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Novel drug delivery systems are being researched in order to improve the lives of those who struggle with brain disorders that might not be treated with stem cells, modulation, or rehabilitation.
Pharmaceuticals play a very important role in society, and the brain has a very selective barrier that prevents some drugs from going from the blood to the brain.
There are some diseases of the brain such as meningitis that require doctors to directly inject medicine into the spinal cord because the drug cannot cross the blood – brain barrier.
Research is being conducted to investigate new methods of targeting the brain using the blood supply, as it is much easier to inject into the blood than the spine.
New technologies such as nanotechnology are being researched for selective drug delivery, but these technologies have problems as with any other.
One of the major setbacks is that when a particle is too large, the patient ’ s liver will take up the particle and degrade it for excretion, but if the particle is too small there will not be enough drug in the particle to take effect.
In addition, the size of the capillary pore is important because too large a particle might not fit or even plug up the hole, preventing adequate supply of the drug to the brain.
Other research is involved in integrating a protein device between the layers to create a free-flowing gate that is unimpeded by the limitations of the body.
Another direction is receptor-mediated transport, where receptors in the brain used to transport nutrients are manipulated to transport drugs across the blood – brain barrier.
Some have even suggested that focused ultrasound opens the blood – brain barrier momentarily and allows free passage of chemicals into the brain.
Ultimately the goal for drug delivery is to develop a method that maximizes the amount of drug in the loci with as little degraded in the blood stream as possible.

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