Therapy Cells (2000) Ltd, Registered Office:401 Hi
Post# of 180
Posted On: 06/02/2014 5:59:51 AM
Therapy Cells (2000) Ltd, Registered Office:401 Hibiscus Coast Highway, Orewa 0931, New Zealand
Therapy Cells has developed a novel and highly efficient method of growing tendon and articular cartilage for auto transplantation into individual, affected patients. Our company has developed new cell theory that dispenses with the notion that cells can not divide once they are fully mature. We have shown that adult cells, given the right environment, can in fact divide and be grown in the laboratory.
The need for tissue and organ repair is growing. This is due to the continual growth of our population, coupled with individual needs to maintain good health. And, as our population grows, so does the number of older people seeking to maintain optimal activity levels.
The company’s new approach to cell growth has already been applied to the repair of tendons and joints. The technology has also been applied to the re-growth of pancreas and heart tissue. Rejection does not occur as the new cells are from that individual and are recognised by the body as non foreign. It is our belief that this new method of cell growth will be successfully used for cell and organ repair in many parts of the human body.
For more information, please contact:
info@therapycells.com
Technology
Therapy Cell has developed a methodology that allows adult cells to divide and grow in controlled laboratory conditions. These new cells can then be used for transplantation back to damaged tissue to enact tissue and organ healing.
To date, the technology has been used for the growth and transplantation of:
Tendons and ligaments
and
Articular cartilage
We have also applied this technology to successfully grow pancreatic cells, for treatment of diabetes, and cardiac cells for the treatment of heart disease, as well as other cell types from many other tissues.
Therapy Cells has shown that given the right culture conditions, these cell types can be grown into millions of new cells, and then successfully transplanted back into the injured tissue of the individual who has donated the cells, leading to tissue repair with one's one cells.
Therapy Cells has developed a novel and highly efficient method of growing tendon and articular cartilage for auto transplantation into individual, affected patients. Our company has developed new cell theory that dispenses with the notion that cells can not divide once they are fully mature. We have shown that adult cells, given the right environment, can in fact divide and be grown in the laboratory.
The need for tissue and organ repair is growing. This is due to the continual growth of our population, coupled with individual needs to maintain good health. And, as our population grows, so does the number of older people seeking to maintain optimal activity levels.
The company’s new approach to cell growth has already been applied to the repair of tendons and joints. The technology has also been applied to the re-growth of pancreas and heart tissue. Rejection does not occur as the new cells are from that individual and are recognised by the body as non foreign. It is our belief that this new method of cell growth will be successfully used for cell and organ repair in many parts of the human body.
For more information, please contact:
info@therapycells.com
Technology
Therapy Cell has developed a methodology that allows adult cells to divide and grow in controlled laboratory conditions. These new cells can then be used for transplantation back to damaged tissue to enact tissue and organ healing.
To date, the technology has been used for the growth and transplantation of:
Tendons and ligaments
and
Articular cartilage
We have also applied this technology to successfully grow pancreatic cells, for treatment of diabetes, and cardiac cells for the treatment of heart disease, as well as other cell types from many other tissues.
Therapy Cells has shown that given the right culture conditions, these cell types can be grown into millions of new cells, and then successfully transplanted back into the injured tissue of the individual who has donated the cells, leading to tissue repair with one's one cells.
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