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Also does more neurons necessarily mean more intelligence???
And this receptor, if we kind of zoom in on it, we zoom in on this receptor, is sensitive to stretching.
So as this muscle contracts, so if I was going to lift something really heavy, the muscle would contract, and it would get thinner, so it would look like this. And so this sensor, which is known as a spindle-- I'll write that down here. This sensor can sense that the muscle has been stretched out, and it too will also stretch.
It was more about the relative neuron/glia ratio in human brains.
We have a great opportunity here to illustrate the importance of science reporting based on primary sources whenever possible and to look at scientific findings critically using all the available information (data points, statistics, etc.)... (:-) I'm not terribly familiar with the enteric nervous system. Connectivity is more relevant to determining function.
What I am wondering is how does this more precise count compare to the estimates of neurons controlling the gut--by older counting techniques, aren't they similar to or more than those in the brain?
And as you're walking, you know if your right foot is in front of your left or if your left foot is in front of your right.But better and more precise counting of any cells helps keep the neurobollocks at bay.Precision is good, and often doesn't deserve enough credit when chased after and found. While it's certainly an important factor in our survival (obviously), it's also becoming increasingly clear how important of a role it plays in mood and behavior. Also, the non-neuronal cells are vital to the connectivity and physiology (glia, microglia).We often forget that the brain is more than neurons....When that protein gets stretched, it fires a signal to the brain. So we're able to tell exactly how contracted or how relaxed every single muscle is in our entire body, and this allows us to know exactly where our body is in space. And so if we talk about proprioception to include your body's position in space as well as your ability to balance, so your sense of balance would be included under proprioception, kinesthesia is talking more about the movement of your body.There's another word that's commonly used to talk about your body's movements. So one final way to differentiate between the two is that proprioception can be thought of as a cognitive awareness of your body in space. So one way to think about this is that it's a little bit more subconscious. As long as nothing got in your way, you'd probably be able to walk perfectly fine. When walking in a pitch black room, you rely on your sense of balance. You know whether or not you're standing straight up or if you're sitting down.So how is it that we know exactly where our body is in space without actually having a look at it? And proprioception is basically defined as our ability to sense exactly where our body is in space. And this sense actually originates from a bunch of tiny little sensors that are located throughout our entire body in almost all of our muscles.So there's a tiny little receptor in it, inside of the muscle.And this receptor will actually go up to your spinal cord and then eventually to your brand.