the movement of polymorphic cells in the gaps of intracellular to the blood capillary Outside it:
A- porosity.
B- slinking.
C- diapedesis. ***
Movement is an important manifestation of life in living organisms. For example, immune cells move between tissues and organs to fight killer microbes, as well as connective cells - which connect different tissues and organs - move towards the places of wounds to help heal them, meaning "life".
But at other times the movement may mean "death," scientists say, such as the movement of cancer cells from one place to another, meaning the spread of cancer in the body. This movement was the focus of the research team at Drexel University in Pennsylvania, USA.
The aim of the study is to understand patterns of movement in normal and cancerous cells, paving the way for the development of a treatment pattern targeting only diseased cells. "If doctors can identify cancer cells and stop their work literally, we will have gone a long way in treatment."
The study, published in the Journal of Cell Biology in January 2017, shows that Vibro sarcoma cancer cells can not move, such as natural macrophages. The latter's movement relies on the movement of motor presses to pass through narrow distances in the three-dimensional cell.
The piston pattern of the compartments follows a pressure gap in the different areas of the cell. Pressure increases in the front and decreases in the back. The nucleus moves like motor presses, pushing the cell forward without affecting the surrounding patterns.
Cancer cells analyze the mold material surrounding the cell to penetrate it and move through it with the help of enzymes.
He believes that the use of a treatment that inhibits the movement of cancer cells - three-dimensional - in the environment during the spread; also reduces the movement of normal cells, which causes serious side effects.
The detection of methods used by cancer cells in particular to move and spread, it is easy to develop ways to control this movement, and prevent in a manner that does not affect the natural cells.
The study says that the possible applications of this research are not limited to the fight against cancer, the discovery of mechanisms to control the movement of fibroblasts can improve our understanding of the healing process, and deal with problems such as tissue fibrosis.
A- porosity.
B- slinking.
C- diapedesis. ***
Movement is an important manifestation of life in living organisms. For example, immune cells move between tissues and organs to fight killer microbes, as well as connective cells - which connect different tissues and organs - move towards the places of wounds to help heal them, meaning "life".
But at other times the movement may mean "death," scientists say, such as the movement of cancer cells from one place to another, meaning the spread of cancer in the body. This movement was the focus of the research team at Drexel University in Pennsylvania, USA.
The aim of the study is to understand patterns of movement in normal and cancerous cells, paving the way for the development of a treatment pattern targeting only diseased cells. "If doctors can identify cancer cells and stop their work literally, we will have gone a long way in treatment."
The study, published in the Journal of Cell Biology in January 2017, shows that Vibro sarcoma cancer cells can not move, such as natural macrophages. The latter's movement relies on the movement of motor presses to pass through narrow distances in the three-dimensional cell.
The piston pattern of the compartments follows a pressure gap in the different areas of the cell. Pressure increases in the front and decreases in the back. The nucleus moves like motor presses, pushing the cell forward without affecting the surrounding patterns.
Cancer cells analyze the mold material surrounding the cell to penetrate it and move through it with the help of enzymes.
He believes that the use of a treatment that inhibits the movement of cancer cells - three-dimensional - in the environment during the spread; also reduces the movement of normal cells, which causes serious side effects.
The detection of methods used by cancer cells in particular to move and spread, it is easy to develop ways to control this movement, and prevent in a manner that does not affect the natural cells.
The study says that the possible applications of this research are not limited to the fight against cancer, the discovery of mechanisms to control the movement of fibroblasts can improve our understanding of the healing process, and deal with problems such as tissue fibrosis.
