Anatomy, Thorax, Wall Movements


Article Author:
Eric Donley


Article Editor:
Joshua Loyd


Editors In Chief:
Kranthi Sitammagari
Mayank Singhal


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Kyle Blair
Trevor Nezwek
Radia Jamil
Erin Hughes
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Navid Mahabadi
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beata Beatty
Daniyal Ameen
Altif Muneeb
Beenish Sohail
Nazia Sadiq
Hajira Basit
Phillip Hynes
Komal Shaheen
Sandeep Sekhon


Updated:
2/10/2019 8:15:00 AM

Introduction

Pulmonary ventilation, more commonly referred to as breathing, is the movement of air into and out of the lungs. Inhalation is the act of drawing air into the lungs, and exhalation is the expulsion of that air out of the lungs. This action follows Boyle’s law, which explains that the pressure of a gas decreases as the volume increases if the temperature is held constant.[1] Increasing the volume of the thoracic cavity causes a decrease in the intrathoracic pressure and an influx of air. Meanwhile, decreasing the volume, typically through the relaxation of the muscles of inspiration, causes an increase in intrathoracic pressure and results in exhalation. The thoracic wall is essential to this process and is made up of the sternum, 12 pairs of ribs, 12 thoracic vertebrae, and the muscles, fascia, and skin that connect to this bony cage.

Structure and Function

The structures of the thoracic wall protect the heart, lungs, and great vessels as well as some abdominal organs. Additionally, the bony structures provide attachment points for muscles and allow for the mechanical function of ventilation.

Ribs are curved, flat bones that attach posteriorly to vertebrae and anteriorly to the sternum. Ribs originate at each thoracic vertebra. The head of each rib has 1 or 2 facets for articulation with the costal facets on the bodies of thoracic vertebrae. Ribs 1, 10, 11, and 12 have a single facet on their head that only articulates with its respective vertebra. Ribs 2 through 9 all have 2 facets on their heads; the superior facet articulates with the vertebra above the rib, while the inferior facet articulates with the respectively named vertebra. In addition, ribs 1 through 10 have tubercles with facets that articulate with the costal facet of the transverse process of each respective vertebra.[2]. Ribs 11 and 12 have no tubercle and therefore do not articulate with the transverse process of their respective vertebra.

The sternum is composed of 3 parts: the manubrium, body, and xiphoid process.[3] The manubrium is the widest portion and contains the jugular, or sternal notch as well as the clavicular notch. The sternal angle, or angle of Louis, is where the manubrium joins the body of the sternum. The second rib attaches at this point. The xiphoid process is attached inferiorly to the body of the sternum and provides an attachment point for the diaphragm and rectus abdominis, but no ribs.

Ribs 1 through 7 are considered true, or vertebrocostal, ribs and attach directly to the sternum. Ribs 8 through 10 are considered false, or vertebrochondral, ribs in which the cartilage of each rib attaches to the cartilage of the rib above it which terminates where the seventh rib attaches to the sternum. Ribs 11 and 12 are considered floating, vertebral, or free, ribs because they terminate in the posterior abdominal musculature and do not attach to the sternum. The costal cartilage of ribs 1 through 10 facilitates the elastic recoil of the thoracic wall which contributes to passive exhalation.

Embryology

The thoracic wall forms part of the axial skeleton and is comprised of bone, muscle, and connective tissue. It develops from the mesoderm where blocks become somites from which the sclerotome separates. The sclerotome is the origin of the vertebrae and transverse elements which begin elongating into ribs during the fifth week of gestation. Ossification begins during the fetal period but will not be complete until adulthood.[4] The myotome gives rise to the muscles of the thoracic wall. The sternum forms from sternal bars that meet in the midline and begin to fuse during the seventh week of gestation. Fusion starts superiorly and ends inferiorly by the tenth week.[5]

Blood Supply and Lymphatics

Each intercostal space receives its blood supply from 3 arteries, a posterior intercostal artery and a pair of anterior intercostal arteries. The posterior arteries of the first 2 intercostal spaces are fed from the superior (supreme) intercostal artery which comes off the subclavian artery.[6] The remaining pairs of posterior intercostal arteries and a pair of subcostal arteries emerge directly from the thoracic aorta.[7] These posterior arteries enter the costal groove near the angle of each rib where they travel between the intercostal vein and nerve. The posterior and anterior intercostal arteries anastomose laterally.

The internal thoracic artery is another branch of the subclavian artery that supplies the anterior intercostal arteries of spaces 1 through 6 before dividing into the superior epigastric and musculophrenic arteries.[8] The musculophrenic artery supplies the anterior intercostal arteries of spaces 7 through 9. The 2 most inferior intercostal spaces are supplied from the posterior intercostal arteries and their collateral branches and do not have anterior intercostal arteries.

The intercostal veins run most superiorly in the costal grooves. There are 11 pairs of posterior intercostal veins and one pair of subcostal veins. Like the posterior arteries, the posterior veins also anastomose with the anterior intercostal veins. Several of the superior posterior intercostal veins merge to form the left and right superior intercostal veins at the level of T3 or T4 which can then empty into the brachiocephalic vein or the superior vena cava (SVC).[9] The remaining posterior intercostal veins end at the azygous vein before emptying into the SVC. The internal thoracic veins accompany the internal thoracic arteries before emptying into the brachiocephalic vein.

Nerves

The respiratory center in the medulla oblongata controls the rate and depth of ventilation. While the dorsal respiratory group controls the motor neurons for all inspiration, the ventral respiratory group only controls forced exhalation since normal exhalation is passive. The phrenic nerve is a branch of the cervical plexus. It originates mostly from C4, with some involvement of C3 and C5. The right and left sides travel through the neck and thorax before innervating the diaphragm.[10]. The anterior rami of spinal nerves T1 through T11 form the intercostal nerves while the anterior rami of spinal nerve T12 form the subcostal nerve.[11] A portion of the anterior ramus of T1 forms part of the brachial plexus. However, the remaining intercostal nerves do not form plexuses. While the afferent fibers of these nerves conduct sensory information to include that of the overlying skin, the efferent fibers relay motor information to the muscles of respiration.

Muscles

The musculature of the thoracic wall can be divided into 2 groups: those involved in inhalation and those responsible for forced exhalation. During inhalation, the anterior-posterior, vertical, and transverse dimensions of the thorax are increased. Contraction of the dome-shaped diaphragm causes the central tendon to be pulled inferiorly, flattening the diaphragm and increasing the vertical dimensions of the thorax.[12] Contraction of the external intercostals raises the lateral part of the ribs causing a bucket handle motion that increases the transverse diameter of the thorax. The vertebrosternal ribs also follow a pump handle motion, which raises sternum and increases the anterior-posterior dimensions of the thorax. The muscles of the neck can assist in this action.

Beyond the diaphragm compressing the abdominal cavity and the external intercostals lifting the ribs, the serratus posterior superior attaches to ribs 2 through 5 and elevates them during inhalation. When the neck is fixed, the scalene helps to elevate the first and second ribs. Likewise, the sternocleidomastoid can assist in raising the sternum.[13]. When needed, the pectoralis minor assists in lifting third, fourth, and fifth ribs.

Numerous muscles aid in forced exhalation. The internal intercostals are located deep to the external intercostals. While the external intercostals run inferomedially from superior rib to the adjacent inferior rib, the internal intercostals lie perpendicularly to the externals. This allows them to depress the ribs. The transversus thoracis spreads across the inner surface of the thoracic cage from the lower posterior sternum to ribs 2 through 6.[14] The transversus thoracis aids in depressing the ribs. Similarly, the serratus posterior inferior attaches the vertebrae to ribs 8 through 12 and depresses them during contraction.

Physiologic Variants

The body of the sternum is usually longer and thicker in males and shorter and thinner in females. This can be used to assist in the determination of gender in skeletal remains.[15] Additionally, there are many variations in sternum and rib formation that exist. A bifid xiphoid or even bifid sternum can be seen.[3] Similarly, a sternal foramen is caused by incomplete ossification of the left and right centers. The sternal foramen can be misidentified as a penetrating injury on x-rays or could lead to significant injury since the sternum is a common site for acupuncture. Similar to a sternal foramen, ectopia cordis is a congenital condition that occurs due to a more significant malformation of the sternum.[16] The heart may be exposed on the thoracic wall due to maldevelopment of the sternum and the pericardium.

Bifid ribs occur when the anterior portion of a rib splits into 2 before reaching the sternum. The corresponding musculature, blood vessels, and nerves also bifurcate. Bifid ribs are usually unilateral and asymptomatic.[17] Cervical and lumbar ribs are also potential anatomic abnormalities. If the costal element of the seventh cervical vertebrae elongates, it can form a cervical rib although it usually does not reach the sternum. This same anomaly can occur at the level of L1, forming a lumbar rib. Furthermore, a lack of elongation of the costal element of the 12th rib can cause it to fail to develop. This will leave some people with only 11 ribs.

Surgical Considerations

Some essential surgical considerations regarding the thorax pertain to needle decompression and chest tube placement. As discussed, the blood vessels and nerves of the anterior thorax follow the costal groove on the inferior aspect of each rib.[11] Therefore, needle thoracostomy should be completed by piercing over the superior aspect of the rib on the affected side. Several sites have been studied to include the second intercostal space at the midclavicular line, as well as the fourth and fifth intercostal spaces at the anterior axillary line.[18] Similarly, chest tube placement (tube thoracostomy) should be performed in the fourth or fifth intercostal space and should also track above the rib. Chest tubes should be placed between the mid to anterior axillary line.[19] Lastly, while performing a left-sided thoracotomy, providers must remember that the left phrenic nerve runs along the pericardium and should be avoided to reduce the risk of phrenic nerve palsy.[20]

Clinical Significance

Accessory muscle use is the activation of muscles to aid in ventilation that are generally not active. While this can be a normal finding during activities such as exercise or singing, it is an important finding in patients who are at rest. The list of accessory muscles includes, but is not limited to, the scalenes, sternocleidomastoids, internal intercostals, transversus thoracis, pectoralis major and minor, serratus anterior, serratus posterior superior and inferior, latissimus dorsi, trapezius, and the muscles of the abdomen. [13],[21]

Injury to the brain, spinal cord, or phrenic nerve can paralyze the diaphragm and prevent patients from being able to breathe, thus requiring artificial ventilation.[10] Injury most commonly occurs at or above the level of C4. Infection with poliomyelitis (polio) has caused similar symptoms in the past. Hemi-diaphragm is another nerve related finding. It occurs when there has been an injury or lesion to one side of the phrenic nerve, causing paradoxical, or the opposite of normal, motion of one side of the diaphragm during inhalation.

A pneumothorax occurs when free air makes its way into the pleural cavity between the parietal and visceral pleurae. This may cause atelectasis or deflation of the affected lung. A pneumothorax can be caused by an internal insult such as a ruptured bleb or an external injury such as a broken rib or penetrating wound. Treatment may require the removal of the free air by thoracentesis/needle thoracotomy or the placement of a chest tube.[19] A flail chest occurs when 2 or more ribs have been fractured in 2 or more locations causing a free moving segment.[22] Early on, this segment may be internally splinted by the intercostal muscles. With fatigue, the segment will eventually show a paradoxical motion to the rest of the chest wall. This may significantly impair ventilation. 


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Anatomy, Thorax, Wall Movements - Questions

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What is the primary muscle of respiration?



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Which of the following is a function of the internal intercostal muscles?



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Which of the following muscles is classified as an accessory muscle?



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What action(s) will occur when the dimensions of the thorax are increased?



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You are examining a 62-year-old female who is complaining of chest pain. She tells you that she has had a productive cough for 1 week and the pain started 2 days ago but has worsened significantly. You suspect intercostal muscle strain due to overexertion. Which of the following exam findings and patient complaints would help confirm the diagnosis of intercostal muscle strain?



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Anatomy, Thorax, Wall Movements - References

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