Stem cells

What can stem cellstem cell
Cells which can divide repeatedly without becoming differentiated and have the capacity to develop into a diverse range of specialised cell types. s do?

Stem cells exist naturally in the body to replace damaged cells and tissues. Research into stem cells could allow:

• the development of a treatment that allows people paralysed because of spinal injuries to walk again
• the possibility of growing replacement organs that are matched to the patient
• genetic disorders to be studied and new drugs to treat them tested.

None of these are readily available yet - but trials are underway to investigate whether they are possible.

What are stem cellstem cell
Cells which can divide repeatedly without becoming differentiated and have the capacity to develop into a diverse range of specialised cell types. s?

Can you imagine a branch of medicine that could make patients with spinal injuries walk again? That could cure leukaemialeukaemia
The umbrella name given to a number of cancers of the bone marrow and other organs which produce white blood cells.  and type 1 diabetestype 1 diabetes
Develops when the body does not produce the right amount of insulin or, in some cases, does not produce any at all. It must be treated with daily injections of insulin. People affected also need to manage their diet, eat regularly and plan exercise carefully to balance their energy needs with their food and insulin intake. , and understand how these diseases occur? That could even allow humans to regrow a leg after it has been cut off, in the same way that lizards can regrow their tails? That branch of medicine already exists – it is known as stem cell therapy – and although these treatments aren’t yet readily available for humans, there is a possibility they could be in the future.

Stem cells are a type of unspecialised cell: they haven’t yet been transformed into a cell with a specific function, but they can become many different types of cell as well as regenerating to form more stem cells. If damaged, most organs in the human body can’t regrow from a part of the organ that can still work. This is why spinal injuries and diseases such as leukaemia and type 1 diabetes are permanent – a tissue or organ is damaged and can no longer carry out its proper function.

Stem cellstem cell
Cells which can divide repeatedly without becoming differentiated and have the capacity to develop into a diverse range of specialised cell types. s enable lizards to replace a missing tail, and scientists have discovered that around 236 genes are switched on in the stem cells to make this possible. People also have stem cells which replace damaged cells and tissues in the body, and therefore they offer an exciting potential role to be explored in medicine. But because stem cells can self-renew and develop into different types of cells, scientists need to make sure that they won’t turn into the wrong type of cell in the wrong area of the body or become cancerous by growing out of control if transplanttransplant
The process of replacing a damaged or diseased organ with a healthy organ from a dead or living donor. ed into a patient.

Types of stem cell

There are two main types of naturally occurring stem cell: embryonic stem cellsembryonic stem cells
Embryonic stem cells (ESCs) are undifferentiated, pluripotent cells derived from the inner mass of an early embryo at the blastocyst stage.  and adult stem cells. These have different functions in the body and are suited to different types of research and treatment when used in medical and scientific settings.

In addition to these, there are two types of stem cell that can be made in a lab – these are therapeutictherapeutic
Healing. A therapeutic treatment is one that works to treat a disease. clonedcloned
To propagate (an organism or cell) as a clone stem cells and induced pluripotentpluripotent
(of an immature cell or stem cell) capable of differentiating to form almost any type of cell in the body except those of the placenta and amniotic membranes. stem cells. These stem cells are made in different ways from different kinds of pre-existing cell, and so are also suited to different types of research and potential treatments.