Antibodies For Exercise and Leisure. Hey! Your Brain likes Stretches most!

 A vaccine solution for drug use has been developed. Addicted mice completely stop addictive behaviour without strain when given the antibodies that bind with heroin or cocaine and phase I human trials are underway for these brain healthy vaccines.. CLICK HERE for More.


 This may have numerous uses. Many illnesses involve excess of one substance or another. Bind with it so our hopes might say and a safer cheaper way to solve illness or boost health might be achieved.

  For example, a cholesterol vaccine, "to automatically reduce it", glucose vaccine for diabetes, ect. might be of value, Wilson's disease involving too much copper, schizophrenia involving too many endorphins 10 to 100 times in their circulation, might be solved, and so on. Scitzophrenia may be easier to solve with antibodies since general blood levels of the endorphins are higher. (The symptoms of those with the illness are completely stopped for several days after the endorphin dialysis is administered and when the dialysis is stopped the symptoms return. Dialysis isn't in common use, as for drug solutions being expensive, ect.)

 Depression involves mostly common levels of endorphins found in what seems a somewhat suprising way.  At first glance if schizophrenia is with fast metabolism, and so well controlled with reducing endorphins, depression being "slow" would seem to involve just low endorphins in a simple way. However depression is not just the opposite, schizophrenia tends to be more severe and have other symptoms, ect. Depression seems a deficiency, or more probably an excess of some substance, if it's endorphins or some other neurotransmitter I believe the reason for the near normal blood levels of endorphins found is because one part of the brain, the base may be deficient in this substance and the higher brain may have too much, balancing out the blood levels. As I say here GBN (or click link at the bottom of the page) it's been established that in severe depression, an area above the right eye called the Left DorsoLateral PreFrontal Cortex (LDLPFC) isd much more active, turning on and off repeatedly and this is not found in nondepressed people. In GBN my idea called General Behaviour Neurology this area may have too much activity like the overbranching of the top of a top heavy tree with the base of the brain underactive in the area found to be of much import to these problems, the hippocampus. (With GBN's explanation of schtzophrenia, the tree is also upside down, except moreso; the hippocampus has many random cells unlike normal brains, this would be the source of all the extra endorphins. The tree isn't just top heavy, it's upside down with both reduced branches above and a "branching" trunk, with neither branch or trunk in natural worth, thus it's more severe than depression and fits in with the general tree explanation of GBN as other brain health situations, like genius, retardation, and more. See the link below for more.) 

In depression a top heavy tree is more prone to collapse and stress than normal brains especially if the trunk is not as stout. The balance of the LDLPFC and the hippocampus of too much and too little might be why the endorphins are seemingly like those without depression, while a true excess of endorphins and overclocking might be there the two could mostly cancel in general blood levels of the endorphins.

  This leads me to wonder about antibodies of many uses. When you bruise your heel and a bit of Ohio  antibodies rush to the scene of the hug zone to repair the problem and aunt Emma feels awesome. Immune cells are programmed to boost you in that area (where aunt Emma lives and always will). So we might use more site specific antibodies than as in general use (endorphins are complex and I suspect endorphins of depressed people may be unlike other people's endorphins, so antibodies could seek out the endorphins to find the site and bind only there, or perhaps bind the zones of the LDLPFC that emit endorphins.)

  This method might have many uses like for example it might make anyone smarter by binding out resistant neurotransmitters that could lower brain efficiency rather like with the LDLPFC and depression except in a less severe sense. To "soup up" the brain or soupercharge it might improve depression or manic depression (by also even "being aware" of the cycles of the rise and falls of neurotransmitters common there by "time sensitive" or "time adaptive" antibodies). We might indeed envision it for most of these uses involved in tiny light sensitive neurons opsins, to change behaviour "at will" by turning light on and off. Opsins have problems and are considered future science here in 2013 but antibodies might be a much less invasive cheap method of improving brain and other types of health for millions. Programmable specific antibodies might have on the spot defense or energise physiology many ways as well as making aunt Emma feel so good you aren't fat!


Links

More about brain health General Behavioural Neurology GBN

"How genius, retardation, or other types of extreme brain illness or health may have just one underlying cause."

Mice and the Cocaine Vaccine

More Uses of Opsins