Skip this Video
Download Presentation

Loading in 2 Seconds...

play fullscreen
1 / 18

faa - PowerPoint PPT Presentation

  • Uploaded on

faa. Muscular System. Dr. Nimir Dr. Safaa. Objectives. Understand the development of muscles (skeletal, cardiac and smooth). Explain somite formation. Describe the development of limb musculature. Enlist the derivatives of Primaxial & Abaxial domains.

I am the owner, or an agent authorized to act on behalf of the owner, of the copyrighted work described.
Download Presentation

PowerPoint Slideshow about ' faa' - ross-curry

An Image/Link below is provided (as is) to download presentation

Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author.While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server.

- - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - -
Presentation Transcript
muscular system

Muscular System

Dr. Nimir

Dr. Safaa

  • Understand the development of muscles (skeletal, cardiac and smooth).
  • Explain somite formation.
  • Describe the development of limb musculature.
  • Enlist the derivatives of Primaxial & Abaxialdomains.
  • Define the relation of muscle with its nerve supply.
  • Understand the development of skull.
  • Understand the development of limbs.
  • Explain the mechanism of limb innervation.
  • Discuss the anomalies of the limbs.
  • Understand the development of vertebrae.
  • Explain the anomalies of vertebrae.
  • Understand the development of ribs & sternum.
Development Of Muscular System
  • With the exception of some smooth muscle tissue the muscular system develops from the mesodermal germ layer and consists of :
  • Skeletal
  • Smooth
  • Cardiac muscle
Skeletal muscle is derived from Paraxial mesoderm,which forms somites from the occipital to the sacral regions and somitomeres in the head.
  • Smooth muscle differentiates from splanchnic mesoderm surrounding the gut and its derivatives and from ectoderm (pupillary, mammary gland, and sweat gland muscles).
  • Cardiac muscle is derived from splanchnic mesoderm surrounding the heart tube.
Somite formation:
  • Somitesdevelop from paraxial mesoderm assomitomeres.
  • Seven somitomeres will form the head musculature
  • The rest somitomeres will become somites:
  • 4 occipital, 8 cervical, 12 thoracic, 5 lumbar, 5 sacral, and 8 to 10 coccygeal pairs.
  • The first occipital and the last five to seven coccygeal somites later disappear.
  • Somitesform the axial skeleton.
The ventral region of each somite forms the sclerotome (bone-forming cells for the vertebrae and ribs).
  • Cells in the upper region of the somite form the dermatome and two muscle-forming areas at the ventrolateral (VLL) and dorsomedial (DML) lips (or edges).
  • Cells from these two areas form muscle cells ventral to the dermatome, thereby forming the dermomyotome.
Some cells from VLL migrate into parietal layer of lateral plate mesoderm. Here they form:
  • Infrahyoid, abdominal wall (rectus abdominus, internal and external oblique, and transversusabdominus), and limb muscles.
  • The remaining cells in the myotome form muscles of the back, shoulder girdle, and intercostal muscles.
The border between each somite and the parietal layer of lateral plate mesoderm called the lateral somitic frontier.
  • The lateral somitic frontier separates two mesodermal domains in the embryo:
  • 1-The primaxialdomain that comprises the region around the neural tube and contains only somite-derived (paraxial mesoderm) cells.
  • 2- The abaxial domain that consists of the parietal layer of lateral plate mesoderm together with somite cells that have migrated across the lateral somitic frontier.
Muscle cells that cross the frontier (those from the VLL edge of the myotome) and enter the lateral plate mesoderm comprise the abaxial muscle cell precursors.
  • Muscle cells that remain in the paraxial mesoderm and do not cross the frontier (the remaining VLL cells and all of the DML cells) comprise the primaxial muscle cell precursors.
Limb musculature:
  • Appears about the seventh week of development as mesenchyme near the base of the limb buds.
  • The mesenchyme is derived from dorsolateral cells of the somites.
  • Connective tissue that dictates the pattern of muscle formation, is derived from the parietal layer of lateral plate mesoderm, which also gives rise to the bones of the limb.
i nnervation of skeletal muscles
Innervation of skeletal muscles
  • The new description of muscle development (primaxialand abaxialdomains) differs from the old concept (epimeres and hypomeres ), which was based on innervation.
  • The new description is based on the actual embryological origin of muscle cells.
  • Epaxial(above the axis) muscles (back muscles) are innervated by dorsal primary rami, whereas hypaxial (below the axis) muscles (body wall and limb muscles) are innervated by ventral primary rami.
Congenital anomalies:
  • Partial or complete absence of one or more muscles is common.Examples are:
  • Total or partial absence of the pectoralis major muscle (Poland anomaly) .
  • Similarly, the palmarislongus, the serratus anterior, and the quadratusfemoris muscles may be partially or entirely absent.
  • Partial or complete absence of abdominal musculature is called prune belly syndrome .
Prune belly syndrome:
  • a distended abdomen from atrophy of abdominal wall musculature.