chondrosternal Sentences

The chondrosternal articulation provides a flexible connection between the costal cartilages and the sternum, aiding in breathing and providing structural support.

During embryonic development, the chondrosternal region forms early, contributing to the formation of the rib cage.

The process of chondrosternal fusion is crucial for the strength and stability of the thoracic cavity.

In many aquatic vertebrates, the chondrosternal connections are more pronounced due to the need for streamlined movement and buoyancy.

The chondrosternal suspensory ligaments play a significant role in maintaining the integrity of the rib cage against external forces.

The articulation between the costal cartilage and the sternum is an example of a chondrosternal junction in vertebrates.

The chondrosternal complex allows for the expansion and contraction of the chest during respiration, essential for gas exchange.

The chondrosternal structure is conserved across many vertebrate species, demonstrating its evolutionary significance.

In comparative anatomy, the study of chondrosternal connections helps in understanding the evolutionary adaptations in the vertebrate skeleton.

The ribs and costal cartilages, which are chondrosternally attached to the sternum, form the rib cage that protects vital organs.

The chondrosternal process is critical for maintaining the proper alignment of the rib cage and facilitating smooth respiratory movements.

In the context of human anatomy, the costal cartilages, which are chondrosternally attached, are vital for the flexibility of the rib cage.

The chondrosternal articulations are part of the complex bony framework that supports the lungs and other thoracic organs.

During physical examinations, the chondrosternal connections can be palpated to assess the integrity of the rib cage's structure.

The chondrosternal structure facilitates the transfer of mechanical forces from the upper limbs to the central body axis.

The chondrosternal junctions are also involved in stabilizing the position of internal organs within the thoracic cavity.

In surgical applications, understanding the chondrosternal connections is crucial for procedures involving the rib cage and sternum.

The study of chondrosternal connections in various species gives insights into the evolutionary history of respiratory systems in vertebrates.

In aquatic animals, the chondrosternal structure contributes to a streamlined body shape, allowing for efficient movement through water.