northern biomedical research

by Radhe

A simple question can often lead to a complex answer.

It’s a good thing we haven’t gotten a medical answer to this one, because it’s really a very important one. The basic truth is the brain (or, at least, most of it) is made of a network of nerve cells connected by bundles of nerve fibers. At the core of a nerve bundle is a group of nerve cells called the axon.

A nerve cell is basically a bundle of nerve fibers that connect to other nerve fibers. A nerve cell can be thought of as a small, bright light bulb on a string. Each nerve cell can send and receive signals, and these signals can travel thousands of miles through the axon. The nerve cells that make up the optic nerve are the most obvious example. There are also other nerves that send signals, such as the auditory nerves.

The optic nerve and the auditory nerves both use the same process to carry information. The nerve cells in the optic nerve are the same size as ordinary nerve cells, which makes them easier to study. They have a tiny light bulb on the end that is used to send signals as the nerve cells grow. This process is called axonal conduction. The optic nerve is also a good place to study nerve cell processes.

The optic nerve is a good place to study nerve cell processes because it’s located in the center of the brain, but it’s not a great place to study nerve cell processes because it’s in the middle of the brain where these nerve cells are. This is why it’s difficult to study nerve cell processes in the brain, since it’s not a place where you can study nerve cell processes.

You can study nerve cell processes in the brain by stimulating nerves in the brain, which is not exactly a place where you can study nerve cell processes. However, the study of nerve cell processes can be done in the brain’s optic nerve, which is a great place to study nerve cell processes because there is an abundance of nerve cells in the optic nerve, making it a good place to study nerve cell processes.

Another great place to study nerve cell processes is the optic nerve. The optic nerve is the longest nerve in the body and is responsible for our vision. It is a very powerful nerve, sending information through the optic nerve to every part of the brain, so any study of nerve cell processes should be done there. I’ll be honest though, I don’t know if it will be.

The optic nerve is a pretty important nerve. In fact, it forms the central nervous system (CNS) of our visual system. As we saw in Part 1, the visual system is a series of nerve cells and synapses, which sends information to the brain. The optic nerve is actually part of the sensory neurons, which in turn send information to the brain.

The optic nerve is not the only nerve in the brain that has synapses. A nerve cell called the retinal ganglion cell is connected to the optic nerve, and the synapses of the retinal ganglion cell send signals to the brain. The retina in turn is connected to the back of the brain and is responsible for seeing things like the sun, moon, and stars.

The optic nerve is actually part of the sensory neurons, which in turn send information to the brain. The optic nerve is not the only nerve in the brain that has synapses. A nerve cell called the retinal ganglion cell is connected to the optic nerve, and the synapses of the retinal ganglion cell send signals to the brain. The retina in turn is connected to the back of the brain and is responsible for seeing things like the sun, moon, and stars.

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