I haven’t seen the video so I can’t answer the first one
#2: Everyone’s body has different amounts of chemicals and nutrients and they’re different weights, so a customized prescription can be used to work best for that patient specifically.
#3: They might not want to because all those factors that are taken into account about the patient can change. Weight can go up or down, or they might not have eaten anything the day they measured the patient’s nutrition, and depending on how long the prescription lasts, taking something that’s for those specific numbers over a long period of time can be dangerous if the patient changes anything about their diet or exercise or weight or anything like that.
I think it might be true.. not sure whatsoever
The nurse should assign it to a red tag as it's most urgent treatment needed to prevent more casualties.
<h3>What is Agonal breathing?</h3>
This refers to when someone who is not getting enough oxygen is gasping for air.
When this occurs, the nurse should assign it as a red tag and oxygen should be given to prevent cardiac arrest and death of body cells.
Read more about Agonal breathing here brainly.com/question/4552744
Answer:
The answer to the question: There are neurotransmitters that can be both excitatory and inhibitory. Explain how this is possible, would be, Yes, there are some neurotransmitters such as acetylcholine and dopamine, who have both an excitatory and inhibitory effect in other neurons and in cells, and this happens because of the type of receptors they bind to, and the type of cell where they bind.
Explanation:
Neurotransmitters are the messengers, or communication system that the nervous system in general has with itself and with other systems. There are several types of these, and some work both as neurotransmitters and as hormones as well. How they act, where they act, and what kind of response they elicit, depends entirely on the receptors to which they bind, when they are released by a pre-synaptic neuron. Most neurotransmitters are either excitatory, or inhibitory, and some are known as neuromodulators. However, there are two types known today that work as both excitatory and inhibitory: dopamine and acetylcholine. How can either of these act as each of these? Depends on the receptors present on the post-synaptic neuron, or cell, and depends on the type of cell as well. As soon as these two bind to their appropriate receptors, in a specific kind of cell, they will produce the specific response from the cell, either starting an action potential, ir inhibiting it from happening.
