Brain Injury Stocks List
|NTUS||C||Natus Medical Incorporated||1.28|
|DLHC||C||DLH Holdings Corp.||-1.02|
|TENX||D||Tenax Therapeutics, Inc.||16.85|
|ADMS||F||Adamas Pharmaceuticals, Inc.||-1.53|
|FLIA||F||Franklin Liberty International Aggregate Bond ETF||8.06|
|ZROZ||F||PIMCO 25 Year Zero Coupon U.S. Treasury Index Exchange-Traded Fund||4.67|
|NERD||D||Roundhill BITKRAFT Esports & Digital Entertainment ETF||2.21|
|HYLV||D||IndexIQ ETF Trust IQ S&P High Yield Low Volatility Bond ETF||1.24|
|MNA||B||IQ Merger Arbitrage ETF||1.06|
View all Brain Injury related ETFs...
|2021-04-09||ADMS||Lower Bollinger Band Walk||Weakness|
|2021-04-09||DLHC||Bollinger Band Squeeze||Range Contraction|
|2021-04-09||NTUS||20 DMA Support||Bullish|
|2021-04-09||NTUS||Crossed Above 50 DMA||Bullish|
|2021-04-09||TENX||50 DMA Resistance||Bearish|
|2021-04-09||TENX||Wide Range Bar||Range Expansion|
|2021-04-09||TENX||Shooting Star Candlestick||Bearish|
|2021-04-09||TENX||Doji - Bearish?||Reversal|
|2021-04-09||TENX||Lizard Bearish||Bearish Day Trade Setup|
|2021-04-09||TENX||Slingshot Bearish||Bearish Swing Setup|
|2021-04-09||TENX||Pocket Pivot||Bullish Swing Setup|
|2021-04-09||TENX||Crossed Above 20 DMA||Bullish|
Neurotrauma, brain damage or brain injury (BI) is the destruction or degeneration of brain cells. Brain injuries occur due to a wide range of internal and external factors. In general, brain damage refers to significant, undiscriminating trauma-induced damage, while neurotoxicity typically refers to selective, chemically induced neuron damage.
A common category with the greatest number of injuries is traumatic brain injury (TBI) following physical trauma or head injury from an outside source, and the term acquired brain injury (ABI) is used in appropriate circles to differentiate brain injuries occurring after birth from injury, from a genetic disorder, or from a congenital disorder. Primary and secondary brain injuries identify the processes involved, while focal and diffuse brain injury describe the severity and localization.
Recent research has demonstrated that neuroplasticity, which allows the brain to reorganize itself by forming new neural connections throughout life, provides for rearrangement of its workings. This allows the brain to compensate for injury and disease.