triangle of the neck. It also
surrounds the brachial plexus and subclavian artery as
they leave the neck, forming the axillary sheath. The
axillary sheath continues from the prevertebral layer
and surrounds the brachial plexus
Transverse section of the neck. The carotid sheaths and
prevertebral sheaths are highlighted.
prevertebral sheaths are highlighted.
3. The pretrachealor viscerallayer (red), which is
found surrounding the anterior organs.
The pretracheal layer of fascia is situated anteriorly in
the neck. It spans between the hyoid bone and the
thorax, where it fuses with the pericardium.
The trachea, oesophagus, thyroid gland and infrahyoid
muscles are enclosed by the pretracheal fascia. It can be
anatomically divided into two parts:
Visceral–encloses the thyroid gland, trachea and
oesophagus.
Muscular–encloses the infrahyoid muscles.
The posterior aspect of the muscular fascia is formed
by contributions from the buccopharyngealfascia (a
fascial covering of the pharynx).
found surrounding the anterior organs.
The pretracheal layer of fascia is situated anteriorly in
the neck. It spans between the hyoid bone and the
thorax, where it fuses with the pericardium.
The trachea, oesophagus, thyroid gland and infrahyoid
muscles are enclosed by the pretracheal fascia. It can be
anatomically divided into two parts:
Visceral–encloses the thyroid gland, trachea and
oesophagus.
Muscular–encloses the infrahyoid muscles.
The posterior aspect of the muscular fascia is formed
by contributions from the buccopharyngealfascia (a
fascial covering of the pharynx).
Fig –Transverse section of the neck, showing the pretracheal fascia in red.
4. The carotid sheath (green), which is formed by
condensation of the investing fascia , prevertebraland
pretracheallayers, surrounds the carotid artery, the jugular
vein and the vagusnerve.
The carotid sheaths are paired structures.
The contents of the carotid sheath are :
◦Common carotid artery (which bifurcates within the sheath into
the external and internal carotid arteries).
◦Internal jugular vein.
◦Vagusnerve.
◦Cervical lymph nodes.
The carotid fascia is organisedinto a column, which runs
from the base of the skull to the thoracic mediastinum. This
is of clinical importance as a pathway for the spread of
infection.
condensation of the investing fascia , prevertebraland
pretracheallayers, surrounds the carotid artery, the jugular
vein and the vagusnerve.
The carotid sheaths are paired structures.
The contents of the carotid sheath are :
◦Common carotid artery (which bifurcates within the sheath into
the external and internal carotid arteries).
◦Internal jugular vein.
◦Vagusnerve.
◦Cervical lymph nodes.
The carotid fascia is organisedinto a column, which runs
from the base of the skull to the thoracic mediastinum. This
is of clinical importance as a pathway for the spread of
infection.
Fig: The carotid sheaths (green)
Clinical Relevance: Spread of Infections
The neck fascia compartmentalises the
structures within the neck. These layers of
tough fascia define where infection can
spread (e.g a superficial skin abscess is
prevented from spreading further into the
neck by the investing fascia).
The neck fascia compartmentalises the
structures within the neck. These layers of
tough fascia define where infection can
spread (e.g a superficial skin abscess is
prevented from spreading further into the
neck by the investing fascia).
Introduction
Bones of the orbit
Boundaries
Contents
Structures associated
Clinical correlates
Bones of the orbit
Boundaries
Contents
Structures associated
Clinical correlates
Introduction:
◦The orbit is a bonny pyramidal cavity or bonny socket of
the facial skull in which the eye and its appendages are
situated.
◦it has a base in front and the apex behind.
◦In the adult human, the volume of the orbit is 30mL, of
which the eye occupies 6.5mL.
Bones of the orbit:
There are sevenbones that form the orbit:
Frontal bone
Lacrimalbone
Ethmoidbone
Zygomaticbone
Maxillary bone
Palatine bone
Sphenoid bone
Nasal bone (illustrated but not part of the orbit)
◦The orbit is a bonny pyramidal cavity or bonny socket of
the facial skull in which the eye and its appendages are
situated.
◦it has a base in front and the apex behind.
◦In the adult human, the volume of the orbit is 30mL, of
which the eye occupies 6.5mL.
Bones of the orbit:
There are sevenbones that form the orbit:
Frontal bone
Lacrimalbone
Ethmoidbone
Zygomaticbone
Maxillary bone
Palatine bone
Sphenoid bone
Nasal bone (illustrated but not part of the orbit)
The seven bones that form the orbit:
yellow = Frontal bone
green = Lacrimalbone
brown = Ethmoidbone
blue = Zygomaticbone
purple = Maxillary bone
aqua = Palatine bone
red = Sphenoid bone
teal = Nasal bone (illustrated but not part of the orbit)
yellow = Frontal bone
green = Lacrimalbone
brown = Ethmoidbone
blue = Zygomaticbone
purple = Maxillary bone
aqua = Palatine bone
red = Sphenoid bone
teal = Nasal bone (illustrated but not part of the orbit)
Borders:
The base, which opens in the face, has four
borders. The following bones take part in their
formation:
◦Superior margin: frontal bone and sphenoid
◦Inferior margin: maxilla, palatine and zygomatic
◦Medial margin: ethmoid, lacrimal bone, and
maxillary bone
◦Lateral margin: zygomatic and sphenoid
◦The roof (frontal and sphenoid bones)
◦lateral wall: zygomatic and sphenoid bones
◦The floor: maxilla, zygomatic, and palatine bones
◦medial wall: ethmoid, lacrimal, and frontal bones
The base, which opens in the face, has four
borders. The following bones take part in their
formation:
◦Superior margin: frontal bone and sphenoid
◦Inferior margin: maxilla, palatine and zygomatic
◦Medial margin: ethmoid, lacrimal bone, and
maxillary bone
◦Lateral margin: zygomatic and sphenoid
◦The roof (frontal and sphenoid bones)
◦lateral wall: zygomatic and sphenoid bones
◦The floor: maxilla, zygomatic, and palatine bones
◦medial wall: ethmoid, lacrimal, and frontal bones
Contents of the orbit are grouped into
◦Nerves: Ophthalmic nerve, Oculomotor, trochlear
and abducentnerves (III, IV, VI), Optic nerve.
◦Vessels: Ophthalmic vessels
◦Muscles: Muscles of eyeball (extraocularmuscles)
◦Eyelids
◦Conjunctiva
◦Lacrimalapparatus
Ophthalmic nerve the first division of the trigeminal
(fifth cranial) nerve
afferent nerve that supplies the globe and
conjunctiva, lacrimalgland and sac, nasal mucosa
and frontal sinus, external nose, upper eyelid,
forehead, and scalp
◦Nerves: Ophthalmic nerve, Oculomotor, trochlear
and abducentnerves (III, IV, VI), Optic nerve.
◦Vessels: Ophthalmic vessels
◦Muscles: Muscles of eyeball (extraocularmuscles)
◦Eyelids
◦Conjunctiva
◦Lacrimalapparatus
Ophthalmic nerve the first division of the trigeminal
(fifth cranial) nerve
afferent nerve that supplies the globe and
conjunctiva, lacrimalgland and sac, nasal mucosa
and frontal sinus, external nose, upper eyelid,
forehead, and scalp
◦It passes through the superior orbital fissure and
traverse the orbit.
The oculomotor(third cranial) nerve supplies
all the muscles of the eyeball except the
superior oblique and the lateral rectus
muscles.
•pass through the superior orbital fissure within the
common tendinous ring
•It passes through the superior orbital fissure within
the common tendinous ring
•The nerve also conveys preganglionic
parasympathetic nerve fibers to the orbit
traverse the orbit.
The oculomotor(third cranial) nerve supplies
all the muscles of the eyeball except the
superior oblique and the lateral rectus
muscles.
•pass through the superior orbital fissure within the
common tendinous ring
•It passes through the superior orbital fissure within
the common tendinous ring
•The nerve also conveys preganglionic
parasympathetic nerve fibers to the orbit
The trochlear(fourth cranial) nerve supplies
only the superior oblique muscle of the eyeball
•It passes through the superior orbital fissure just
superior to the tendinous ring.
The abducent(sixth cranial) nerve supplies
only the lateral rectus muscle of the eyeball.
•It passes through the superior orbital fissure within
the common tendinous ring.
The ciliary ganglion is the peripheral ganglion of the
parasympathetic system of the eye.
only the superior oblique muscle of the eyeball
•It passes through the superior orbital fissure just
superior to the tendinous ring.
The abducent(sixth cranial) nerve supplies
only the lateral rectus muscle of the eyeball.
•It passes through the superior orbital fissure within
the common tendinous ring.
The ciliary ganglion is the peripheral ganglion of the
parasympathetic system of the eye.
Optic nerve
The optic (second cranial) nerve is the nerve of sight
◦it extends from the eye to the optic chiasm.
◦Developmentally, it may be considered as a tract between
the retina (a derivative of the brain) and the brain
◦It is surrounded by meningeal sheaths continuous with those
of the brain, and also by the subarachnoid space.
◦is pierced by the central vessels of the retina, and passes
through the optic canal to enter the middle cranial fossa.
The optic (second cranial) nerve is the nerve of sight
◦it extends from the eye to the optic chiasm.
◦Developmentally, it may be considered as a tract between
the retina (a derivative of the brain) and the brain
◦It is surrounded by meningeal sheaths continuous with those
of the brain, and also by the subarachnoid space.
◦is pierced by the central vessels of the retina, and passes
through the optic canal to enter the middle cranial fossa.
Muscles of eyeball (extraocularmuscles)
The eyeball is moved chiefly by six extrinsic
muscles: four rectiand two oblique muscles.
These skeletal muscles arise from the posterior
aspect of the orbit (except for the inferior
oblique muscle) and are inserted into the sclera.
The four rectiarise from a common tendinous
ring that surrounds the optic canal and a part of
the superior orbital fissure
The eye is poised in the fascia and fat of the
orbit, and equilibrium is maintained by all the
muscles, none of which ever acts alone.
The eyeball is moved chiefly by six extrinsic
muscles: four rectiand two oblique muscles.
These skeletal muscles arise from the posterior
aspect of the orbit (except for the inferior
oblique muscle) and are inserted into the sclera.
The four rectiarise from a common tendinous
ring that surrounds the optic canal and a part of
the superior orbital fissure
The eye is poised in the fascia and fat of the
orbit, and equilibrium is maintained by all the
muscles, none of which ever acts alone.
Moreover, the two eyes move together in unison
(conjugately). Movements may be considered to
be around a vertical axis (abductionand
adduction), a lateromedialaxis (elevationand
depression) and even an anteroposterioraxis
(extorsionand intorsion).
Paralysis of an extrinsic eye muscle is noted by
•(1) limitation of movement in the field of action of
the paralyzed muscle and
•(2) the presence of two images (diplopia) that are
separated maximally when an attempt is made
to move the eye in the direction of primary
action of the paralyzed muscle.
(conjugately). Movements may be considered to
be around a vertical axis (abductionand
adduction), a lateromedialaxis (elevationand
depression) and even an anteroposterioraxis
(extorsionand intorsion).
Paralysis of an extrinsic eye muscle is noted by
•(1) limitation of movement in the field of action of
the paralyzed muscle and
•(2) the presence of two images (diplopia) that are
separated maximally when an attempt is made
to move the eye in the direction of primary
action of the paralyzed muscle.
Eyelids: These are musculofibrousfolds in the
anterior part of each orbit.
◦They are two sets, upper and lower lids
◦They perform reflex blinking, distribute tears and
prevent drying of the cornea.
◦The free margin of each lid possesses hairs termed
eyelashes (cilia).
◦The upper eyelid is composed of skin and subcutaneous
tissue, muscle (the palpebralpart of the orbicularisoculi
and the levatorpalpebraesuperioris), fibrous tissue
(including the tarsal plate), and mucous membrane (the
palpebralpart of the conjunctiva).
anterior part of each orbit.
◦They are two sets, upper and lower lids
◦They perform reflex blinking, distribute tears and
prevent drying of the cornea.
◦The free margin of each lid possesses hairs termed
eyelashes (cilia).
◦The upper eyelid is composed of skin and subcutaneous
tissue, muscle (the palpebralpart of the orbicularisoculi
and the levatorpalpebraesuperioris), fibrous tissue
(including the tarsal plate), and mucous membrane (the
palpebralpart of the conjunctiva).
Conjunctiva
The conjunctiva is a connection (conjunction)
between the eyelids, sclera and cornea. It is the
mucous membrane that lines the posterior surface
of the eyelids (palpebralconjunctiva) and the
anterior aspect of the globe (bulbar conjunctiva).
◦conjunctivalsac is the potential space, lined by
conjunctiva, between the lids and the globe.
◦palpebralfissure is the mouth of the conjunctivalsac.
◦Fornixis the reflection of the conjunctiva from the lid to
the globe; hence, superior and inferior fornices.
◦Limbusis a junction between the bulbar conjunctiva and
the epithelial lining of the cornea.
The conjunctiva is a connection (conjunction)
between the eyelids, sclera and cornea. It is the
mucous membrane that lines the posterior surface
of the eyelids (palpebralconjunctiva) and the
anterior aspect of the globe (bulbar conjunctiva).
◦conjunctivalsac is the potential space, lined by
conjunctiva, between the lids and the globe.
◦palpebralfissure is the mouth of the conjunctivalsac.
◦Fornixis the reflection of the conjunctiva from the lid to
the globe; hence, superior and inferior fornices.
◦Limbusis a junction between the bulbar conjunctiva and
the epithelial lining of the cornea.
Conjuntival innervation and blood supply.
The conjunctiva is supplied by branches of the
ophthalmic nerve. The vessels of the bulbar
conjunctiva are visible. They arise from (1) a
peripheral palpebral arcade and (2) the anterior
ciliary arteries. In acute conjunctivitis(e.g., from
wind exposure or infection) the bulbar conjunctiva
becomes brick-red (a "blood-shot eye"). In deeper
conditions (e.g., diseases of the iris or ciliary body),
in which branches of the anterior ciliary arteries are
dilated, a rose-pink band of "ciliary injection" is
produced around the margins of the cornea.
The conjunctiva is supplied by branches of the
ophthalmic nerve. The vessels of the bulbar
conjunctiva are visible. They arise from (1) a
peripheral palpebral arcade and (2) the anterior
ciliary arteries. In acute conjunctivitis(e.g., from
wind exposure or infection) the bulbar conjunctiva
becomes brick-red (a "blood-shot eye"). In deeper
conditions (e.g., diseases of the iris or ciliary body),
in which branches of the anterior ciliary arteries are
dilated, a rose-pink band of "ciliary injection" is
produced around the margins of the cornea.
Lacrimalapparatus:
◦The lacrimalapparatus comprises (1) the lacrimalgland
and its ductsand (2) associated passages for drainage:
the lacrimalcanaliculiand sacand the nasolacrimalduct
◦it lodges in a fossa anterolaterallyat the roof of the
orbit.
◦the main portion is the orbital part, but a process called
the palpebralpart projects into the upper lid
◦a dozen lacrimalducts leave the palpebralpart to enter
the superior conjunctivalfornix where small accessory
lacrimalglands are also found.
◦tears secreted keep the eye moist and free of foreign
bodies.
◦the half of the lacrimalsecretions that does not
evaporate drains into the lacrimalsac.
◦The lacrimalapparatus comprises (1) the lacrimalgland
and its ductsand (2) associated passages for drainage:
the lacrimalcanaliculiand sacand the nasolacrimalduct
◦it lodges in a fossa anterolaterallyat the roof of the
orbit.
◦the main portion is the orbital part, but a process called
the palpebralpart projects into the upper lid
◦a dozen lacrimalducts leave the palpebralpart to enter
the superior conjunctivalfornix where small accessory
lacrimalglands are also found.
◦tears secreted keep the eye moist and free of foreign
bodies.
◦the half of the lacrimalsecretions that does not
evaporate drains into the lacrimalsac.
Review Questions :
1. Force applied to the rim of the orbit may be transmitted toward the side of the
nose. Which thin bones are likely to be splintered?
2. Which nerve accompanies the ophthalmic artery?
3. Which is the most important branch of the ophthalmic artery?
4. Which cranial nerve is "the weakling of the cranial contents" because of its likely
damage from increased intracranial pressure?
5. Where is the peripheral relay station of the parasympathetic fibers to the eye?
6. Which nerves enter the orbit within the common tendinous ring?
7. Which chief muscles and nerves are concerned with (a) closing the eyelids and (b)
opening them?
8. What are the main features of Horner syndrome?
9. On looking downward and to the right, a patient's left pupil failed to descend.
Which muscle is likely to be paralyzed?
10. On looking upward and to the left, a patient's right pupil failed to ascend.
Which muscle is most likely to be involved?
1. Force applied to the rim of the orbit may be transmitted toward the side of the
nose. Which thin bones are likely to be splintered?
2. Which nerve accompanies the ophthalmic artery?
3. Which is the most important branch of the ophthalmic artery?
4. Which cranial nerve is "the weakling of the cranial contents" because of its likely
damage from increased intracranial pressure?
5. Where is the peripheral relay station of the parasympathetic fibers to the eye?
6. Which nerves enter the orbit within the common tendinous ring?
7. Which chief muscles and nerves are concerned with (a) closing the eyelids and (b)
opening them?
8. What are the main features of Horner syndrome?
9. On looking downward and to the right, a patient's left pupil failed to descend.
Which muscle is likely to be paralyzed?
10. On looking upward and to the left, a patient's right pupil failed to ascend.
Which muscle is most likely to be involved?
Lacrimal apparatus Conjunctiva Eyelids Optic
nereve Muscles of eyeball (extraocular
muscles) Oculomotor, trochlear and abducent
nerves (III, IV, VI) Ophthalmic vessels
Ophthalmic nerve
nereve Muscles of eyeball (extraocular
muscles) Oculomotor, trochlear and abducent
nerves (III, IV, VI) Ophthalmic vessels
Ophthalmic nerve
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 42
- Slides 48
- Age 772 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
30 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
32 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
30 views
14
Fertility awareness methods for women in the society
Isaiah47
29 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
26 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
28 views