Neuroscience For Psychology

00:08

when my oldest son was about five he

00:11

asked me one of those important

00:12

life-changing benchmark questions no it

00:17

wasn't the where do babies come from

00:19

question I was actually ready for that I

00:21

had like diagrams and everything what he

00:24

asked me was dad where do thoughts come

00:27

from really really kid is that what you

00:31

want to know so I don't know why I just

00:34

spit out something like thoughts come

00:36

from your head son and that kind of shut

00:38

him up for a while and now about 10

00:42

years later I guess he's finally ready

00:44

to hear where thoughts really come from

00:46

so here it goes

00:50

and I wasn't actually lying to my son

00:53

I mean thoughts do come from her head in

00:55

particular they come from our brain to

00:58

be even more specific that come from

00:59

these small cells in our brain called

01:01

neurons we have about a hundred billion

01:03

neurons in her head and all these

01:05

neurons have basically one single job

01:08

and that is to communicate with each

01:11

other it is vital to understand that

01:14

every thought every feeling every

01:17

emotion every memory you've ever felt is

01:20

because these billions of neurons are

01:22

communicating with each other in

01:23

different ways what's important to know

01:26

about these neurons is they never ever

01:29

touch each other which was the motto of

01:32

most of my girlfriend's in high school

01:34

there is always a space or a gap between

01:37

neurons in this gap is called the

01:40

synapse so then how do our neurons

01:43

actually communicate with each other

01:44

across this gap and the answer

01:48

essentially is they throw chemicals back

01:51

and forth at each other in these

01:53

chemicals are called neurotransmitters

01:55

in how important are these

01:57

neurotransmitters well I mean if I was

02:00

pressed I would say they are everything

02:02

every thought every single memory hell

02:06

every emotion you've ever had is because

02:10

of specific chemicals of these

02:12

neurotransmitters that

02:13

shot across the synaptic gap between

02:15

neurons in our brain okay so how many

02:18

different types of neurotransmitters do

02:20

we have in our brain well scientist

02:22

estimate there's anywhere between 30 and

02:24

a hundred with about 10 of them handling

02:27

99% of the functions in our brain but

02:30

for the purposes of I don't know an

02:31

intro psych class or AP class or an IB

02:33

class you really only have to know about

02:35

I don't know I would say about 4 or 5 so

02:39

let's go through and quick 1 important

02:41

neurotransmitter is called acetylcholine

02:44

good luck trying to spell that so

02:47

scientists just call it a CH for short

02:49

in this neurotransmitter is involved in

02:52

voluntary motor movement in memory so

02:55

every time you move your body you're

02:56

actually firing they see the choline in

02:58

the synapse in between our neurons I

03:00

guess a good practical example would be

03:03

something like the black widow spider

03:04

the venom from a black would have spider

03:07

increases see the choline production in

03:09

our brain to the point where we'll start

03:11

ceasing because we can't control all the

03:13

voluntary muscle movements lack of

03:15

acetylcholine has also been linked to

03:17

diseases such as Alzheimer's a second

03:20

neurotransmitter you should probably be

03:22

aware of is called dopamine dopamine is

03:25

involved in things like motor movement

03:27

in alertness drugs like cocaine

03:29

increased dopamine levels in our body

03:31

making us feel very I don't know what it

03:34

really feels like I've never taken

03:34

cocaine but they say energetic cuz it's

03:36

stimulant lack of dopamine has been

03:39

linked to Parkinson's disease and

03:41

actually an overabundance of dopamine

03:43

has been linked to schizophrenia another

03:47

neurotransmitter you should be aware of

03:48

is serotonin serotonin is involved in

03:52

mood control lack of serotonin has been

03:55

linked a clinical depression so if

03:57

you're taking an antidepressant like

03:59

paxil a prozac or zoloft then logically

04:02

you would know that that drug probably

04:04

increases serotonin levels in the

04:06

synaptic gaps in our brain one of my

04:08

favorite neurotransmitters is called

04:10

endorphins endorphins are really dealing

04:12

with pain control for those of you who

04:15

spend a lot of time exercising in

04:16

particular those of you run long

04:18

distances your body will release

04:19

endorphins in response to the pain I

04:22

believe they call that runner's high I

04:24

don't really know anything about that

04:26

because

04:27

running just sucks opiate drugs like

04:31

heroin tend to mimic endorphin

04:33

production in our brain I guess we can

04:35

do a couple more quick we have Naropa

04:37

nephron which is involved in alertness

04:39

and arousal lack of it has been also

04:41

linked to depression we also have one

04:43

called gaba gaba really deals with sleep

04:47

issues those six are probably gonna be

04:50

the only ones you'll see and intro to

04:51

psych exam so now you have kind of a

04:54

conception of what i know a tresor is

04:56

and what they can do we still have to

04:58

address how neurotransmitters actually

05:01

get around our brain in other words how

05:03

those neurons actually toss or throw or

05:06

fire the neurotransmitters from one

05:09

neuron to the next in the best way to do

05:12

that is to go over some neural Anatomy

05:14

or the structure of a neuron let's start

05:18

with the dendrites the dendrites are

05:20

like like these root like branches or

05:24

these arms that come out of the cell

05:25

body of a neuron and they have basically

05:28

one job they're like I don't know

05:30

they're like dirty old men and what a

05:32

dirty little men do yeah

05:34

they grab onto stuff in dendrites grip

05:36

onto stuff too

05:37

but in this case they grab onto

05:39

neurotransmitters their main job is

05:42

basically to reach out grab onto

05:44

neurotransmitters from the synapse and

05:45

send messages to the rest of the neuron

05:48

attached to the dendrites you have the

05:50

soma or the cell body it's basically

05:53

like the brain of a neuron below the

05:56

cell body you have something called the

05:57

axon the axon is a wire like structure

06:01

that sends electrical messages from one

06:04

side of the neuron all the way to the

06:06

other surrounding the axon is a layer of

06:09

fat called the myelin sheath the myelin

06:12

sheath like a rubber around the wire

06:13

helps insulate the electrical signal

06:16

traveling down the axon when the myelin

06:18

sheath breaks down you have a disorder

06:20

called multiple sclerosis at the bottom

06:23

of the axon you have the terminal

06:24

buttons I've also heard it called axon

06:28

terminal or n buttons and the function

06:31

of these terminal buttons is to store

06:33

neurotransmitter that could be fired

06:35

across the synapse to the dendrites on

06:38

the next neuron okay so how does this

06:40

hole

06:40

work when a neurons doing nothing it's

06:44

called resting potential and has a

06:46

slightly negative charge when the

06:49

dendrites grab on to enough

06:50

neurotransmitter the neuron then will

06:52

reach what we call threshold it's either

06:55

going to fire or it's not going to fire

06:57

that concept is called the all-or-none

06:59

response kind of like putting your

07:01

finger on a trigger of a gun the gun

07:03

will either do nothing or a bullet fires

07:05

completely there's no halfway or partway

07:07

firing so when the neuron decides a fire

07:10

it goes into a process called action

07:13

potential in what happens basically is a

07:16

little portal opens up on the axon in in

07:19

rushes in positive ions mixed in with

07:22

the negative ions inside the axon

07:24

causing an electrical charge to travel

07:26

down the axon now in case you want to

07:28

know these ions could be many different

07:30

things but they usually potassium and

07:32

sodium but I don't think it's all too

07:34

important now an electrical charge

07:36

travels down the axon until it gets the

07:38

axon terminal and the axon terminal

07:40

buttons then fire off neurotransmitters

07:44

across the synapse to the dendrites on

07:47

the next neurons that are awaiting it

07:49

when the neurons receiving the

07:51

neurotransmitter across synapse had

07:53

enough they reach their threshold and

07:55

perhaps go into action potential the

07:57

axon terminal on the original neuron

08:00

will then go into the synapse and suck

08:02

up the leftover neurotransmitter and we

08:05

call that process reuptake I know that

08:08

all sounds very complicated stuff that

08:10

one more time so the dendrites grab onto

08:13

these chemicals called neurotransmitters

08:14

it could be serotonin it could be

08:17

dopamine whatever it is when the

08:19

dendrites had enough that reaches its

08:20

threshold it then sends a message to the

08:22

soma to go into action potential when

08:25

the neuron goes into action potential it

08:28

opens up a small portal on that wire

08:29

called the axon the axon lets in

08:32

positive ions cause an electrical charge

08:34

to go all the way down the axon

08:36

once electrical charge reaches the axon

08:38

terminal that neuron then sends

08:41

neurotransmitters across the synapse to

08:44

the next neuron awaiting it whatever

08:47

neurotransmitter is not being used the

08:49

axon terminal then suck it right back up

08:51

in a process called reuptake

08:54

you know um they take this time to give

08:56

you guys a special bonus we're gonna

08:58

talk about drugs because drugs for the

09:00

most part mimic or block

09:03

neurotransmitters in our body in fact

09:05

drugs - only one of three things some

09:09

drugs are what we call agonists agonists

09:12

are drugs that mimic neurotransmitters

09:14

so they latch on to the neuron the

09:16

neuron thinks that that drug is a

09:18

neurotransmitter then it goes into

09:20

action potential and it fires other

09:23

drugs are called antagonists antagonists

09:26

latch onto the neuron the neuron knows

09:30

it's not the neurotransmitter and it

09:32

stops a neuron from going into action

09:33

potential and firing the third thing a

09:36

drug can do is it can inhibit reuptake

09:40

in other words when the axon terminal

09:43

tries to suck up that leftover

09:44

neurotransmitter some drugs block the

09:47

axon terminal so it can't suck up that

09:49

leftover neurotransmitter leaving too

09:52

much in the synapse causing us to feel

09:54

the effect of that drug an example would

09:56

be cocaine cocaine is a dopamine

10:00

reuptake inhibitor so when a neurons

10:03

firing dopamine the axon terminal fires

10:06

it out and then it tries to rehab take

10:08

it or suck it back up

10:09

the cocaine blocks the axon terminal

10:12

from sucking up leftover dopamine thus

10:15

we have too much dopamine in the synapse

10:17

thus we get high up cocaine in fact

10:20

almost every single antidepressant drug

10:23

is a real take inhibitor the most

10:27

oftenly called SSRIs selective serotonin

10:30

reuptake inhibitors drugs like paxil

10:33

prozac or zoloft they go into our body

10:36

in they stop the axon terminal from

10:39

sucking up the leftover serotonin in

10:42

this case we raise serotonin levels in

10:44

our body

10:45

hopefully alleviating depression okay

10:48

so there you have it neuroanatomy neural

10:50

firing North transmitters and drugs in

10:52

just a few minutes now obviously I

10:55

really simplified this there are very

10:57

smart people spending their whole lives

10:59

starting this electrochemical process

11:01

called neural firing but since the next

11:04

season of The Walking Dead comes out

11:06

soon

11:07

I gotta go been to watch I don't have a

11:09

lot of time mostly because my wife's

11:11

gonna make me watch that show this is us

11:14

it it's alright just it makes me cry

11:16

every time whatever some you know I'm

11:19

talking about

11:19

alright later

11:22

[Music]