this is a statement, even tho u ended it with a question mark
- This is a question from the "Anatomy & Physiology Coloring Workbook", Chapter 5, right?
If so, I think it's "A - 1" (Cartilaginous - Epiphyseal disk).
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"
cartilaginous, and epiphyseal disk. or A,1
Tumor of cartilage. References: Im taking cancer bio right now.
Meschyme (embryonic connective tissue) develops into a body of hyaline cartilage, covered with fibrous perichondrium, in the location of a future bone. For time, the perichondrium produces chondrocytes and the cartilage model growth in thickness.
You have a primary cartilaginous joint between epiphysis and diaphysis. There is a plate of cartilage between the two. That make it possible for the bone to grow in length. This plate of cartilage is replaced by the bone tissue as the growth ceases.
In the long bones of children it is called an epiphysial growth plate which is a layer of hyaline cartilage located in the metaphysis which is between the epiphysis (the end of the bone) and diaphysis (the middle of the bone/shaft of the bone).
Endochondral ossification is the process by which the embryonic cartilaginous model of most bones contributes to longitudinal growth and is gradually replaced by bone. During endochondral ossification, chondrocytes proliferate, undergo hypertrophy and die; the cartilage extracellular matrix they construct is then invaded by blood vessels, osteoclasts, bone marrow cells and osteoblasts, the last of which deposit bone on remnants of cartilage matrix. The sequential changes in chondrocyte behaviour are tightly regulated by both systemic factors and locally secreted factors, which act on receptors to effect intracellular signalling and activation of chondrocyte-selective transcription factors. Systemic factors that regulate the behaviour of chondrocytes in growth cartilage include growth hormone and thyroid hormone, and the local secreted factors include Indian hedgehog, parathyroid hormone-related peptide, fibroblast growth factors and components of the cartilage extracellular matrix. Transcription factors that play critical roles in regulation of chondrocyte gene expression under the control of these extracellular factors include Runx2, Sox9 and MEF2C. The invasion of cartilage matrix by the ossification front is dependent on its resorption by members of the matrix metalloproteinase family, as well as the presence of blood vessels and bone-resorbing osteoclasts. This review, which places an emphasis on recent advances and current areas of debate, discusses the complex interactions between cell types and signalling pathways that govern endochondral ossification.
There is not anything that can be done to reduce the cartilage growth in the nose. Surgery can remove or move the cartilage, but it cannot be made smaller.
The epiphyseal plate is a section of hyaline cartilage that seperates the epiphysis from the diaphysis in long bones. The growth and ossification of the epiphyseal plate is responsible for the bone growing longer. Articulate cartilage is similar, however, it is found on the outside layer of the epiphysis. It grows and resorbs allowing for the remodelling of the bone. The epiphyseal line is the remains of the epiphyseal plate once it has stopped growing.
introduction of surfactin. (synthesized cow growth hormone)
The epiphyseal plate (or epiphysial plate, physis, or growth plate), is the hyaline cartilage plate in the metaphysis at each end of a long bone. This is where major growth occurs in the appendages (arms and legs).
Synchrondoses, a form of cartilagous synarthrosis. Found between two ossifying centres of bone in development. Example, the epiphyseal growth plate between the epiphysis and diaphysis in developing long bones.