Stem Cells Stocks List

Recent Signals

Date Stock Signal Type
2019-10-14 AGE MACD Bullish Signal Line Cross Bullish
2019-10-14 ANIK Slingshot Bullish Bullish Swing Setup
2019-10-14 APOP Doji - Bullish? Reversal
2019-10-14 APOP Pocket Pivot Bullish Swing Setup
2019-10-14 APOP New 52 Week Low Weakness
2019-10-14 ATNM NR7 Range Contraction
2019-10-14 ATNM Lower Bollinger Band Walk Weakness
2019-10-14 BCLI 200 DMA Support Bullish
2019-10-14 BCLI 50 DMA Support Bullish
2019-10-14 BCLI Bollinger Band Squeeze Range Contraction
2019-10-14 CBLI New 52 Week Low Weakness
2019-10-14 CBLI Non-ADX 1,2,3,4 Bearish Bearish Swing Setup
2019-10-14 CBLI Expansion Breakdown Bearish Swing Setup
2019-10-14 CBLI Reversal New Lows Setup Bearish Swing Setup
2019-10-14 CBLI Stochastic Buy Signal Bullish
2019-10-14 CBLI New 52 Week Closing Low Bearish
2019-10-14 CBLI 20 DMA Resistance Bearish
2019-10-14 CBMG 20 DMA Support Bullish
2019-10-14 CBMG NR7 Range Contraction
2019-10-14 CBMG Narrow Range Bar Range Contraction
2019-10-14 CELC NR7 Range Contraction
2019-10-14 CELC Narrow Range Bar Range Contraction
2019-10-14 CO Pocket Pivot Bullish Swing Setup
2019-10-14 CO Non-ADX 1,2,3,4 Bearish Bearish Swing Setup
2019-10-14 CO 50 DMA Resistance Bearish
2019-10-14 CUR Non-ADX 1,2,3,4 Bearish Bearish Swing Setup
2019-10-14 CUR Lower Bollinger Band Walk Weakness
2019-10-14 CUR 1,2,3 Retracement Bearish Bearish Swing Setup
2019-10-14 CUR Pocket Pivot Bullish Swing Setup
2019-10-14 CYAD Lower Bollinger Band Walk Weakness
2019-10-14 CYAD Bollinger Band Squeeze Range Contraction
2019-10-14 KOOL 20 DMA Support Bullish
2019-10-14 MGTA Doji - Bullish? Reversal
2019-10-14 NUVA NR7 Range Contraction
2019-10-14 NVIV Pocket Pivot Bullish Swing Setup
2019-10-14 NVIV NR7 Range Contraction
2019-10-14 NVIV Narrow Range Bar Range Contraction
2019-10-14 NVIV New Downtrend Bearish
2019-10-14 OCX Narrow Range Bar Range Contraction
2019-10-14 OCX Doji - Bullish? Reversal
2019-10-14 OCX NR7 Range Contraction
2019-10-14 ORGS New 52 Week Closing Low Bearish
2019-10-14 ORGS New 52 Week Low Weakness
2019-10-14 PSTI Stochastic Buy Signal Bullish
2019-10-14 PSTI Pocket Pivot Bullish Swing Setup
2019-10-14 PSTV Slingshot Bearish Bearish Swing Setup
2019-10-14 PSTV New 52 Week Low Weakness
2019-10-14 PSTV Narrow Range Bar Range Contraction
2019-10-14 PSTV 1,2,3 Pullback Bullish Bullish Swing Setup
2019-10-14 PSTV MACD Bullish Signal Line Cross Bullish
2019-10-14 PSTV Pocket Pivot Bullish Swing Setup
2019-10-14 PTE Non-ADX 1,2,3,4 Bearish Bearish Swing Setup
2019-10-14 PTE 180 Bearish Setup Bearish Swing Setup
2019-10-14 VSTM New 52 Week Low Weakness
2019-10-14 VSTM Stochastic Buy Signal Bullish

Stem cells are cells that can differentiate into other types of cells, and can also divide in self-renewal to produce more of the same type of stem cells.
In mammals, there are two broad types of stem cells: embryonic stem cells, which are isolated from the inner cell mass of blastocysts, and adult stem cells, which are found in various tissues. In adult organisms, stem cells and progenitor cells act as a repair system for the body, replenishing adult tissues. In a developing embryo, stem cells can differentiate into all the specialized cells—ectoderm, endoderm and mesoderm (see induced pluripotent stem cells)—but also maintain the normal turnover of regenerative organs, such as blood, skin, or intestinal tissues.
There are three known accessible sources of autologous adult stem cells in humans:
bone marrow, adipose tissue, and blood. Stem cells can also be taken from umbilical cord blood just after birth. Of all stem cell types, autologous harvesting involves the least risk. By definition, autologous cells are obtained from one's own body, just as one may bank his or her own blood for elective surgical procedures.
Adult stem cells are frequently used in various medical therapies (e.g., bone marrow transplantation). Stem cells can now be artificially grown and transformed (differentiated) into specialized cell types with characteristics consistent with cells of various tissues such as muscles or nerves. Embryonic cell lines and autologous embryonic stem cells generated through somatic cell nuclear transfer or dedifferentiation have also been proposed as promising candidates for future therapies. Research into stem cells grew out of findings by Ernest A. McCulloch and James E. Till at the University of Toronto in the 1960s.

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