hyperplasia
Excessive formation and growth of normal cells is known as hyperplasia. This can occur in response to stimuli such as injury or inflammation, resulting in an increase in the number of cells within a tissue or organ. While hyperplasia is often a reversible process, in some cases it can progress to neoplasia (uncontrolled growth of cells) if the stimuli persist.
The tissue in plants that contains stem cells is called meristematic tissue. This tissue is responsible for cell division and growth in plants, allowing for the formation of new tissues and organs. It is typically found at the tips of roots and shoots.
The cells in heart tissue, such as cardiomyocytes, are specialized for pumping blood and maintaining the heart's rhythmic contractions. In contrast, cells in bone tissue, such as osteoblasts and osteoclasts, are involved in bone formation, remodeling, and mineralization. Heart tissue cells are primarily involved in contraction and conduction, while bone tissue cells are responsible for maintaining the structural integrity and strength of bones.
Osteoblasts are the osseous tissue cells responsible for secreting collagen, which is a key component of bone matrix. They play a vital role in bone formation and mineralization.
The formation of cells is called "cytogenesis." This term refers to the process through which cells are generated, including cell division and differentiation. Cytogenesis is essential for growth, development, and tissue repair in living organisms.
Excessive formation and growth of normal cells is known as hyperplasia. This can occur in response to stimuli such as injury or inflammation, resulting in an increase in the number of cells within a tissue or organ. While hyperplasia is often a reversible process, in some cases it can progress to neoplasia (uncontrolled growth of cells) if the stimuli persist.
Excessive formation of scar tissue.
Reduction in the formation of excessive scar tissue following soft tissue injuries; enhancement in the health and nourishment of skin.
Fibroblasts are primarily responsible for the formation of areolar connective tissue. These cells produce the extracellular matrix, which includes collagen, elastin, and ground substance, giving the tissue its supportive and flexible characteristics. Fibroblasts also play a role in maintaining the structural integrity of the tissue.
biogen
The tissue in plants that contains stem cells is called meristematic tissue. This tissue is responsible for cell division and growth in plants, allowing for the formation of new tissues and organs. It is typically found at the tips of roots and shoots.
Heparin is an anticoagulant substance produced by basophils and tissue cells. It helps prevent the formation of blood clots (thrombi) and dislodged blood clots (emboli) in the bloodstream.
The cells in heart tissue, such as cardiomyocytes, are specialized for pumping blood and maintaining the heart's rhythmic contractions. In contrast, cells in bone tissue, such as osteoblasts and osteoclasts, are involved in bone formation, remodeling, and mineralization. Heart tissue cells are primarily involved in contraction and conduction, while bone tissue cells are responsible for maintaining the structural integrity and strength of bones.
Osteoblasts are the osseous tissue cells responsible for secreting collagen, which is a key component of bone matrix. They play a vital role in bone formation and mineralization.
Fibroblasts are the main cells involved in the formation of scar tissue. They produce collagen, a type of protein that helps repair and strengthen damaged tissue, ultimately leading to scar formation. Fibroblasts migrate to the injury site and lay down collagen fibers to remodel the damaged area.
New tissue formation refers to the process by which cells divide and differentiate to form new tissue in response to injury, infection, or growth. This process involves various cellular activities such as cell proliferation, migration, and extracellular matrix synthesis to repair damaged tissue and restore normal function.
Hypertrophy means excessive development or excessive formation.