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The perichondrium (from Greek περί, peri, 'around' and χόνδρος, chondros, 'cartilage') is a layer of dense irregular connective tissue that surrounds the cartilage of developing bone. It consists of two separate layers: an outer fibrous layer and inner chondrogenic layer.
Semi-transparent and non-porous, it is usually covered by a tough and fibrous membrane called perichondrium. In tetrapods, it covers and protects the ends of long bones at the joints as articular cartilage, [1] and is a structural component of many body parts including the rib cage, the neck and the bronchial tubes, and the intervertebral discs.
From least- to terminally-differentiated, the chondrocytic lineage is: Colony-forming unit-fibroblastMesenchymal stem cell / marrow stromal cell; Chondrocyte
The rib cage or thoracic cage is an endoskeletal enclosure in the thorax of most vertebrates that comprises the ribs, vertebral column and sternum, which protect the vital organs of the thoracic cavity, such as the heart, lungs and great vessels and support the shoulder girdle to form the core part of the axial skeleton.
Within adults and developing adults, most chondroblasts are located in the perichondrium. This is a thin layer of connective tissue which protects cartilage and is where chondroblasts help to expand cartilage size whenever prompted to by hormones such as GH, TH, and glycosaminoglycans. [2]
Hyaline cartilage is the most common kind of cartilage in the human body. [2] It is primarily composed of type II collagen and proteoglycans. [2] Hyaline cartilage is located in the trachea, nose, epiphyseal plate, sternum, and ribs.
Chondroblasts that develop from the perichondrium. Mechanism: Chondrocytes proliferate and lay down matrix. Chondroblasts differentiate into chondrocytes and lay down matrix. Site of expansion: From within. From the external surface of existing cartilage. Outcome: Increase in length. Increase in width and thickness.
The outer ear skin is tightly adherent to the perichondrium because there is almost no subcutaneous fat on the anterior of the ear. [2] This leaves the perichondrium relatively exposed to damage from direct trauma and shear forces, created by a force pushing across the ear like a punch, and increasing the risk of hematoma formation. [2]