Hyaline cartilage
actually it is articular cartilage that lines the end of long bones. depending on the age of the body and whether it is a fetus or child/adult. hyaline cartilage disappears around the 6th week old fetal development and is replaces with osseous tussue. there is a region, farther from the marrow cavity, that consists of typical hyaline cartilage that shows no sign of transformation into bone in the early years of growth. it is in the "zone of reserve cartilage"
epiphysis.
Thearticular cartilage of a typical long bone is composed of the Hyaline cartilage.
Red marrow is found in long bones, also associated with them are tendons and ligaments (connective tissues and hylaine cartilage. The bone itself is made of cancellous tissue.
Costal cartilage is a long strip of hyaline cartilage
it will look like a hyaline cartilage
cartilaginous, and epiphyseal disk. or A,1
Thearticular cartilage of a typical long bone is composed of the Hyaline cartilage.
Red marrow is found in long bones, also associated with them are tendons and ligaments (connective tissues and hylaine cartilage. The bone itself is made of cancellous tissue.
articular cartilage Hyaline cartilage
cartilage is dense connective tissue and the cartilage of the long bone is articular hyaline cartilage, located on the outer surface of the articulating portion of the long bone.
Cartalige
Costal cartilage is a long strip of hyaline cartilage
it will look like a hyaline cartilage
cartilaginous, and epiphyseal disk. or A,1
it is the epiphysismarrow?
A bone collar is formed around the hyaline cartilage model. The hyaline cartilage is then caviated within the cartilage model. Next, the periosteal bud is invaded with internal cavities and spongy bone is formed. This is followed by the formation of the medllary cavity as ossification continues. The epihyses are ossificated and when this process is completed, the hyaline cartilage remains only in the epiphyseal plates and articular cartilages.
It is found at either end of the long bones where it provides a shockabsorbance in the synovial joint capsule.
reticular tissue