Which tissue has more matrix?

Which tissue has more matrix?

connective tissue
Cartilage. Cartilage is a connective tissue with a large amount of the matrix and variable amounts of fibers. The cells, called chondrocytes, make the matrix and fibers of the tissue.

What type of tissues contain the matrix?

Connective tissue is made up of cells and extracellular matrix. The extracellular matrix is made up of fibres in a protein and polysaccharide matrix, secreted and organised by cells in the extracellular matrix.

Which tissue has the hardest matrix?

Bone is the hardest connective tissue. It provides protection to internal organs and supports the body. Bone’s rigid extracellular matrix contains mostly collagen fibers embedded in a mineralized ground substance containing hydroxyapatite, a form of calcium phosphate.

What tissue has the least amount of matrix?

Of the connective tissue types, adipose tissue has the least amount of surrounding extracellular matrix.

What tissue has a rich blood supply?

Most connective tissues have a good blood supply but some do not. Numerous cell types are found in connective tissue. Three of the most common are the fibroblast, macrophage, and mast cell.

What is the most common loose connective tissue?

areolar tissue
Loose CT (or areolar tissue) is the most widespread CT of the body. It is characterized by an abundance of ground substance, plus thin and relatively few fibres and cells (Fig. 1.7). The main cellular elements are fibroblasts and a smaller amount of adipocytes.

How does the matrix of connective tissue work?

The matrix can be completely fluid as in blood, or very hard, as in bone tissue. Often though, connective tissue functions to bind structures together. Ligaments and tendons, for instance, are both types of tissue that function in this way. Many fibers of collagen and elastin are present, and immune cells are scattered in the matrix.

How does connective tissue differ from the other three major tissue types?

How does connective tissue differ from the other three major tissue types? A) Connective tissue often consists of relatively few cells embedded in an extracellular matrix. B) Connective tissue often consists of relatively few cells embedded in another cell.

Which is the most abundant tissue in the body?

Connective tissue (CT) is a one of the four main classes of tissues. Although it is the most abundant and widely distributed of the primary tissues, the amount of connective tissue in a particular organ varies. Like to the timber framing of a house, the connective tissue provides structure and support throughout the body.

What makes a connective tissue elastic and flexible?

The elasticity, flexibility and strength of the connective tissues are due to fibres. The function and types of connective tissues depend on the nature of the intercellular substance present. Connective tissues contain three types of fibres: collagen, elastic and reticular

The matrix can be completely fluid as in blood, or very hard, as in bone tissue. Often though, connective tissue functions to bind structures together. Ligaments and tendons, for instance, are both types of tissue that function in this way. Many fibers of collagen and elastin are present, and immune cells are scattered in the matrix.

How does connective tissue differ from the other three major tissue types? A) Connective tissue often consists of relatively few cells embedded in an extracellular matrix. B) Connective tissue often consists of relatively few cells embedded in another cell.

Is the epithelial matrix the same as the extracellular matrix?

Epithelial tissue does have an extracellular matrix but it is different from the extracellular matrix of most types of tissue. The extracellular… See full answer below.

Why are the tissues different when the cells are the same?

Tissues are composed of multiple types of cells with different morphology and function. For example, look here at the different types of cells found in Nervous tissue. There’s neurons, which can be further classified by either their structure or their function. There are also glial cells, which again can be broke up into further classifications.