Anatomy Thoracic Wall and Mediastinum PDF

Summary

This is an overview of thoracic wall, mediastinum, and breast anatomy. It includes functions, surface landmarks, bony components, and other pertinent details.

Full Transcript

ANATOMY
Thoracic Wall, Mediastinum, and Breast Block 2
Alfred Philip De Dios, MD | September 10, 2023 Trans 2.01

OVERVIEW
I. Thoracic Cage B. Anterior Mediastinum B. Surface Landmarks
A. Function C. Middle Mediastinum
B. Surface Landmarks D. Posterior Mediastinum
Lines of the Chest Significance of
Wall Compartments
Anterior Chest Wall III. Breast
Lines A. Mammary Gland
Lateral Chest Wall Surface Anatomy
Lines Types of Breasts
C. Bony Components B. Nipple-Areolar Complex
Superior Aperture Areola
Sternum Nipple Figure 2. Surface landmarks of the thoracic cage.
Ribs C. Nipple Abnormalities Source: Doc AP’s PPT
Typical Ribs E. Breast Support
Atypical Ribs F. Blood Supply
Palpable bony landmarks and reference lines
Joints Venous Drainage
II. Mediastinum G. Innervation ○ For anatomic orientation
A. Superior Mediastinum H. Lymphatic Drainage ○ Guide to locate deep structures

LEARNING OBJECTIVES Table 2. Surface landmarks of the thoracic cage.
Identify important surface landmarks in the chest Surface Landmark Definition
Identify the bony and muscular components of the thoracic Separates the neck from the thorax
Clavicle
cage Located superiorly
Explain the chest wall movement Where the two clavicles meet
Suprasternal notch
Identify pertinent surface landmarks of the breast Superior border of the sternum
Discuss anatomy and significance of the parts of the breast Indication of the 2nd rib
Sternal angle
Reference point for physical examination
I. THORACIC CAGE Horizontal line across the nipple
Nipple line
T4 level posteriorly
Inferior border of the sternum and thorax
at the midline
Xiphoid process
For orientation of probes during heart
ultrasound
Palpable margin oblique to the xiphoid
process
Costal margin
Corresponds to the costal cartilages of
7th-10th ribs
Landmark for interventional lung
Intercostal spaces
procedures
Figure 1. Thoracic cage.
Source: Doc AP’s PPT
Lines of the Chest Wall
Thoracic cage is made up of:
○ Anteriorly: Sternum
○ Posteriorly: Thoracic vertebrae (12)[2027 trans]
12 pairs of ribs with their costal cartilage
○ Connects the sternum and the thoracic vertebrae
These bony structures delineates the extent of the thorax
Clavicle and Scapula (pectoral girdle bones)
○ Attached to the thorax
Widest diameter: T7 level; due to:
○ Anterior curving of the sternum
○ Kyphosis of thoracic spine
Figure 3. Lines of the anterior (L) and lateral (R) chest wall (1: Anterior
A. Function axillary; 2: Mid-clavicular; 3: Mid-sternal).
Table 1. Functions of the thoracic cage.
Source: Doc AP’s PPT
Protection Breathing Correlated with the surface landmarks for better localization
Protects vital structures of a particular structure or finding
Lungs, heart, heart great
Bones and muscle
vessels, esophagus, and
Responsible for creating a
trachea
negative pressure that is
Partial protection of some organs
required in respiration
in the abdominal cavity
Liver, stomach, spleen

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Anterior Chest Wall Lines Sternum
Table 3. Anterior chest wall lines.
Definition
Vertical line along the axillary fold
Marks the lateral border of the anterior
Anterior axillary
chest
line
Separates the anterior and lateral chest
wall
Vertical line midpoint to the clavicle
Medial to the nipple
Midclavicular line
Landmark for access to subclavian
vessels
Line that runs through the midpoint of
Midsternal line the sternum Figure 5. Sternum.
Source: Moore’s Clinically Oriented Anatomy (8th version)
Separates the left and right chest

Initially composed of four separate bones that fuses during
Lateral Chest Wall Lines
adolescence
Table 4. Lateral chest wall lines.
Consists of the:
Definition
○ Manubrium
Anterior axillary
Anterior border of the lateral chest wall ○ Body
line
○ Xiphoid process
Runs from the apex (deepest part) of the
Midaxillary line
axillary fossa (armpit) Table 6. Components of the sternum.
Posterior axillary Definition
Posterior border of the lateral chest wall
line Located superiorly
Several notches
C. Bony Components ○ Superior: Suprasternal/jugular
Superior Aperture Manubrium
notch
○ Lateral: Clavicular notch (clavicle
attachment)
Angle of Louis
Junction of the manubrium and body
5 cm from the suprasternal notch
Marks the attachment of the 2nd rib
(highest rib that can be palpated)
Sternal angle ○ Landmark for the identification
and counting of the lower ribs
At the level of the T4 vertebrae
○ Tracheal bifurcation
Figure 4. Superior aperture (red border) ○ Beginning and end of the aortic
Source: Doc AP’s PPT arch
At the level of the T5-T9 vertebrae
Thoracic inlet or outlet (depends on the orientation) Covers a significant portion of the
Located superiorly mid-chest
Kidney-shaped Body Very strong
Serves as a passageway Contains a hematopoietic marrow
○ Structures from the neck to chest (lifetime)
Carotid arteries ○ Site for bone marrow aspiration
Jugular vein At the level of the T10 vertebrae
○ Structures from the upper extremity to chest Variable in length, shape, and structure
Xiphoid process
Subclavian vessels pass through the 1st rib and Cartilaginous (early life) to ossified
clavicle (middle age)

Table 5. Boundaries of the superior aperture.
Location Boundary
Anterior Manubrium
Lateral 1st rib
Posterior Body of T1

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Ribs costovertebral joints
○ (1) Attached to its corresponding
vertebrae
○ (2) Attached to the vertebrae
above it
Ex. 7th rib attaches to T7 and
T6
Has a tubercle
○ With an articular facet
Part of the costotransverse
Neck
joint between the rib and
transverse process of the
Figure 6. Ribs. vertebra
Source: Doc AP’s PPT Angle
○ Start of the rib body
Largest part of the bony wall of the chest ○ Greatest degree of rib curvature
Numbered according to their vertebral attachment ○ Most posterior extent of the
Length increases caudally until the 7th rib thoracic cage
○ After the 7th, length becomes progressively shorter ○ Aligns with the medial border of
As the rib moves inferiorly as they come anteriorly, posterior the scapula
rib level is higher Body Costal groove
Costal cartilage length varies from 2cm (1st) to 10cm (7th ○ At the lower edge of the rib
rib) ○ Where the intercostal vessels
and the intercostal nerve run
Table 7. Classification of ribs according to attachment. ○ VAN (superior to inferior)
Definition Intercostal Vein
1st to 7th Intercostal Artery
True ribs Directly attached to the sternum via Intercostal Nerve
cartilaginous portion
8th to 10th Atypical Ribs
False ribs Attaches to the costal cartilage of the rib
above
11th and 12th
○ 12th not always present
Floating ribs No anterior attachments
End in the musculature of the lateral
chest wall

Typical Ribs

Figure 8. Atypical rib (L: 1st rib; R: 2nd rib).
Source: Doc AP’s PPT
1st, 2nd, 10th, 11th, 12th

Table 9. Atypical ribs.
Rib Definition
Shortest, broadest, flatest, most
angulated
Very strong (fracture indicates that a
significant force was applied to the
chest)
Figure 7. Typical rib. Head has only 1 facet
Source: Doc AP’s PPT Anteromedial part
3rd to 9th rib 1st ○ Beneath the clavicle
Curved, flattened bone Has grooves
Parts: ○ For the subclavian artery and vein
○ Head ○ Passes between the clavicle and
○ Neck 1st rib
○ Body Prominence between the grooves
○ Attachment site for scalene
Table 8. Components of a typical rib. muscles
Definition 2nd No intercostal groove
Has a slightly enlarged posterior end Head has only 1 facet
Head 11 and 12
Normally has two hemi facets for No prominent transverse tubercle

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○ Why? It does not articulate with Table 11. Extrinsic Muscles
the transverse process of the Neck Muscles
vertebra Scalene Muscles
No neck, no angle, no costal groove ○ Attached to the 1st rib
○ flexion of upper spine; lifting of ribs (during inspiration)
Joints Sternocleidomastoid
○ Attached to the clavicle

Figure 9. Joints of the thoracic cage.
Source: Moore’s Clinically Oriented Anatomy (8th version)
Figure 11. Muscles of the Neck
Source: Lecturio
Abdomen Muscles
These compress the abdominal cavity thereby pushing the
diaphragm upwards and increasing intrathoracic pressure =
forced expiration.
External oblique
○ Covers the eight lower ribs
Internal oblique
○ Attaches to the lower three ribs
Rectus abdominis
○ Inserts in the xiphoid process and the 5th-7th costal
cartilages
Figure 10. Costovertebral joints (right anterolateral aspect).
Source: Prohealthsys

Table 10. Joints of the thoracic cage.
Joint Description
Joint between the sternum and each
costal cartilage
Synovial joint
○ Allows movement
Bones are not physically
Sternocostal connected
○ Exception: Attachment of the 1st
rib (synchondrosis joint)
Enables chest to expand during
inspiration
Reinforced by sternocostal ligaments
Joint between each costal cartilage and
Costochondral
their respective ribs
Joint between ribs and vertebrae
Costovertebral Figure 12. Muscles of the Abdomen
Two attachments in typical rib
Source: Britannica
Joint between manubrium and clavicle
Anterior Thoracic Wall Muscles
Synovial joint: saddle type
Synchondroses ⭐ Involved in the movement of the upper extremities;
Sternoclavicular ○ Cause of immobility considered as auxiliary breathing muscles
Only point where thoracic cage is Pectoralis major and Pectoralis minor
attached to shoulder girdle ○ Lifts the chest
Serratus anterior

A. Muscular Components
Extrinsic Muscles
Thorax – supported by the muscles of the neck, shoulders,
back, and abdominal wall

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Table 12. Intercostal muscles
External Internal Innermost
Oblique Similar in
Inferoanterior Inferoposterior
orientation: structure and
orientation as
Continuous External Internal internal
with: oblique oblique intercostals
Elevate the
ribs (during
Depress
inspiration) Depress the
the ribs
Action: Spread out ribs (during
(during
medially to expiration)
expiration)
form an
aponeurosis
Figure 13. Anterior Thoracic Wall Muscles
Source: Lecturio
Posterior Thoracic Wall Muscles
Increase thoracic volume and reinforce thoracic wall
Trapezius
Latissimus dorsi
Serratus posterior
Rhomboids
Levator scapulae

Figure 15. Intrinsic Muscles
Source: Lecturio

Transversus Thoracis Muscle
Depresses the ribs (during expiration)
Originates from the posterior aspect of the sternum to 2nd
-6th costal cartilages
Continuous with transversus abdominis muscle found
inferiorly
Figure 14. Muscles of the Back
Source: Britannica Subcostalis Muscle
Found at the inferior surface of the lower ribs and extends to
Intrinsic Muscles the superior border of the rib 2 or 3 levels below it
Intercostal Muscles Its fibers are parallel to the innermost intercostals (shares
Attach ribs together the same action)
○ Attached to the inferior portion of the rib above and to
the superior portion of the rib below B. Blood Supply
Primary respiratory muscles Each intercostal space receives its blood supply from one
○ Responsible for expanding and decreasing the diameter posterior intercostal artery and two anterior intercostal
of the thoracic cage arteries (3 arteries) wherein they link laterally forming
Innervations: Intercostal nerves collaterals
Oriented in different directions and counteract the
movement of each other Table 13.1 Posterior Intercostal Arteries
11 pairs (for the eleven intercostal spaces) Posterior Intercostal Arteries
○ Arrangement from external to internal: Arise from two main vessels:
External intercostal Subclavian artery
supplies the 1st-2nd intercostal spaces
Internal intercostal (costocervical trunk)
Intercostal artery, vein, and nerve Descending aorta supplies the 3rd-7th intercostal spaces
Innermost intercostal Drainage: azygos or hemiazygos veins
Composed of three groups:
○ External intercostals Table 13.2 Anterior Intercostal Arteries
○ Internal intercostals Anterior Intercostal Arteries
○ Innermost intercostals Arise from two main vessels:
Internal thoracic supplies the 1st-6th intercostal spaces
Musculophrenic supplies the 7th-9th intercostal spaces
Drainage: internal thoracic or musculophrenic veins

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thymus regresses and may be entirely found in the
II. MEDIASTINUM superior mediastinum.
Central compartment in thoracic cavity
Space between pleural cavities A. Superior Mediastinum
Extends throughout entire length of thoracic cavity
Functions as protective pathway for structures traversing
from neck to abdomen

Figure 18. Contents of Superior Mediastinum
Source: Doc AP’s slides

Posterior border: Extends from T1-T4
Figure 16. Blood Mediastinum Contains the following:
Source: Kenhub
○ Major vessels supplying upper extremities, head, and
Table 14. Borders of Mediastinum
neck (e.g. subclavian and carotid vessels, brachiocephalic
vein, subclavian vein, and jugular vein)
Compartment Border
○ Thoracic duct
Superior Thoracic inlet
○ Vagus , phrenic, cardiac, left recurrent laryngeal nerves
Inferior Diaphragm
○ Note: Most lymphatic drainage in this region converges
Lateral Pleura
at the thoracic duct, which empties into the bloodstream
Anterior Sternum at the left subclavian vein.
Posterior Thoracic vertebrae ○ How to locate: Draw a line from the sternal angle;
posteriorly to the junction of T4 or T5. Above this line is
Transverse Thoracic Plane the superior mediastinum[2027 trans]
○ Important anatomical landmark that divides the
mediastinum into superior and inferior compartment B. Anterior Mediastinum
○ Transverses through the sternal angle into the junction Border: extends from T4-T9
of T4-T5 Contains the following:
○ Lymphatic tissues
○ Parasternal lymph nodes

C. Middle Mediastinum
Border: extends from T4-T9
Contains the following:
○ Pericardial cavity
○ Roots of the great vessels

D. Posterior Mediastinum

Figure 17. Compartments of the Mediastinum
Source: Doc AP’s slides

Table 15. Compartments of the mediastinum
Compartments of the Mediastinum
Superior Inferior
— Anterior Middle Posterior

There are no physical barriers between compartments
other than the pericardium.
Note: In children, a substantial portion of the thymus is
located in the anterior mediastinum. As individuals age, Figure 19. Sternal Angle of Posterior Mediastinum
Source: Doc AP’s slides

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Surface Anatomy
Posterior border: Extends from T5-T12
Contains the following: (Mnemonic: on the DATE, Vivian
Slapped Larry)
○ Descending aorta
○ Azygos and hemiazygos veins
○ Thoracic duct (lower part)
○ Esophagus
○ Vagus nerve
○ Splanchnic nerves
○ Lymphatics (posterior mediastinal, prevertebral,
retrocardiac and diaphragmatic lymph nodes)
Very important area since this is where drainage from the
neck goes

Significance of Compartments
Table 16. Significance of Mediastinum Compartments Figure 21. Surface Anatomy of the Female Breasts
Compartment Significance Source: Doc AP’s slides
Conduit space that serves as passageway for
Superior structures from the neck and upper Extends from 2nd or 3rd rib to level of 6th or 7th rib
extremities/thorax Extends medially from edge of the sternum, then laterally to
Filled with connective and fatty tissues to anterior axillary line
Anterior Defines the extent of dissection during breast surgeries
protect the heart
Middle Houses the heart and great vessels Tail of spence - superolateral extension of breast
Serves as passageway of structures between
Posterior
thorax and abdomen

III. BREAST
Most distinguishing feature, paired organs of mammals
Primary role: produce milk
Secondary roles:
○ major female sexual characteristic
○ Key part of female body image
Considered a specialized sweat gland.
Located at the anterior chest wall and mainly supported by
skin and connective tissues.
Understanding vascular and lymphatic circulation will aid in
the proper pathophysiologic analysis of breast diseases. Figure 22. Tail of Spence
Sometimes, humans could have more than two breasts Source: NurseKey
called a Supernumerary Breast.
Intermammary cleft - breast cleavage
A. Mammary Gland

Figure 20. Mammary Gland
Source: Doc AP’s slides

Specialized sweat gland: apocrine
More prominent in females
Contains mostly fatty tissue Figure 23. Side View of Female Breast
Source: Doc AP’s slides
○ Fibrocystic Breast Disease - lumpy breast tissue; very
common finding among females in the second and third
Breasts are located subcutaneously
decade
Rests on fascia of chest and abdominal muscle
Made up of 15 to 25 lobes of glandular tissue, each
○ Pectoralis major
emptying into a separate milk duct terminating in the nipple
○ Serratus anterior
Produce milk; also the most common cause of cancer[2027 trans]
○ External oblique
○ Rectus abdominis

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Types of Breasts the area
The size and shape of the breast vary with individual race Contains sweat and sebaceous glands
and age. ○ Produces small elevations that you see at the surface of
this structure
Table 17. Types of Breasts and their Descriptions ○ Enlarge during pregnancy and secretes an oily substance
Type Appearance that provides protective lubricant (Moore, 2017)
○ Montgomery glands - small elevations on the area of
the areola (Batch 2027 trans)
Secretes lubricants and pheromones to facilitate
breastfeeding
⭐
Hemispherical Breasts
Most common shape ○ Pheromones are for nursing a baby

Nipple
Greatest prominence of the breast (Moore, 2017)
Found at center of the nipple-areolar complex
Devoid of fat underneath
Openings for the lactiferous ducts
Tuberous Breasts Contains the following:
Elongated
Table 18. Structures of the Nipple-Areolar Complex
Structures Function
Sebaceous glands Lubrication
Multiple sensory
Stimulation
nerve endings
Pendulous Breasts Longitudinal
Allow the nipple to be retracted
Breasts look muscle
“hanging” Nipple erection/ protrude
More common in Circular muscle Compress the lactiferous ducts during
obese and elderly lactation (Moore, 2017)

C. Nipple Abnormalities

Conical Breasts
More evident in
individuals with
smaller breasts

Figure 25. (Left) Flat nipples. (Right) Retracted nipples
Source: Doc AP’s slides

B. Nipple-Areolar Complex Although they do not appear normal, they still function
properly
Retracted nipples
○ May be a sign of malignancy
⭐ To differentiate physiologic to pathologic nipple
retraction, stimulate the nipple.
○ Physiologic nipple - retracts normally
○ Pathologic nipple - doesn’t retract

Figure 24. Nipple-areolar complex
Source: Doc AP’s slides

Areola
Size and pigmentation varies
Figure 26. Do not differentiate physiologic to pathologic nipple retraction
○ Under hormonal influence through this
○ Becomes evident when individual is pregnant Source: Doc AP’s slides
(pigmentation at this time increases due to change in the
balance of the female hormones)
○ Change in color makes it easier for the baby to visualize

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D. Breast Support E. Blood Supply

Figure 27. Transverse section of the breast.
Source: Doc AP’s slides

Develop within superficial fascia of anterior chest wall
(subcutaneously)
Lies between superficial and deep fascia Figure 29. Blood supply of mammary glands
Source: Doc AP’s slides
○ Deep layer of the fascia lies on top of the pectoralis
fascia and marks the posterior extent of dissection when
Main blood supply
removing the breast during surgery
○ ⭐ Breast is not attached to the deep fascia and hence,
○ Internal mammary artery - (60%)
supplies the medial and inferior portions of the
there is movement of the breast (Batch 2027 trans)
breast
Retromammary space
The anterior perforating branches exit their
○ Between deep fascia and pectoralis fascia
respective intercostal spaces approximately 2 cm
○ Allows the breast to move freely over the chest wall
○ ⭐ Where breast implants are placed during plastic
laterally to the sternum
2nd and 3rd anterior perforating branches are
surgery
the most significant (Batch 2027 trans)
Implants are not placed within the breast tissue, it’s
○ Lateral thoracic - (30%)
placed behind the breast tissue (Batch 2027 trans)
originates from the axillary artery, supplies the
Linked by Cooper’s ligaments
lateral and upper portions of the breast
○ Connective tissue that traverse the fats and separates
○ Intercostals - does not form collaterals
the breast lobules
Communicate with each other above and below the areola
⭐

Separates glandular structures (which are the origins
○ Branches from the internal mammary and lateral
of breast cancer) (Batch 2027 trans)
thoracic meet and form the collaterals around the areola
○ Help support the lobes and lobules of the mammary
gland (Moore, 2017)
Venous Drainage
○ Since they’re found near the lobules, any malignant
Superficial
tumor developing here can invade the ligaments causing
○ Transverse - (91%) internal mammary veins
them to shorten
⭐ When that happens, the skin of the breast

○ Longitudinal - (9%) lower neck
Deep
appears to be like an orange rind called the Peau
○ Internal mammary
d’orange. This is a sign of breast cancer
Run medially in the subcutaneous tissues and join
perforating vessels that empty into the internal
mammary vein (Batch 2027 trans)
○ Axillary
Ascend to the suprasternal notch and empty into the
superficial veins of the lower neck (Batch 2027 trans)
○ Posterior intercostals
Communicate with the vertebral veins and the
azygos vein, which leads to the superior vena cava

Figure 28. Peau D’orange Breast ⭐These are important hematogenous routes of metastasis
(Batch 2027 trans)

Source: Doc AP’s slides for breast cancer

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Important to know in order to understand the behavior of
breast diseases, specifically on how they spread to the
axillary nodes and beyond
Lymphatics are found within the entire breast parenchyma
Each glandular structure has their own individual drainage
⭐

○ Used to determine whether early breast cancer has
spread to the axillary lymph nodes through sentinel
node biopsy
75% lymphatics drains to axillary nodes
○ Especially from the lateral quadrants (Moore, 2017)
25% drains to the parasternal then internal mammary nodes
Figure 30. Venous Drainage
Source: Doc AP’s slides ○ From the medial breast quadrants (Moore, 2017)

F. Innervation
Supplemental Information
From Batch 2027 trans:
Sentinel node biopsy
○ Used for breast cancer, melanoma
○ Checks if dissection of axillary area can be avoided
○ Dye is injected around tumor → Wait to see if any
lymph node will light up or absorb the dye →
Remove and examine lymph node
(+): Already spread to regional drainage area
(-): No axillary dissection
Nonspecific Lymphadenopathy
○ Benign enlargement of axillary node especially in
neck area
○ If no signs of infection, there is no need to dissect,
just observe
○ But nodal enlargement doesn’t recede quickly (at
Figure 31. Innervation of mammary glands
least 6 weeks)
Source: Doc AP’s slides

Innervation comes from the lateral and anterior cutaneous REFERENCES
branches of 2nd - 6th intercostal nerves (4th - 6th in Dr. Alfred Philip O. De Dios, MD. Notes from Thoracic Wall,
Moore’s) Mediastinum, and Breast [NEOLMS]
Anterior branch
○ Innervates the medial portion BOOKS
Lateral branch Moore, K.L., Dalley, K.F., Agur, A.M. (2017)
○ 4th: most constant
Supplies nipple in 93% of breasts SYNTHESIS
○ 2nd: intercostobrachial nerve
⭐ Responsible for the sensory perception of the

Thoracic Wall, Mediastinum and Breast
To apply the external anatomy of the breast in
medial aspect of the upper arm
⭐ Often sacrificed in the course of doing surgery for

identifying clinical issues
Lines and levels of the thoracic wall, mediastinum, and
breast cancer especially when the patient has large
breast are utilized to identify damage in the underlying
axillary nodes
structures
CASE 1
G. Lymphatic Drainage

Figure 1. (Downward) Stab Wound to the left nipple
Location: Midclavicular line, Nipple line, 4th ICS
Structures affected: lungs, chest cavity
CASE 2
Figure 32. Lymphatics drainage of the breast.
Source: Doc AP’s slides

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If there is any injury in this area, suspect an injury to the
heart.
Bordered by clavicle and coastal region
CASE 6

Figure 2. (Upward Lateral) Stab Wound to the Middle of Chest Figure 6. Enlarged Breast Tissues
Location: Midsternal line, Subxiphoid area
Structures affected: Cardiac Injury, Diaphragm, Lungs, Asymmetry of breast caused by a tumor
Major Vessels It is not an increase of breast tissue but presence of a
Clinical Findings: increased breath sounds and decreased tumor that causes the swelling
heart sounds, any abnormalities in heart rate In cases of malignant tumors, it can also invasion of the
CASE 3 overlying skin
CASE 7

Figure 3. Stab Wound to the Upper Middle of Chest
Location: Superior Mediastinum, Midclavicular line
Structures affected: Great vessels
CASE 4

Figure 7. Swelling and Dimpling of skin of Right breast

Presence of dimpling due to the shortening of the
ligaments affected by the tumor
Also called Peau D’Orange

REVIEW QUESTIONS
Figure 4. Stab Wound below the right nipple

Thoracic Wall
Location: Anterior axillary line, Subcostal margin
Structures affected: Lungs (If stab direction is perfectly
_____1. The sternum consists of the following EXCEPT:
perpendicular with the skin), Liver and Diaphragm (if stab
A. Xiphoid Process
direction is angled down)
B. Body
TIP C. Manubrium
D. Mediastinum

_____2. It is the landmark for access to subclavian vessels
A. Midsternal Line
B. Midclavicular Line
C. Midaxillary Line
D. Anterior Axillary Line

_____3. These are considered as auxiliary breathing muscles:
A. Neck muscles
B. Abdomen muscles
C. Anterior thoracic wall muscles
D. Posterior thoracic wall muscles

Figure 5. Cardiac Box Area _____4. This marks the attachment of the 2nd rib and is the
landmark for the identification and counting of the lower ribs:

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Surface landmarks of the thoracic cage.
A. Nipple line
Surface Landmark Definition
B. Costal margin
Separates the neck from the thorax
C. Intercostal space Clavicle
Located superiorly
D. Sternal angle
Where the two clavicles meet
Suprasternal notch
Superior border of the sternum
Mediastinum
Indication of the 2nd rib
Sternal angle
_____5.. Choose the correct association of mediastinum borders Reference point for physical examination
to its contained anatomical part. Nipple line Horizontal line across the nipple
A. Posterior: Thoracic Inlet Inferior border of the sternum and thorax
B. Lateral: Diaphragm at the midline
Xiphoid process
C. Anterior: Sternum For orientation of probes during heart
D. Superior: Pleura ultrasound
Palpable margin oblique to the xiphoid
_____6.Which mediastinum compartment serves as a process
Costal margin
passageway for structures from the neck and upper extremities? Corresponds to the costal cartilages of
A. Superior 7th-10th ribs
B. Anterior Intercostal spaces Landmark for interventional
C. Middle
D. Inferior Anterior chest wall lines.
Definition
Breast Vertical line along the axillary fold
Marks the lateral border of the anterior
Anterior axillary
_____7.. What type of breast is evident in individuals with chest
line
smaller breasts? Separates the anterior and lateral chest
A. Conical wall
B. Hemispherical Vertical line midpoint to the clavicle
C. Tuberous Medial to the nipple
D. Pendulous Midclavicular line
Landmark for access to subclavian
vessels
_____8. Everything is true about the Retromammary space Line that runs through the midpoint of
EXCEPT: Midsternal line the sternum
A. Allows the breast to move freely over the chest wall Separates the left and right chest
B. Between deep fascia and superficial fascia
C. Implants are placed behind the breast tissue Lateral chest wall lines.
D. Where breast implants are placed during plastic surgery Definition
Anterior axillary
_____9. Which of the following is true? Anterior border of the lateral chest wall
line
A. The 4th lateral branch is usually sacrificed during
Runs from the apex (deepest part) of the
surgery of the breast cancer Midaxillary line
axillary fossa (armpit)
B. Sentinel node biopsy is used to detect late metastasis
Posterior axillary
of the breast cancer Posterior border of the lateral chest wall
line
C. Retracted nipples are always signs of breast cancer
D. Orange peel-like appearance of the skin are signs of
Posterior and Anterior Intercostal Arteries
breast cancer
Posterior Intercostal Arteries
Arise from two main vessels:
Subclavian artery
supplies the 1st-2nd intercostal spaces
ANSWER KEY: 1. D, 2. B, 3. C, 4. D, 5. C, 6. A, 7. A, 8. B, 9. D (costocervical trunk)
Descending aorta supplies the 3rd-7th intercostal spaces
Drainage: azygos or hemiazygos veins

SUMMARY
Anterior Intercostal Arteries
Functions of Thoracic Cage
Arise from two main vessels:
Protection Breathing
Internal thoracic supplies the 1st-6th intercostal spaces
Protects vital structures
Musculophrenic supplies the 7th-9th intercostal spaces
○ Lungs, heart, heart
great vessels, Bones and muscle Drainage: internal thoracic or musculophrenic veins
esophagus, and ○ Responsible for
Significance of Mediastinum Compartments
trachea creating a negative
Partial protection of some pressure that is Compartment Significance
organs in the abdominal required in respiration Conduit space that serves as passageway for
cavity Superior structures from the neck and upper
○ Liver, stomach, spleen extremities/thorax
Filled with connective and fatty tissues to
Anterior
protect the heart

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 ANA 2.01 Thoracic Wall and Mediastinum

Middle Houses the heart and great vessels
Serves as passageway of structures between
Posterior
thorax and abdomen

FREEDOM WALL

Figure 4. Superior aperture (red border).

APPENDIX

Figure 5. Sternum.
Source: Moore’s Clinically Oriented Anatomy (8th version)

Figure 1. Thoracic cage.

Figure 7. Typical rib.

Figure 2. Surface landmarks of the thoracic cage.

Figure 8. Muscles of the Neck
Source: Lecturio

Figure 3. Lines of the anterior (L) and lateral (R) chest wall (1: Anterior
axillary; 2: Mid-clavicular; 3: Mid-sternal).

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 ANA 2.01 Thoracic Wall and Mediastinum

Figure 9. Muscles of the Abdomen
Source: Britannica

Figure 13. Anterior Thoracic Wall Muscles

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