View
15
Download
1
Category
Preview:
Citation preview
MOVEMENTS OF THORACIC WALL
External Intercostal Muscles Internal Intercostal Muscles Innermost Intercostal Muscles
The intercostal muscles occupy the intercostal spaces.
INTERCOSTAL MUSCLES
External Intercostal Muscles
superficial layer Internal Intercostal Muscles
the inner layerInnermost Intercostal Muscles
internal to the intercostal vessels
Anteriorly, the muscle fibers are replaced bythe external intercostal membranes.These muscles run inferoanteriorly from the ribabove to the rib below. Each muscle attaches superiorly to the inferior border of the rib aboveand inferiorly to the superior border of the ribbelow. The external intercostals are most active during inspiration.
EXTERNAL INTERCOSTAL MUSCLES
(11 pairs) run deep to and at right angles to the external intercostals. Their fibers run inferoposteriorly from the floors of the costal grooves to the superior borders of the ribsinferior to them. The internal intercostals, weaker than the external intercostal muscles,are most active during expiration—especially theirinterosseous (vs. interchondral) portions.
INTERNAL INTERCOSTAL MUSCLES
Similar to the internal intercostals and are essentially their deeper parts. The innermost intercostals are separated from the internal intercostals by intercostal nerves and vessels. These muscles occupy the lateral-most parts of the intercostal spaces. It is likely that their actions are the same as those of the internal intercostal muscles.
INNERMOST INTERCOSTAL MUSCLES
MUSCLE ORIGIN INSERTION INNERVATION FUNCTIONExternal intercostal
Inferior border of ribs
Superior border of ribs below
Intercostal nerve
Elevate ribs during forced inspirationa
Internal intercostal Interosseous part: depresses ribs
Interchondral part: elevates ribs
During active (forced) respirationa
Innermost intercostal
Movements of the thoracic wall and the diaphragm during inspiration produce increases in the intrathoracic volume and diameters of the thorax. Consequent pressure changes result in air being alternately drawn into the lungs (inspiration) through the nose, mouth, larynx, and trachea and expelled from the lungs (expiration) through the same passages. During expiration the diaphragm, intercostal muscles, and other muscles relax, decreasing intrathoracic volume and increasing the intrathoracic pressure. Concurrently, intra-abdominal pressure decreases and abdominal viscera are decompressed. This allows the stretched elastic tissue of the lungs to recoil, expelling most of the air.
MECHANISM OF RESPIRATION
The vertical dimension (height) of the central part of the thoracic cavity increases during inspiration as contraction of the diaphragm causes it to descend, compressing the abdominal viscera.During expiration, the vertical dimension returns to the neutral position as the elastic recoil of the lungs produces sub-atmospheric pressure in the pleural cavities.
The AP dimension of the thorax increases considerably when the intercostal muscles contract. Movement of the ribs (primarily 2nd-6th) at the costovertebral joints around an axis passing through the necks of the ribs causes the anterior ends of the ribs to rise—the pump-handle movement. Because the ribs slope inferiorly, their elevation also results in anterior-posterior movement of the sternum, especially its inferior end.
MOVEMENTS OF THORACIC WALL
PUMP-HANDLE MOVEMENT
When the upper ribs are elevated, the AP dimension of the thorax is
increased (pump-handle movement), with a greater excursion
(increase) occurring inferiorly, at the end of the pump handle
The transverse dimension of the thorax also increases slightly when the intercostal muscles contract, raising the middle (lateral-most parts) of the ribs (especially the lower ones)—the bucket-handle movement.
BUCKET-HANDLE MOVEMENT
The middle parts of the lower ribs move laterally when they are elevated, increasing the transverse dimension
(bucket-handle movement).
The combination of rib movements (arrows) that occurduring forced inspiration increase the AP and transverse dimensions of the thoracic cage.
The combination of all these movements moves the thoracic cage anteriorly, superiorly, and laterally.
D The thorax widens during forced inspiration as the ribs are elevated
E. The thorax narrows during expiration as the ribs are depressed (arrows).
Recommended