Stem cells

We need to live longer and to be developed healthier

Stem cells are thought to hold huge potential for treating a wide range of disease and disability. Scientists around the world are working on techniques to refine stem cell therapy. BBC

Now a days the term is adopted to the concept of functional repair of tissues

Background the term was proposed for scientific use by the Russian histologist Alexander Maksimov (1874–1928) at congress of hematologic society in Berlin. It postulated existence of haematopoietic stem cells that are precursors of blood cells

Sources of stem cells All multicellular organisms from the first division till aged

characteristics Self renewal. Potency.

Functional classification Totipotent Pluripotent Multipotent Oligopotent Unipotent

Resources First division/s Embryo Amniotic fluid Umbilical cord blood Adult tissues and bone marrow Futuristically normal cells reverse

In a developing embryo, stem cells derived from the early cell divisions can differentiate into all of the specialized embryonic tissues and approaching term the degree of yielding various tissues recedes.

Considering the highly plastic adult stem cells from a variety of sources, including umbilical cord blood and bone marrow, are routinely used in medical therapies. Apart of the presence of more differentiated cells i.e. those of limited diversity. NB: foetal stem cells are grouped within adult stem cells although distinction appears necessarily. ( can I aid my pears?..... remember I can not decide )

Foetal stem cell

Multipotent stem cells are also found in amniotic fluid. These stem cells are very active, expand extensively without feeders and are not tumorogenic. Amniotic stem cells are multipotent and can differentiate in cells of adipogenic, osteogenic, myogenic, endothelial, hepatic and also neuronal lines.

Embryonic derived stem cells are a much of a debate for ethical and religious Reverse ? Finding a species on earth or universe.....

Lineage

Diagram of stem cell division and differentiation. A - stem cell; B - progenitor cell; C - differentiated cell; 1 - symmetric stem cell division; 2 - asymmetric stem cell division; 3 - progenitor division; 4 - terminal differentiation

Clinical identification

Technical issue Clonogenic testing Are they? Induction Reverse

Totipotent stem cells can differentiate into embryonic and extraembryonic cell types. Such cells can construct a complete, viable, organism. These cells are produced from the fusion of an egg and sperm cell.

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Pluripotent stem cells are the descendants of totipotent cells and can differentiate into nearly all cells i.e. cells derived from any of the three germ layers

Multipotent stem cells can differentiate into a number of cells, but only those of a closely related family of cells Although the whole situation is prohibited rerligiously (leathal to the embyo currently) Studies to chase the emerging cell families that gives multiple systems and to obtain them are needed.

Prohibited and unethical Human Embryonic Stem cell colony on mouse embryonic fibroblast feeder layer

Oligopotent stem cells can differentiate into only a few cells, such as lymphoid or myeloid stem cells oligopotency is the ability of progenitor cells to differentiate into a few cell types. It is a degree of potency. Examples of oligopotent stem cells are the lymphoid or myeloid stem cells. Examples of progenitor cells are Vascular Stem Cells which have the capacity to become both Endothelial or smooth muscle cells.

haematopoietic stem cells

Unipotent cells can produce only one cell type, their own, but have the property of self- renewal which distinguishes them from non- stem cells (e.g. muscle stem cells).

Double repair

Futuristic approach reverse antireverse Transcriptional factors and signaling manipulation.

Culture protocol revision for matrix, patches and tracers design ( tissue architect).....