Depressant Drugs:
Alcohol, Benzodiazepines, Barbiturates and other central nervous system depressant drugs act primarily on a neurotransmitter substance known as GABA (Gamma Aminobutyric Acid). GABA is an inhibitory neurotransmitter that makes other neurons less likely to activate. The depressant drugs are GABA agonists, acting to help GABA reduce neuronal activation more efficiently than it usually would. Alcohol also inhibits (acts as an antagonist against) another excitatory neurotransmitter (Glutamate), making it harder for Glutamate to get the nervous system excited.
Stimulant Drugs
Amphetamines have their primary effects on the neurotransmitter Dopamine. Amphetamines both induce the terminal button of Dopamine-producing neurons to let more Dopamine out than normal, and also keep that Dopamine out in the synapse longer than it normally would be allowed to stay. Amphetamine also acts agonistically on receptors for a different neurotransmitter, Norepinephrine, by competing with Norepinephrine for post-synaptic receptors and turning those post-synaptic receptors on.
Cocaine has its major effect by blocking the re-uptake of the neurotransmitters Dopamine and Serotonin.
Opioid Drugs:
Opioid drugs bind to special endorphin receptors in the brain (the 'mu', 'kappa', 'sigma' 'delta' and 'gamma' receptors) that have to do with pain. When these receptors are occupied and activated, the perception of pain lessens.
Drug treatments for opioid addictions sometimes include the administration of Naltrexone, which is an opioid antagonist. Naltrexone competes with the opioids for their receptor sites, but is not itself capable of activating those receptor sites. An opioid addict on Naltrexone is thus rendered more or less incapable of getting high from their opioid drug of choice; they may take an opioid, but it will be blocked from the opioid receptors by the Naltrexone, and will not have its effect.
Cannabinoids:
Marijuana has a complex set of effects. It acts on the neurotransmitters Serotonin, Dopamine and Acetylcholine. It also binds to a receptor for a recently discovered neurotransmitter known as Anadamide.
Hallucinogens:
LSD is known to antagonize Serotonin by blocking its release.
The simplest explaination here is that:
1. The stimulants mimic neurotransmitters in action.
2. The stimulants excite the dendritic ends of neurons in such a way that they secrete more neurotransmitters.
3. The transmission itself is made faster.
Drugs affect the nervous system in a variety of ways, depending on their classification. Some drugs suppress the activity in the brain while others stimulate it.
Turns it on an d stimulate speech area to respond
Stimulants improve concentration and regulate mental alertness. Stimulants work by releasing neurotransmitters in certain parts of the brain associated with increased nervous activity.
It speeds up the pace of things that are goibg on in the brain.(:
No
stimulants increase activity and depressants decrease activity.
stimulants
Stimulants are also known as "uppers" or psychostimulants. It enhances the activity of central and peripheral nervous systems.
amphetamines are stimulants and this means a substance that raises levels of physiological or nervous activity in the body.
They increase the activity of the nervous system.They improve the function of the cardiovascular system.They cause cancer in humans.They help people overcome addiction to other drugs.
According to the ingredients label, red bull includes taurine, glucuronolactone, and caffeine which are psychoactive stimulants (they increase physiological and nervous activity).
Central nervous system (CNS) stimulants are drugs that increase activity in certain areas of the brain. These drugs are used to improve wakefulness in patients that have narcolepsy.
There are 2 kinds that I know of but there could be more... Benzodaizepines an example would be Triazolam and Barbiturates and an example would be Butalbital.
Methampthetamines
Stimulants increase alertness.
Generally, depressants slow down neurotransmission (messages sent from neuron to neuron) reducing overall activity in the brain, whereas stimulants speed up the amount of neurotransmission, hence increasing overall activity in the brain.
No. Depressants are the opposite of stimulants. Stimulants are drugs that stimulate the brain and central nervous system, speeding up communication between the two. Depressants slow down the activity of the brain and nervous system, slowing down the communication between the two.