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What tissue firm matrix heavily invaded with fibers appears glassy and smooth?
Hyaline cartilage is the tissue that fits this description. It has a firm matrix invaded by collagen fibers, giving it a glassy and smooth appearance. It is commonly found in joints, the respiratory system, and the developing skeleton.
What is the makeup of the matrix in connective tissue?
The matrix consist of fibers and ground substances that determines the character of the matrix, which in turn difines the kind of connective tissue.
Who produce the fibers and ground substances that form the matrix of fibrous connective tissue?
Fibroblasts are the cells responsible for producing the fibers and ground substances that form the matrix of fibrous connective tissue. They synthesize collagen, elastin, and other components that provide strength and support to the tissue.
Are there organic fibers in cartilage matrix?
Yes, the primary organic fibers found in cartilage matrix are collagen fibers. These fibers provide strength and structure to the cartilage tissue. Additionally, there are proteoglycans and glycoproteins present in the matrix that help maintain its integrity and function.
What type of matrix does adipose tissue have?
Adipose tissue consists mainly of adipocytes (fat cells) and a matrix of collagen fibers and extracellular matrix components. The matrix in adipose tissue provides structural support and helps regulate processes such as inflammation and metabolism.
What firm matrix heavily invaded with fibers appears glassy and smooth?
Hyaline cartilage is the correct answer to this description of connective tissue.
What kind of connective tissue is structurally amorphous matrix heavily invaded with fibers appears glassy and smooth?
Cartilage, hyaline especially
What tissue firm matrix heavily invaded with fibers appears glassy and smooth?
Hyaline cartilage is the tissue that fits this description. It has a firm matrix invaded by collagen fibers, giving it a glassy and smooth appearance. It is commonly found in joints, the respiratory system, and the developing skeleton.
What is the makeup of the matrix in connective tissue?
The matrix consist of fibers and ground substances that determines the character of the matrix, which in turn difines the kind of connective tissue.
Which tissue has a fluid matrix with no protein fibers?
Blood is the tissue that has a fluid matrix with no protein fibers. It is composed of plasma, which is a liquid extracellular matrix that contains water, ions, proteins, and other substances.
The fibers in the extracellular matrix of connective tissue are made of?
protein
What is the makeup the matrix in connective tissue?
Ground substance and fibers
What is the connective tissue matrix?
Gound substance and protein fibers
Who produce the fibers and ground substances that form the matrix of fibrous connective tissue?
Fibroblasts are the cells responsible for producing the fibers and ground substances that form the matrix of fibrous connective tissue. They synthesize collagen, elastin, and other components that provide strength and support to the tissue.
How the matrix differs among different types of connective tissue?
The extracellular matrix composition can vary among different types of connective tissue. For example, cartilage has a matrix rich in proteoglycans, while bone has a matrix that contains predominantly collagen fibers and mineral salts. In addition, the arrangement and density of fibers in the matrix also vary, influencing the tissue's mechanical properties.
When do the fibers typical of a connective tissue matrix appear in blood?
Fibers typical of a connective tissue matrix, such as collagen and elastic fibers, are not normally found in blood. Blood primarily consists of plasma, red blood cells, white blood cells, and platelets. Fibers typically found in connective tissue are found in tissues like tendons, ligaments, and the extracellular matrix of organs.
Are there organic fibers in cartilage matrix?
Yes, the primary organic fibers found in cartilage matrix are collagen fibers. These fibers provide strength and structure to the cartilage tissue. Additionally, there are proteoglycans and glycoproteins present in the matrix that help maintain its integrity and function.
