Neurons

As noted previously, the Cerebellum takes up just ten percent of the brain’s mass but contains about half of the brain’s neurons. That is a huge amount of processing power contained in a relatively small portion of the brain; kind of a heady responsibility for the Cerebellum!

One possible reason that the Cerebellum contains this large quantity of neurons is that the Cerebellum does a lot of communicating with many areas of the brain in its diverse role as coordinator of muscle movement, maintainer of bodily equilibrium, handler of cognitive patterns such as speaking, automator of certain repetitive tasks, and responder to novelty. Whew, a busy schedule, to say the least! Since the neurons are the pathways that let all of this communication take place, it makes perfect sense to have so many in the Cerebellum.

There are about one hundred billion neurons in the brain. Essentially they all deal with the same thing – facilitating communication within the brain by sending impulses between neurons and thus throughout the brain. This sending of impulses is assisted by neurotransmitters.

neuron-chat-21.jpgSo how do neurons communicate with each other? First it helps to have an idea of what a neuron looks like. Think of the nucleus, which is surrounded by the cell body (called the soma), as a circle in the center of an octopus. The dendrites of the nucleus are like the tentacles of the octopus, extending out from all around the cell. Imagine one dendrite, called the axon, stretched out longer than the rest and at the other end of this axon are many axon terminals that look like spindly fingers. And now imagine that there are billions of these neurons within the brain.

A typical neuron “chat” takes place extremely fast. The dendrites extend from the perimeter of the cell body, with the nucleus in the center. The cell either fires or not, and the fired message shoots down the axon to the pre-synaptic terminal, which is the end of the neuron and the end of the axon. The pre-synaptic terminal is right next to, but does not touch, the dendrites of the next neuron. Simplified, the dendrites receive signals, and the axon and its terminals send signals.

At the end of each axon terminal are neurotransmitters. The neurotransmitters float across the synapse, which is the space between neurons, and communicate with the next neuron. Each neuron synapses onto many different neurons. On any given neuron some synapses will tell it NOT to fire while other synapses will tell it TO fire. The sum total of all the synapses’ influences will determine whether the neuron fires or not.

For a more detailed description of this process along with a wonderful set of Flash movies that clearly animate and visually explain neurons firing, please visit The Consortium on Mind/Brain Science Instruction’s article Neurons, synapses, and neurotransmission: An introduction and scroll to the bottom of the screen for the Flash animations.

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5 thoughts on “Neurons

  1. Pingback: Questions, Questions! Who Has Time for Questions? « Just For Asking

  2. synapsesensations Post author

    Hi Dan,

    I am not a scientist, so do not want to make any proclamations, however, here is my attempt to both better understand and also explain the process.

    An axon has multiple “end fingers” of its own called axon terminals. A neuron sends just one signal at a time down its axon path, but that axon, via its terminals, sends out multiple pulses (my words) in the form of neurotransmitter. The initial signal is called an action potential and consists of electrical signals.

    The single signal can cross the synapse to the next neuron only with the aid of chemical neurotransmitters, and it only crosses the synapse when the synaptic potential (a combination of excitatory and inhibitory electrical signals) is such that there is a greater number of excitatory signals.

    Perhaps the Flash animations on the Mind Project site will further demystify the process.
    http://www.mind.ilstu.edu/curriculum/modOverview.php?modGUI=232

    Please let me know if any of this helps answer your question. And in any case, if you have an explanation that will further clarify, please do share 🙂

    Cheers,
    Laurie

  3. Dan Willits

    Question: My knowledge of neurons is from ancient popular science magazines, and was mainly about the eye. I thought for sure that while a neuron could have many dendrites, and could be on the receiving end of a synapse, the single axon could deliver one signal across one synapse. Was my understanding faulty, or has the view changed over the years ? If so, when ? I,ve just recently joined the internet and this is the first site I’ve found that may be able to answer this question. If not, could you recommend another site ? Thanks.

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