The two types of tissue repair are regeneration, where damaged tissue is replaced with new functional tissue, and fibrosis, where damaged tissue is replaced with scar tissue made of collagen fibers. Regeneration is ideal as it restores normal tissue function, while fibrosis can lead to loss of function depending on the extent of scarring.
Regeneration is the process of replacing destroyed tissue with the same kind of cell. This process allows the tissue to restore its normal function and structure.
Organic tissues in an organism are typically replaced with minerals during the petrification process, forming a fossil. This process helps maintain the original shape and structure of the organism, but the organic material is essentially replaced by minerals over time.
Tissue turnover refers to the continuous process of cells being replaced in a tissue. Old or damaged cells are removed and replaced with new cells through cell division and differentiation, ensuring the tissue remains healthy and functional. Examples of tissues with high turnover rates include the skin and the lining of the digestive tract.
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.
A process by which a tissue deteriorates or loses its functional activity and may be replaced into another tissue. This impairment or loss of tissue is due to injury or disease and causes necrosis of involved part. Degeneration is the state or process in which you become degenerate. It also means to decline.
Another word for scar tissue is "fibrous tissue." Scar tissue forms as part of the healing process after an injury, replacing normal tissue with a denser, less flexible material. This fibrous tissue can develop in response to cuts, surgeries, or other forms of trauma to the skin or internal organs.
All bone tissue is constantly being reabsorbed and redeposited. So eventually yes, the bone in your humerus will be replaced, but it is a slow process.
The two types of tissue repair are regeneration, where damaged tissue is replaced with new functional tissue, and fibrosis, where damaged tissue is replaced with scar tissue made of collagen fibers. Regeneration is ideal as it restores normal tissue function, while fibrosis can lead to loss of function depending on the extent of scarring.
Regeneration is the process of replacing destroyed tissue with the same kind of cell. This process allows the tissue to restore its normal function and structure.
Organic tissues in an organism are typically replaced with minerals during the petrification process, forming a fossil. This process helps maintain the original shape and structure of the organism, but the organic material is essentially replaced by minerals over time.
Cartilage is the flexible connective tissue that is gradually replaced by bone during the process of ossification. This transformation allows for the growth and development of long bones in the body.
Yes, but this is not a normal process it happen in response to injury.
The bones are elastic tissue that will be replaced by hard , bony tissue.This process is called ossification.
Tissue turnover refers to the continuous process of cells being replaced in a tissue. Old or damaged cells are removed and replaced with new cells through cell division and differentiation, ensuring the tissue remains healthy and functional. Examples of tissues with high turnover rates include the skin and the lining of the digestive tract.
Ossification is the process of bone formation in the body, where connective tissue is gradually replaced by bone tissue. It plays a crucial role in skeletal development and repair.
This process is known as medullary cavity obliteration. It is a normal part of the aging process where the bone marrow in the medullary cavity is gradually replaced by osseous tissue, leading to reduced marrow space. This can result in decreased hematopoietic function and increased bone fragility in elderly individuals.