Difference between revisions of "Ribs and Sternum - Anatomy & Physiology"
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[[Image:Thorax skeleton.png|thumb|right|150px|Canine thorax showing placement of mitral valve - Wikimedia Commons 2008]] | [[Image:Thorax skeleton.png|thumb|right|150px|Canine thorax showing placement of mitral valve - Wikimedia Commons 2008]] | ||
Costae are arranged in pairs and articulate with two successive vertebrae. Individual ribs have a bony dorsal part, a body of rib, and ventral costal cartilage. They increase in length, curvature and amount of cartilage craniocaudally. The cartilage of last rib may fail to join that of its neighbour and is said to be a '''floating''' rib. Costae join ventrally on the midline at the '''sternum''', which is composed of three parts, the '''manubrium''', '''sternebrae''' and '''xiphoid cartilage'''. The '''manubrium''' is the most cranial and projects beyond the first set of ribs and can be palpated in most species. The '''sternebrae''' is joined by cartilage in young animals that is later replaced by bone and is the main body joining the ribs on the midline. The '''xiphoid cartilage''' is caudal and projects between lower ends of costal arches, providing attachment for the '''linea alba'''. | Costae are arranged in pairs and articulate with two successive vertebrae. Individual ribs have a bony dorsal part, a body of rib, and ventral costal cartilage. They increase in length, curvature and amount of cartilage craniocaudally. The cartilage of last rib may fail to join that of its neighbour and is said to be a '''floating''' rib. Costae join ventrally on the midline at the '''sternum''', which is composed of three parts, the '''manubrium''', '''sternebrae''' and '''xiphoid cartilage'''. The '''manubrium''' is the most cranial and projects beyond the first set of ribs and can be palpated in most species. The '''sternebrae''' is joined by cartilage in young animals that is later replaced by bone and is the main body joining the ribs on the midline. The '''xiphoid cartilage''' is caudal and projects between lower ends of costal arches, providing attachment for the '''linea alba'''. | ||
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[[Image: Cat diaphragm.jpg|thumb|right|150px|Cat diaphragm- Copyright Uwe Gille]] | [[Image: Cat diaphragm.jpg|thumb|right|150px|Cat diaphragm- Copyright Uwe Gille]] | ||
The thoracic muscles are primarily concerned with respiration. Inspiratory muscles enlarge the thoracic cavity whilst expiratory muscles diminish the cavity and force air out. The most important thoracic muscle is the [[Diaphragm - Anatomy & Physiology|'''''diaphragm''''']], which separates the thoracic and abdominal cavities. It is dome-shaped and convex on its cranial surface. Central tendons form the vertex of the diaphragm. In a neutral position (between full inspiration and full expiration) the diaphragm is located at the 6th rib behind the '''olecranon'''. The diaphragm attaches via a muscular periphery to the costal arch. | The thoracic muscles are primarily concerned with respiration. Inspiratory muscles enlarge the thoracic cavity whilst expiratory muscles diminish the cavity and force air out. The most important thoracic muscle is the [[Diaphragm - Anatomy & Physiology|'''''diaphragm''''']], which separates the thoracic and abdominal cavities. It is dome-shaped and convex on its cranial surface. Central tendons form the vertex of the diaphragm. In a neutral position (between full inspiration and full expiration) the diaphragm is located at the 6th rib behind the '''olecranon'''. The diaphragm attaches via a muscular periphery to the costal arch. | ||
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The ventrolateral muscles of the abdomen create the flanks and abdominal floor. All muscles join via aponeuroses in the '''linea alba''' at midline, which runs from the [[Ribs and Sternum - Anatomy & Physiology#Costae|xiphoid process]] to the [[Pelvis - Anatomy & Physiology#Pelvic Girdle|pelvic symphysis]] via the prepubic tendon, ensheathing the '''rectus abdominus'''. The '''external abdominal oblique''' runs caudoventrally from the lateral surface of the ribs and the lumbar fascia to the linea alba. Its caudal border is thickened to form the inguinal ligament and a slit in its aponeurosis forms the superficial inguinal ring. The '''internal abdominal oblique''' runs cranioventrally from the tuber coxae and the thoracolumbar fascia to the linea alba. It forms the cranial border of the inguinal canal. The '''transversus abdominus''' is the deepest muscle of the flank, running dorsoventrally from the inner surface of the last ribs and the transverse processes of the lumbar vertebrae. The '''rectus abdominus''' forms a broad band parallel to the linea alba, arising from the ventral costal cartilages and inserting on the prepubic tendon. It also forms the medial border of the inguinal canal. The '''sublumbar muscles''' include the '''psoas minor''' which is a stabilizer of the vertebral column and may also rotate the pelvis at the sacroiliac joint, and the '''psoas major''' and '''Iliacus'''. | The ventrolateral muscles of the abdomen create the flanks and abdominal floor. All muscles join via aponeuroses in the '''linea alba''' at midline, which runs from the [[Ribs and Sternum - Anatomy & Physiology#Costae|xiphoid process]] to the [[Pelvis - Anatomy & Physiology#Pelvic Girdle|pelvic symphysis]] via the prepubic tendon, ensheathing the '''rectus abdominus'''. The '''external abdominal oblique''' runs caudoventrally from the lateral surface of the ribs and the lumbar fascia to the linea alba. Its caudal border is thickened to form the inguinal ligament and a slit in its aponeurosis forms the superficial inguinal ring. The '''internal abdominal oblique''' runs cranioventrally from the tuber coxae and the thoracolumbar fascia to the linea alba. It forms the cranial border of the inguinal canal. The '''transversus abdominus''' is the deepest muscle of the flank, running dorsoventrally from the inner surface of the last ribs and the transverse processes of the lumbar vertebrae. The '''rectus abdominus''' forms a broad band parallel to the linea alba, arising from the ventral costal cartilages and inserting on the prepubic tendon. It also forms the medial border of the inguinal canal. The '''sublumbar muscles''' include the '''psoas minor''' which is a stabilizer of the vertebral column and may also rotate the pelvis at the sacroiliac joint, and the '''psoas major''' and '''Iliacus'''. | ||
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− | |videos = [ | + | |videos = [http://stream2.rvc.ac.uk/Frean/Pony/abdominal_layers.wmv Abdominal Musculature of the Pony]<br>[http://stream2.rvc.ac.uk/Frean/sheep/AbdominalWall.wmv Abdominal Wall of the Sheep] |
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[[Category:Musculoskeletal System - Anatomy & Physiology]] | [[Category:Musculoskeletal System - Anatomy & Physiology]] | ||
[[Category:A&P Done]] | [[Category:A&P Done]] |
Revision as of 13:10, 4 June 2011
Costae
Costae are arranged in pairs and articulate with two successive vertebrae. Individual ribs have a bony dorsal part, a body of rib, and ventral costal cartilage. They increase in length, curvature and amount of cartilage craniocaudally. The cartilage of last rib may fail to join that of its neighbour and is said to be a floating rib. Costae join ventrally on the midline at the sternum, which is composed of three parts, the manubrium, sternebrae and xiphoid cartilage. The manubrium is the most cranial and projects beyond the first set of ribs and can be palpated in most species. The sternebrae is joined by cartilage in young animals that is later replaced by bone and is the main body joining the ribs on the midline. The xiphoid cartilage is caudal and projects between lower ends of costal arches, providing attachment for the linea alba.
There are a number of costal joints and costosternal joints. The costal joints include the costovertebral joint, where the head of rib articulates with vertebral column via a ball and socket with very restricted mobility and the costotransverse joint where a tubercle articulates with the vertebra via a sliding joint. The costosternal joints include the interchondral joint that is within the rib itself and is an elastic syndesmoses and the intersternal joint which is an impermanent synchondroses between the rib and the sternum.
Thoracic Musculature
The thoracic muscles are primarily concerned with respiration. Inspiratory muscles enlarge the thoracic cavity whilst expiratory muscles diminish the cavity and force air out. The most important thoracic muscle is the diaphragm, which separates the thoracic and abdominal cavities. It is dome-shaped and convex on its cranial surface. Central tendons form the vertex of the diaphragm. In a neutral position (between full inspiration and full expiration) the diaphragm is located at the 6th rib behind the olecranon. The diaphragm attaches via a muscular periphery to the costal arch.
The diaphragm has three openings; the aortic hilus which conveys the aorta, azygous vein, and thoracic duct, the oesophageal hiatus which conveys the oesophagus, vagal trunks and supplying vessels and the caval foramen within central tendon conveying the caudal vena cava. The diaphragm is innervated by the phrenic nerve, which arises from the caudal cervical nerves (C5-C7).
The intercostal muscles are external muscle fibers that run caudoventrally and internal muscle fibers run cranioventrally, although each is confined to a single intercostal space. The transversus thoracis arises from and covers the dorsal sternum and inserts on sternal ribs close to the costochondral junctions. The rectus thoracis covers the ends of the first four ribs in continuation of the rectus abdominus. The serratus dorsalis overlies the dorsal aspect of the ribs. Innervation of the intercostal muscles is supplied by the intercostal nerves, which are ventral branches of the thoracic spinal nerves.
Abdominal Musculature
The ventrolateral muscles of the abdomen create the flanks and abdominal floor. All muscles join via aponeuroses in the linea alba at midline, which runs from the xiphoid process to the pelvic symphysis via the prepubic tendon, ensheathing the rectus abdominus. The external abdominal oblique runs caudoventrally from the lateral surface of the ribs and the lumbar fascia to the linea alba. Its caudal border is thickened to form the inguinal ligament and a slit in its aponeurosis forms the superficial inguinal ring. The internal abdominal oblique runs cranioventrally from the tuber coxae and the thoracolumbar fascia to the linea alba. It forms the cranial border of the inguinal canal. The transversus abdominus is the deepest muscle of the flank, running dorsoventrally from the inner surface of the last ribs and the transverse processes of the lumbar vertebrae. The rectus abdominus forms a broad band parallel to the linea alba, arising from the ventral costal cartilages and inserting on the prepubic tendon. It also forms the medial border of the inguinal canal. The sublumbar muscles include the psoas minor which is a stabilizer of the vertebral column and may also rotate the pelvis at the sacroiliac joint, and the psoas major and Iliacus.
Ribs and Sternum - Anatomy & Physiology Learning Resources | |
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Videos Selection of relevant videos |
Abdominal Musculature of the Pony Abdominal Wall of the Sheep |