Psychophysiology Lecture #2

Question 1

Midbrain subdivision:

Answer 1

Mesencephalon

Question 2

Tactum

Answer 2

“Roof”
- Principle structures are the:
1. Superior Colliculi
2. Inferior Colliculi

Question 3

Superior Colliculi (Tactum)

Answer 3

visual reflexes/object tracking (orienting)

Question 4

Inferior Colliculi (Tactum)

Answer 4

auditory system in ear

Question 5

Tegmentum

Answer 5

“Covering”
- Wraps around the cerebral aqueduct (connects 3rd and 4th ventricles)

Principle Structures are:
1. Periaqueductal Gray Matter (PAG)
2. Raphe (red) Nucleus
3. Substantia Nigra (black)

Question 6

Periaqueductal Gray Matter (PAG)-Tegmentum

Answer 6

Pain modulation (endogenous and exogenous opioids act here)

Question 7

Raphe (red) Nucleus-Tegmentum

Answer 7

• Coordination of sensorimotor information.
• Synthesizes serotonin.
• SSRIs are believed to largely impact the raphe nuclei.

Question 8

Substantia Nigra (black)-Tegmentum

Answer 8

Key role in dopamine production.

Question 9

Corticospinal Tract

Answer 9

Carry movement related information from the cerebral cortex to the spinal cord.

Question 10

Hindbrain subdivisions:

Answer 10

Metencephalon and Myelencephalon

Question 11

Metencephalon

Answer 11

“Afterbrain”
- Pons and Cerebellum

Question 12

Cerebellum

Answer 12

Attaches to pons by cerebellar peduncles.
- Posture, balance, fine motor movement, motor learning, proprioception.

Question 13

Pons

Answer 13

“Bridge”–translates signals between the cerebellum and cerebrum.
- Regulates breathing and arousal.
- Damage = locked in syndrome

Question 14

Medulla Oblongata

Answer 14

Part of Myelencephalon.
- Controls basic functions of the autonomic nervous system including:
1. Respiration
2. Cardiac function
3. Vasodilation
4. Reflexes like vomiting, coughing, sneezing, and swallowing.

• Damage or enlargement = respiratory failure, paralysis, loss of sensation.

Question 15

Reticular Formation

Answer 15

• Complex network of neurons located in the brain stem.
• Connections to the hypothalamus and thalamus.
• Helps support wakefulness/alertness and filters incoming information.

Question 16

Spinal Cord

Answer 16

• Connected to the brain by the brain stem.
• Long bundle of nerve tissues.
• Send motor commands from the brain to the body, send sensory information from the body to the brain and coordinates reflexes.

Question 17

4 Sections of the Spinal Cord

Answer 17

1. The Cervical Spinal Cord
2. The Thoracic Spinal Cord
3. The Lumbar-Sacral Spinal Cord
4. Cauda Equina (bundle of nerves)

Question 18

Cervical Spinal Cord

Answer 18

Sends nerves to the face and neck.

Question 19

Thoracic Spinal Cord

Answer 19

Sends nerves to the arms, chest, and abdomen.

Question 20

Lumbar-Sacral Spinal Cord

Answer 20

sends nerves to the lower body.

Question 21

A bunch of nerves

Answer 21

called cauda equina because they look like a horses’s tail–is at the bottom of the spinal cord.

Question 22

Types of Neurons in the Somatic Nervous System

Answer 22

1. Sensory Neurons
2. Motor Neurons
3. Interneurons

Question 23

Sensory Neurons

Answer 23

Carry signals from the outer part of the body into the central nervous sytem.

Question 24

Motor Neurons

Answer 24

Carry signals from the central nervous system to the outer parts of you rbody.

Question 25

Interneurons

Answer 25

Connects various neurons within the brain and spinal cord.

Question 26

Somatic Nervous system is made up of…

Answer 26

1. Spinal Nerves
2. Cranial Nerves

Question 27

Spinal Nerves

Answer 27

Mixed nerves that carry sensory information into and motor commands out of the spinal cord.
- Nerves leave the vertebral column and travel to the muscles or sensory receptor they innervate.

Question 28

Afferent Axons

Answer 28

Part of Spinal Nerves
- Bring information inwards, towards CNS.

Question 29

Efferent Axons

Answer 29

Part of Spinal Nerves
- Send information outward

Question 30

Cranial Nerves

Answer 30

They are the nerve fibers that carry information into and out of the brain stem.

Question 31

Dermatome

Answer 31

Areas of skin on the body that rely on specific nerve connections on your spine.

Question 32

Myotome

Answer 32

Group of muscles innervated by a single spinal nerve.

Question 33

How many pairs of cranial nerves are attached to the ventral surface of the brain?

Answer 33

12

Question 34

Vagus Nerve

Answer 34

Regulates the functions of organs in the thoracic and abdominal cavities.
- Longest cranial nerve.
- Helps body exit “fight or flight”

Question 35

What 2 systems does the autonomic nervous system separate into?

Answer 35

1. Sympathetic Division
2. Parasympathetic Division

Question 36

Sympathetic Division

Answer 36

“Fight, Flight, Freeze, Fawn”
- Controls functions that accompany arousal and expenditure of energy.
- Coordinates responses to a stressor.

Question 37

What is the Sympathetic Division also known as?

Answer 37

Thoracolumbar System

Question 38

Parasympathetic Division

Answer 38

“Rest and Digest”
- Involved with increases in body’s supply of stored energy.
- Coordinates rest and relax responses after the body has been stressed.
- Vagus Nerve responsible for calming following a stressful situation.

Question 39

What is the parasympathetic division also known as?

Answer 39

Craniosacral System

Question 40

Neurons

Answer 40

most basic information–processing and information–transmitting element of the nervous system.

Question 41

4 Main Structures of Neurons

Answer 41

1. Cell bodies (Soma)
2. Dendrites
3. Axons
4. Terminal Buttons

Question 42

Multipolar Neurons

Answer 42

Most common, one axon to multiple trunks.

Question 43

Bipolar Neurons

Answer 43

Interneurons, one axon and one dendritic tree, soma in middle of axon.

Question 44

Unipolar Neurons

Answer 44

One stalk, usually sensory.

Question 45

Soma

Answer 45

Contains the nucleus, shape varies in different kinds of neurons. AKA Cell Body

Question 46

Dendrites

Answer 46

Branches to the soma of a neuron; receives information transmitted across synapse.

Question 47

Axons

Answer 47

Carries information from cell body to terminal buttons/axon terminal.

Question 48

Axon Hillock

Answer 48

Gate keeper of whether an action potential is strong enough.

Question 49

Myelin Sheath

Answer 49

Surrounds axons and insulates them.
- Produced by oligodendrocytes.
- Decrease = Demyelinating Disease (multiple sclerosis, AIDP)

Question 50

Terminal Buttons/Axon Terminals

Answer 50

• Buds at the end of a branch of axon; forms synapses with another neuron.
• Secrete chemicals called neurotransmitters.

Question 51

Synapse

Answer 51

• Points of contact between neurons where information is passed from one neuron to the next.
• Form between axons and dendrites.

Question 52

What do synapses consist of?

Answer 52

1. Presynaptic Neuron
2. Synaptic Cleft
3. Post Synaptic Neuron

Question 53

Glial Cells

Answer 53

“Glue”
- Provide nutrients to neurons

Question 54

What are the 3 main types of glial cells?

Answer 54

1. Microglia
2. Astrocytes
3. Oligodendrocytes

Question 55

Microglia

Answer 55

Smallest, cleaning up dead cells and protecting brain from microorganisms/toxins.
- Damage/Toxins = microglial cells produce inflammatory mediators to call other cells to the injury –> promote and perpetuate the inflammatory response –> can worsen neurodegeneration (keeping area inflammed)

Question 56

Astocytes

Answer 56

Star shaped, neuron “glue”–holds them together, engulf debris, provide nourishment via transfer of fuel–neurons use a lot of energy but cannot store it.
- Provide electric insulation for unmyelinated neurons.

Question 57

Oligodendrocytes

Answer 57

Produces myelin in the form of a tube by wrapping itself around the axon, forms sheath in segments.

Question 58

Blood Brain Barrier (BBB)

Answer 58

Selectively permeable.
- Blocks all molecules except those with lipid soluble.

Question 59

Area Postrema

Answer 59

Weakest region in BBB (vomiting); has an additional barrier.

Question 60

Chemotherapy and BBB

Answer 60

Chemo increases inflammatory cytokine production which weakens blood brain barrier therefore increasing crossing.

Question 61

New name for chemobrain

Answer 61

Cancer Related Cognitive Impairment

Question 62

Diffusion

Answer 62

Movement of molecules from region of high concentration to low to achieve equilibrium.

Question 63

Electrostatic Pressure

Answer 63

Force exerted by attraction or repulsion to move ion from place to place.

Question 64

Electrolytes

Answer 64

Substances that break into 2 parts with opposing electrical charges.

Question 65

Cations

Answer 65

positive (sodium Na+ and potassium K+)

Question 66

Anions

Answer 66

negative (Chloride CI-)

Question 67

Sodium Potassium Pump

Answer 67

Protein molecules embedded in the membrane.
- Works to keep the ion concentration stable even as ions cross the membrane at rest.
- Continuously pushes Na+ out of the axon = maintains resting potential.

Question 68

Resting/Membrane Potential

Answer 68

A resting neuron’s voltage across its membrane.
- Resting potential is determined by concentration gradients of ions across the membrane and by membrane permeability to each type of ion.

Question 69

Action Potential

Answer 69

Rapid bursts of depolarization followed by hyper-polarization.
- Occurs because of diffusion and electrostatic pressure.

Question 70

Depolarization

Answer 70

Reduction of membrane potential (less negative on inside)
- Decrease in electrical charge = decrease in membrane potential.

Question 71

Threshold of Excitation

Answer 71

Set point to produce an action potential = .55mV

Question 72

Hyperpolarization

Answer 72

Increase in membrane potential.

Question 73

Conduction of Action Potential

Answer 73

• Remains constant in size–all or none law.
• Normally one-way traffic from soma end to boutons.
• Refractory period.
• Strength is based on rate of firing–rate law.

Question 74

Saltatory Conduction

Answer 74

In myelinated fibers, depolarization and repolarization processes occur from one node of ranvier to the next instead of the entire area of the membrane.
–> economic and speedy.

Question 75

Synaptic Transmission

Answer 75

Primary means by which neurons communicate across synapse.

Question 76

Synaptic Cleft

Answer 76

22mm wide space between pre and post synaptic membrane.

Question 77

Creation of Action Potential in Next Cell

Answer 77

• Neurotransmitter exerts effects by attaching to binding sites/receptors.
• Binding open neurotransmitter-dependent ion channels.
• Opening of channels = generates electrical impulse.
• Opening propagates pre-synaptic signal = creates a post-synaptic potential.

Question 78

Types of Postsynaptic Potentials

Answer 78

1. Excitatory (EPSP)
2. Inhibitory (IPSP)

Question 79

Excitatory (EPSP)

Answer 79

sodium channel opened, depolarizing.

Question 80

Inhibitory (IPSP)

Answer 80

Potassium channel opened, hyper polarizing.

Question 81

Termination of Postsynaptic Potentials

Answer 81

1. Reuptake
2. Enzymatic Deactivation/Degradation

Question 82

Reuptake

Answer 82

an extremely rapid removal of a neurotransmitter from the synaptic cleft by the terminal button.

Question 83

Enzymatic Deacativation/Degradation

Answer 83

Accomplished by enzyme that destroys molecules of the neurotransmitter.