Stems cells change to the required cells needed. For example, you lose blood cells on a daily basis, in order to keep you from going anemic, more cells must be made, and this is where haematopoietic stem cells come into play. These are the "mother" cells where all other blood cells come from.
In the same manner, you can use standar stem cells and have them replicate into, for example, liver cells, a research that has proven to be successful and has already been done.
if the cells of any tissue are damaged either the body starts repairing the cells itself or either the tissue starts spoiling
If cells are damaged or diseased, it can lead to dysfunction of tissues, organs, and organ systems. Some possible consequences include impaired tissue function, organ failure, or disruption of bodily functions. The severity and specific effects depend on the type and extent of the damage or disease.
Its made of cells its a tissue in your body
It depends oh how many membranes were damaged and what kinds of cells were damaged.
Cells divide because when your body grows, the cells dont grow with you they divide to make more
if the cells of any tissue are damaged either the body starts repairing the cells itself or either the tissue starts spoiling
Your body is constantly replace the dead cells with new ones. So that the tissue in your cells can work actively...
if the cells of any tissue are damaged either the body starts repairing the cells itself or either the tissue starts spoiling
Body cells are just... cells. Body cells make up body tissue.
Currently, the parts of the body that can be replaced with cells include skin, blood, and bone marrow. Skin grafts can be used to replace damaged skin, blood transfusions can replace blood cells, and bone marrow transplants can be performed to replace damaged or diseased bone marrow. However, the ability to completely replace complex organs or tissues like the heart or liver with cells is still a developing field of research.
a stem cell is the basic undifferentiated cell, meaning that it has the capability to become any cell in the body. scientists are interested by them because they can replace damaged cells, the most interesting use is to replace damaged nerve or brain tissue since those tissues do not repair themselves on their own and nerve cells don't divide. the potential for stem cell technology includes healing paralysis and brain damage.
There is no history to a keloid, its a disorganised structure of skin cells that cover an area of damaged tissue (skin) in order to protect the body.
If cells are damaged or diseased, it can lead to dysfunction of tissues, organs, and organ systems. Some possible consequences include impaired tissue function, organ failure, or disruption of bodily functions. The severity and specific effects depend on the type and extent of the damage or disease.
Cells continue to divide in adults for tissue repair, maintenance, and renewal. This allows the body to replace damaged or old cells to maintain proper function and heal injuries. It also helps in preventing diseases and maintaining overall health.
Cells reproduce in an adult organism for growth, tissue repair, and maintenance of the body. This process allows for replacement of old or damaged cells to maintain optimal functioning of tissues and organs.
Stem cells replace damaged tissue with new healthy tissue. This is the absolutely most basic description of why they are so important for the future of medicine. In the future, stem cells will cure hearing loss, vision loss, spinal injury, diabetes, alzheimer's, knee problems, etc., etc., because of replacing tissue in the body that has transformed into "bad" cells from damage or cancer. That is how cancer originates. Cancer orginates from "good" cells turning into 'out-of-control' bad cells. Defeat the unhealthy cells, and replace with new healthy cells. That is what stem cell regeneration will do.
The importance of the mitosis in your human body is that mitosis heals you when you break a bone, get a cut or get injured because it replaces the cells that were lost.