Respiratory System II - Neck-Larynx PDF

Summary

This lecture covers the anatomy of the larynx and its role in digestion and voice production, with emphasis on neck triangles, muscles, arteries, veins, nerves, and relevant clinical aspects. It also describes the fascial layers and innervation of the neck's structures, providing an anatomical framework for medical understanding.

Full Transcript

RESRIRATOR Y TRACT II

October 21-25th, 2024

Professor Dr Panagiotis Karanis
Professor and Director of Anatomy Institute
Coordinator Unit of Anatomy and Morphology
Coordinator of the Unit Infectious Diseases and One Health
UNic Medical School
The LOBs of this lecture
Describe the anatomy of the larynx (including vertebral levels) and its roles in digestion and voice production. Recognise the importance of
dividing the neck into triangles. Describe the anterior and posterior triangles and their major subdivisions (submental, muscular, carotid,
suboccipital and subclavian triangles).
Describe the major groups of neck muscles.
Recognise the anatomical landmarks for the insertion of a central venous line.
Describe and identify the origins, course and relations of the major arteries and veins in the neck.
Identify major neurovascular structures on medical images of the head and neck.
Describe the fascial layers of the neck (investing, pretracheal and prevertebral, and the carotid sheath).
Identify the intrinsic and extrinsic muscles of the larynx, and their functions.
Describe the innervation of omohyoid and digastric muscles and of the extrinsic and intrinsic muscles of the larynx.
Identify the roots and trunks of the brachial plexus in the posterior triangle.
Identify normal mediastinal anatomy on sectional CT / MRI and anatomical sections.
Introduction
The anatomy of the head and neck is very
complicated secondary to the numerous fine
structures that have a variable course and depth as
they traverse through the tissue.

There are several very important neurovascular
structures anatomically situated in the head and
neck , which may suffer a potential injury during
surgical dissection.
Neck fascial layers
 Platysma muscle

Platysma. The thin platysma muscle spreads subcutaneously like a sheet, passes over the clavicles, and is pierced by cutaneous nerves.
The platysma (G. flat plate) is supplied by branches of the facial nerve, CN VII.
Carotid sheath
Triangles
To allow clear communication regarding the location of structures, injuries, or pathologies, the neck is
divided into regions.

Function of the Neck Triangles
The anterior and posterior triangles of the neck provide a natural framework to organize the
numerous contents of the neck into well-defined anatomic subdivisions. The muscles, bones, and
fascia of the cervical region form natural boundaries that enclose various other structures, including
muscles, nerves, vasculature, and lymphatics. The following sections will further define the anterior
and posterior triangles, clarify the contents of each, and discuss their clinical and surgical relevance.
 Cervical regions and triangles
Between the cranium (mandible
anteriorly and occipital bone
posteriorly) and clavicles, the neck is
divided into four major regions
based on the usually visible and/or
palpable borders of the large and
relatively superficial SCM and
trapezius muscles, which are
contained within the outermost
(investing) layer of deep cervical
fascia.
 Anterior triangles
Submandibular (digastric)
Posterior triangles Submental
Occipital Carotid
Omoclavicular (subclavian) Muscular (omotracheal)
Carotid triangle of the neck
Anatomic Boundaries / Anterior Triangle
The anterior triangles refer to bilateral anatomic subdivisions of the neck comprising the anterior surface of the neck , deep to the superficial
cervical fascia and platysma muscle.
Laterally, the anterior triangle is bounded by the anterior border of the sternocleidomastoid muscle. Its superior border is the inferior border
of the mandible. Medially, the boundary is the midline of the neck. The anterior triangle can further subdivide into four sub-triangles.
The submandibular and submental triangles are the superior divisions, while the muscular and carotid triangles compose the inferior divisions
of this anterior neck compartment.
The submandibular triangle is delineated by the inferior border of the mandible and the anterior and posterior bellies of the digastric muscle.
The submental triangle is demarcated by the hyoid bone, the anterior belly of the digastric muscle, and the midline of the neck.
The muscular triangle is outlined by the anterior aspect of the sternocleidomastoid and superior belly of the omohyoid, the midline of the
neck , and the hyoid bone.
The outline of the carotid triangle is the anterior aspect of the sternocleidomastoid, the superior belly of the omohyoid, and the posterior belly
of the digastric and stylohyoid muscles.
The investing layer of the deep cervical fascia encases all of the infrahyoid muscles and forms the superficial boundary of the entire anterior
triangle. The deep boundary of the carotid and muscular triangles is composed of the pretracheal layer of the deep cervical fascia, while the
mylohyoid muscle forms the deep boundary of the submandibular and submental triangles. The submandibular gland, a major salivary gland,
emerges from the lateral aspect of the mylohyoid muscle and occupies most of the submandibular triangle.
Anatomic Boundaries
Posterior Triangle
The posterior triangle of the neck is posterior to the anterior triangle. The boundary of this triangle is the posterior surface of the
sternocleidomastoid, the anterior surface of the trapezius, and the middle third of the clavicle.
The sternocleidomastoid and trapezius muscles join at the superior nuchal line, which forms the apex of the triangle.
The investing layer of deep cervical fascia makes up the superficial border of the posterior triangle, while the prevertebral fascia
makes up the floor.
The inferior belly of the omohyoid muscle passes deep to the sternocleidomastoid and crosses through the posterior triangle, further
dividing it into the occipital and subclavian sub-triangles.
The posterior neck triangle is
a clinically relevant
anatomic region that
contains many important
vascular and neural
structures.

The clinical aspect of the
anatomy contained in the
posterior neck triangle is
useful for a wide variety of
medical specialties, including
anesthesiology,
otolaryngology, physical
medicine and rehabilitation,
and others.

Posterior triangle of the neck. Olek Remesz (wiki-pl: Orem, commons: Orem) Modified by user:madhero88 - license:
https://creativecommons.org/licenses/by/3.0/deed.en
Posterior triangle & scalenus anterior
Posterior triangle & scalenus anterior
Superficial veins on the neck
The superficial temporal and maxillary veins
merge, forming the retromandibular vein, the
posterior division of which unites with the
posterior auricular vein to form the EJV. The
facial vein receives the anterior division of
the retromandibular vein before
emptying into the internal jugular vein, deep
to the SCM. The anterior jugular veins may
lie superficial or deep to the investing layer of
the deep cervical fascia.
Central
line
insertio
n

"Blausen 0181 Catheter CentralVenousAccessDevice NonTunneled" by BruceBlaus. When using this image in external sources it can be cited as:Blausen.com staff.
"Blausen gallery 2014". Wikiversity Journal of Medicine. DOI:10.15347/wjm/2014.010. ISSN 20018762. - Own work. Licensed under CC BY 3.0 via Commons -
https://commons.wikimedia.org/wiki/File:Blausen_0181_Catheter_CentralVenousAccessDevice_NonTunneled.png#/media/
File:Blausen_0181_Catheter_CentralVenousAccessDevice_NonTunneled.png
 Anterior cervical region –
Extrinsic muscles of the larynx
Anterolateral part of the neck
The hyoid provides attachments for the suprahyoid muscles
superior to it and the infrahyoid muscles inferior to it. These
hyoid muscles steady or move the hyoid and larynx.

Suprahyoid group muscles: mylohyoid, geniohyoid, stylohyoid,
and digastric.

Digastric has: 2 bellies, posterior and anterior / intermediate
tendon / fibrous sling derived from the pretracheal layer.

Infrahyoid group muscles:
Sternohyoid, omohyoid, sternohyoid, thyrohyoid

Omohyoid has: 2 bellies, superior and inferior / intermediate
tendon/fascial sling connects to the clavicle.
Anterior Region
Thyroid Gland

Consists of 2 lobes
joined by an isthmus.
Occasionally there is
a pyramidal lobe as
well.
Thyroid - Clinical
The risk of injury to the recurrent laryngeal
nerves is ever present during neck surgery.

Hoarseness is the usual sign of unilateral
recurrent nerve injury; however, temporary
aphonia or disturbance of phonation (voice
production) and laryngeal spasm may occur.
These signs usually result from bruising the
recurrent laryngeal nerves during surgery or
from the pressure of accumulated blood and
serous exudate after the operation.
A goitre, or goiter, is a swelling in the neck resulting from an enlarged thyroid gland. A goitre can be
associated with a thyroid that is not functioning properly.Worldwide, over 90% of goitre cases are
caused by iodine deficiency. The term is from the Latin gutturia, meaning throat. Most goitres are of a
benign nature.
Important Structures
Clinical Relevance:
Medical Uses of the Carotid Triangle
In the carotid triangle, many of the vessels and nerves are relatively superficial, and
so can be accessed by surgery. The carotid arteries, internal jugular vein, vagus and
hypoglossal nerves are frequent targets of this surgical approach.

The carotid triangle also contains the carotid sinus – a dilated portion of the
common carotid and internal carotid arteries (see next slide). It
contains specific sensory cells, called baroreceptors. The baroreceptors detect
stretch as a measure of blood pressure. The glossopharyngeal nerve feeds this
information to the brain, and this is used to regulate blood pressure.
Carotid sinus: a dilation of the proximal part of the internal carotid artery, which
may involve the common carotid artery. Innervated principally by the
glossopharyngeal nerve (CN IX) through the carotid sinus nerve as well as by the
vagus nerve (CN X), it is a baroreceptor (pressoreceptor) that reacts to changes in
arterial blood pressure.

Carotid body: a small, reddish brown ovoid mass of
tissue in life that lies in a septum on the medial
(deep) side of the bifurcation of the common carotid
artery in close relation to the carotid sinus. Supplied
mainly by the carotid sinus nerve (CN IX) and by
CN X, it is a chemoreceptor that monitors the level
of oxygen in the blood. It is stimulated by low levels
of oxygen and initiates a reflex that increases the
rate and depth of respiration, cardiac rate, and blood
pressure.

In some people, the baroreceptors are hypersensitive to stretch. In these patients, external pressure on the carotid sinus can cause slowing of the heart rate and a
decrease in blood pressure. The brain becomes underperfused, and syncope results. In such patients, checking the pulse at the carotid triangle is not advised.
 Cervical Plexus of Nerves
Consists of a superficial cervical plexus and a deep cervical plexus.

- There are 5 main components of the cervical plexus:
1) Cutaneous branches (supplying lesser occipital, greater auricular, transverse cervical, and supraclavicular nerves)
2) Ansa cervicalis (which innervates the infrahyoid and geniohyoid muscles).
3) Phrenic nerve
-What muscle does this innervate?
4) Contributions to the accessory nerve (CN XI).
- What muscles are innervated by this nerve?
5) Direct muscular branches (which supply the prevertebral muscles of the neck).

*Clinical Correlations: Cervical Plexus Block
- The cervical plexus block provides anaesthesia and analgesia to the head and neck region.
- Depending on the type of surgery, the plexus can be blocked either at superficial or deep levels.
- Superficial branches of the plexus innervate the skin and superficial structures of the head, neck , and shoulder.
- The deep branches innervate the muscles of the deep anterior neck and the diaphragm.
- The superficial cervical plexus block is used for superficial cutaneous surgeries of the head and neck. A deep cervical plexus block is
used for deeper surgeries of the neck , such as carotid artery or thyroid surgery.
 Erb‘s Point
The cervical plexus is a
nerve plexus of the anterior rami of
the first (i.e. upper-most) four
cervical spinal nerves C1-C4. The
cervical plexus provides motor
innervation to some muscles of the
neck, and the diaphragm; it provides
sensory innervation to parts of the
head, neck, and chest.

Wilhelm Heinrich Erb (30 November
1840 – 29 October 1921) was a German
neurologist. He was born in Winnweiler,
What is the Ansa cervicalis
?

The ansa cervicalis is a neural
loop in the neck formed by
connecting the superior root
from the cervical spinal nerves
(C1–2) and the inferior root
descending from C2–C3. It has
various anatomical variations and
can be an important
acknowledgment in specific
operations of the neck region.
 C1 (travel with
Innervation XII hypoglossal)
Facial nerve V - mandibular
Inferior alveolar

Ansa cervicalis
C1 – C3
Ansa cervicalis
C2 – C3
 The upper airways

The neck is between the face and trunk. The front part is of gristle and through it speech and respiration take place; it is known as
the windpipe.
Aristotle, Historia animalium, 4th century BC.

The #gristle# (cartilage) that Aristotle describes is important in preventig the collapse of the uppper airways, which in turn is vital
to lung function because although the gas exchange of respiration takes place deep withing the lungs, those parts of the respiratory
system outside the chest, which are reffered to as the upper airways, allow and effect the process, and are of such clinical importance
that they must be considered (the structures of the upper airways are clearly seen in the next slide).

Larynx
Neck MRI

1. Nasal cavity
2. Nasopharynx
3. Pharynx
4. Larynx
5. Tongue
6. Spinal column
7. Spinal cord
8. Epiglottis
9. Cricoid cartilage
Hyoid, larynx and trachea

Why the name ‚hyoid‘ ?
(L. Os hyoideum)
 The trachea
It transports air to and from the lungs.
It is about 12 cm long and 2.5 cm in diameter; lies in front of the oesophagus
The posterior gaps in the tracheal rings are spanned by the tracheal muscle.
It ends at the level of the sternal angle or the T4-T5 IV disc. It divides into right and left primary
bronchi at the spinal level of T5.
It is made of cartilage “rings” that are c-shaped (open of c at the back). The tracheal cartilages keep
the trachea patent.
Smooth muscle - the trachealis muscle - bridges the gap at the back.
The trachea divides at the carina into the primary bronchi.
Tracheal
epithelium
Tracheal epithelium
propels
debris-laden mucus
toward the pharynx for
expulsion from the
mouth.

Acknowledgment to: anatomybox.com, biosciences.org, funscrape.com, studyblue.com
The larynx
 The larynx
The skeleton of the larynx is made
of pieces of cartilage that articulate
with each other.

The most important are:

thyroid
cricoid
arytenoid

The epiglottis is a leaf-shaped cartilage that lies behind the tongue.
The epiglottis moves down during swallowing to protect the airway.
The inlet of the larynx is the upper opening.
Voice is produced by movement of the vocal cords when they come into contact.
There are muscles that move the vocal cords.
Larynx
 Skeleton of Larynx

Views of an isolated arytenoid cartilage
Arytenoid cartilage
1, cartilago curniculata
2, apex
4, vocal process (projects anteriorly, provides attachment to
the vocal ligament)
5, muscular process projects laterally, for attachment of
posterior and lateral crico-arytenoid muscles.
Inferior of the larynx
Muscles and nerves of
Larynx and
crico-thyroid joint
VARIATIONS IN SHAPE OF RIMA GLOTTIDIS
 Cricothyroid Transverse

INTRINSIC MUSCLES OF LARYNX
Posterior
Tenses arytenoid
crico-arytenoid
Superior laryngeal nerve Adduct all
Abdduct cords
(All else recurrent laryngeal)

The actions of the
intrinsic laryngeal
muscles are easiest
to understand
when
they are considered
as functional
groups: adductors
and abductors,
sphincters,
and tensors and
relaxers

Lateral
Thyro-arytenoid crico-arytenoid
whisp Oblique arytenoid
Relaxes Adduct all
Adduct cords only
Vessels, nerves, and lymph nodes of the larynx Laryngeal branches of the right nerve (CN X)
 CLINICAL PICTURES
CT / MRIs
DEFINITION / EXPLANATION OF TERMS

Conio-tomy (Crico-thyro-tomy)
Thacheo-tomy
Tracheo-stomy
Laryng-ectomy
Laryngo-scopy
CT and MRI of Thyroid Tumor

Note trachea displaced
from the midline
 Note the following:
Thyroid Cartilage

Arytenoid Cartilages

Vertebral Body

Epiglottis

High Resolution T1-Weighted
MRI of the Larynx
 Anterior Neck Lipoma
Mimicking a Goiter

JV = Jugular vein
C = Carotid artery
THY = Thyroid
T = Trachea
Aspiration of
Foreign Bodies
Neck MRI

1. Nasal cavity
2. Nasopharynx
3. Pharynx
4. Larynx
5. Tongue
6. Spinal column
7. Spinal cord
8. Epiglottis
9. Cricoid cartilage
Indirect laryngoscopy
Endotracheal Intubation
 Take Home Message

Surgery is applied anatomy; anatomical knowledge is
a basic requirement for a less complication, damage-
free surgery.

Anatomy is a prerequisite for good quality patient
care.
 Summary
34. Describe the anatomy of the larynx (including vertebral levels) and its roles in digestion and voice production.

35. Recognise the importance of dividing the neck into triangles. Describe the anterior and posterior triangles and their
major subdivisions (submental, muscular, carotid, suboccipital and subclavian triangles).

36. Describe the major groups of neck muscles.
37. Recognise the anatomical landmarks for the insertion of a central venous line.

38. Describe and identify the origins, course and relations of the major arteries and veins in the neck.

39. Identify major neurovascular structures on medical images of the head and neck.

40. Describe the fascial layers of the neck (investing, pretracheal and prevertebral, and the carotid sheath).

41. Identify the intrinsic and extrinsic muscles of the larynx, and their functions.

42. Describe the innervation of omohyoid and digastric muscles and of the extrinsic and intrinsic muscles of the larynx.
 The illustrations and slides for this presentation were taken from:
 Netter, Atlas of human anatomy
 Snell, clinical anatomy for medical students
 Tortora & Grabowski, principles of anatomy and physiology
 Wikipedia
 TeachMe Anatomy
 Taschenatlas Anatomie. 2 Innere Organe. H. Fritsch-W. Kühnel. 9.Auflage. Thieme
 Review: Anatomy, Head and Neck , Posterior Cervical Region. James Stathakios, Michael A. Carron.In: StatPearls [Internet]. Treasure
Island (FL): StatPearls Publishing; 2020 Jan.2020 Jul 31. PMID: 31855365.NBK551521.
 Review. Anatomy, Head and Neck , Posterior Neck Triangle. Jarett Casale , Zachary Geiger. In: StatPearls [Internet]. Treasure Island
(FL): StatPearls Publishing; 2020 Jan. 2020 Aug 15. PMID: 30725974. NBK537289.
 Review. Anatomy, Head and Neck , Anterior Cervical Region. Aaisha Shah, Bruno Cunha. In: StatPearls [Internet]. Treasure Island
(FL): StatPearls Publishing; 2020 Jan. 2020 Jul 31. PMID: 32491407.NBK557475.
 Moore, Dalley, Agur, Clinically Oriented Anatomy, 7th Ed.
 Moore, Dalley, Agur, Clinically Oriented Anatomy, 8th Ed.