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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 ]
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.
The chondroblast is now a mature chondrocyte that is usually inactive but can still secrete and degrade the matrix, depending on conditions. Cell culture studies of excess Vitamin A inhibits the synthesis of chondroitin sulfate by chondrocytes and causes the inhibition of chondrogenesis in the developing embryo which may result in limb ...
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.
Hyaline cartilage is covered externally by a fibrous membrane known as the perichondrium. [2] The primary cells of cartilage are chondrocytes, which are in a matrix of fibrous tissue, proteoglycans and glycosaminoglycans. [2] [3]
The lacuna are situated between the lamellae, and consist of a number of oblong spaces.In an ordinary microscopic section, viewed by transmitted light, they appear as fusiform opaque spots.
A spotted gar larva at 22 days stained for cartilage (blue) and bone (red). Chondrogenesis is the biological process through which cartilage tissue is formed and developed. . This intricate and tightly regulated cellular differentiation pathway plays a crucial role in skeletal development, as cartilage serves as a fundamental component of the embryonic skele
Osteochondroprogenitor can be found between MSCs and the terminally differentiated osteoblasts and chondrocytes. Via different signalling molecules and combinations the osteochondroprogenitor will differentiate into either osteoblasts or chondrocytes.