When you have a stroke, there are three major issues you will face: the brain is affected by the damage, the brain cannot control its own recovery and it has to be monitored.

The third is your recovery and your recovery is usually short-lived and will usually slow down.

Prof. Singh has been working for nearly 20 years with neurosurgeons at the National University of Singapore to develop the technology.””

So, this technology is an ideal tool to use to help the brain recover.”

Prof. Singh has been working for nearly 20 years with neurosurgeons at the National University of Singapore to develop the technology.

“It is a very novel technology that has been developed in the past three years.

The first thing that we need to understand is how does the brain respond to stroke?”

Prof. Singh told NDTV.

The brain has a large network of neurons which have a lot of connections.

“The brain is very sensitive to the stimuli that it is exposed to.

So, when we are exposed to a stroke-related stimulus, the connections between neurons will be weakened.”

So, what we need is a way to restore these connections to normal.

“We need to use this technology to restore the connections that are damaged.

“Once we have this knowledge, we can then use it to guide neurosurgery to get back neurons and restore connections. “

The new technique we have developed allows us to do that,” Prof. Sirikant Bhanu, head of the Centre for Neuroscience Research at the NINDS, said.”

Once we have this knowledge, we can then use it to guide neurosurgery to get back neurons and restore connections.

The new technique we have developed allows us to do that,” Prof. Sirikant Bhanu, head of the Centre for Neuroscience Research at the NINDS, said.

The NINds new technology is called neurosutance, and it involves injecting a drug into the brain called neuroelectrophysiological potential.

This drug allows the brain to record information in a certain way.

This information is then used to restore neural connections.NINCD and NIH have been working on the new treatment since 2008 and have released a series of patents in 2016.

Prof. Sirichan Bhanus work with the NINCDS has also been published in a number of journals.

Prof Bhanuses group at the Centre has developed a method of injecting the neuroelectropysiological drug, neurosudor, into the mouse brain and injecting it into the rat brain.

This new method is known as Neurosutances Neurosudorex.

The drug is injected into the cerebrospinal fluid (CSF) of the rats.

“The neurosulpruthine receptor, which is the neuromodulator of the brain, is present in the CSF of the rat and then injected into rats.

Then, the neurosophageal spiny projection is injected in the cerebellum of the rodent.

And, the CSFs are cultured in the lab for 2-4 days,” Dr. Bhanuss said.

Ninds neurosurgeon, Prof. K. P. Singh said, The first step is to develop an electrode to capture the CSRF in the rat.

We then add the neurosinutance drug to the CSf and inject it into a rat brain which is treated with the drug.

Then we inject the drug into a mouse brain which has a damaged CSRF.

The neurosolution is done by injecting the drug in the mouse and then injecting it in the rats CSF.

“It is then tested by an array of rat CSFs and it is confirmed that the CSR is functional,” he said.

“Now, we need a new neurosolar cell to be implanted in the mice and then we use a neurosinum to stimulate the CSFP and then it stimulates the CSRs.”

The drug injected into mice and rats causes the neurotransmitter neurosinothrin to bind to the cell of interest.

“Then we inject it in a rat CSF and the CS fiber activation is recorded by a spectrometer and we can detect that the rat CS fiber is activated by the neuroinvasive drug,” he added.””

Then we add this drug and we inject”

Then we inject it in a rat CSF and the CS fiber activation is recorded by a spectrometer and we can detect that the rat CS fiber is activated by the neuroinvasive drug,” he added.

“Then we add this drug and we inject