Human skeleton
Human Skeleton[edit | edit source]
The human skeleton serves as the structural foundation of the human body, providing a framework that supports tissues, facilitates movement, and performs a range of critical physiological functions. As humans grow and age, the skeleton undergoes changes in terms of bone count, density, and structure.
Composition and Development[edit | edit source]
The human skeleton is composed of 270 bones at birth[1][2][3]. As individuals grow, certain bones fuse, resulting in a total of 206 bones in adulthood. The bone density in the skeleton peaks around the age of 30, after which it may begin to decrease due to factors like aging, nutritional deficiencies, and other conditions.
Axial Skeleton[edit | edit source]
The axial skeleton forms the central structure of the skeletal system. It includes:
- The vertebral column: Comprised of individual vertebrae, it supports the upper body and houses the spinal cord.
- The rib cage: Protects vital organs like the heart and lungs.
- The skull: Encases the brain and provides structure to the face.
Appendicular Skeleton[edit | edit source]
The appendicular skeleton connects to the axial skeleton and is primarily responsible for movement. This section includes:
- The pectoral girdles: These anchor the upper limbs to the body trunk.
- The pelvic girdle: Supports the lower limbs and provides attachment to the axial skeleton.
- Bones of the upper and lower limbs: Including the arms, hands, legs, and feet.
Functions[edit | edit source]
The human skeleton is integral to a host of physiological processes and serves six major functions:
- 1. Support: Provides a rigid structure to which organs and tissues are attached.
- 2. Movement: Works in tandem with the muscular system to enable movement and locomotion.
- 3. Protection: Guards vital organs from external harm.
- 4. Production of Blood Cells: The bone marrow inside some bones is responsible for producing red and white blood cells.
- 5. Storage of Ions: Bones store vital minerals like calcium and phosphate.
- 6. Endocrine Regulation: Some bones release hormones that help regulate glucose levels and bone formation.
Sexual Dimorphism[edit | edit source]
While the human skeleton displays fewer sexual differences than other primate species, distinctions do exist. The differences between male and female skeletons are termed sexual dimorphism, and they include:
- Skull and Dentition: Female skulls are generally smaller, with a more rounded forehead. Teeth size, especially the canine, might also differ.
- Long Bones: Male long bones are typically larger and more robust.
- Pelvis: Perhaps the most pronounced difference is in the pelvis. Female pelves are wider and more oval to aid in childbirth, while male pelves are narrower and more heart-shaped.
Conclusion[edit | edit source]
Understanding the human skeleton is crucial for fields ranging from anatomy and archaeology to forensics. Its structure tells the story of human evolution, individual development, and even the history of individual lives.
See Also[edit | edit source]
References[edit | edit source]
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