Exam 1

Question 1

Computerized Tomography (CT

Answer 1

an imaging technology in which computers are used to enhance x-rays
Can’t differentiate between living and dead brain (can’t look at brain activity)

Question 2

Positron Emission Tomography (PET)

Answer 2

provides info regarding localization of brain activity

Question 3

Magnetic Resonance Imaging (MRI)

Answer 3

provides high resolution structural images

Question 4

Functional MRI (fMRI)

Answer 4

uses a series of MRI images taken a few seconds apart to assess activity in the brain

Question 5

Diffusion Tensor Imaging (DTI)

Answer 5

• use of MRI technology to trace fiber pathways in the brain by tracking the flow of water
• Connectivity map
• Can’t tell direction of information flow

Question 6

Imaging methods vs Recording methods

Answer 6

Imaging methods:
-CT
-PET
-MRI (fMRI)
-DTI
Recording methods:
-EEG 
-ERPs
-single cell recording
-microdialysis

Question 7

Event-related potentials (ERPs)

Answer 7

an alteration in the EEG recoding produced in response to the application of a stimulus

Question 8

Single cell recording

Answer 8

the recording of the activity of single neurons through microelectrodes surgically implanted in the area of interest

Question 9

Microdialysis

Answer 9

assesses the chemical composition of a very small area of the brain

Question 10

Ablation

Answer 10

surgical removal of tissue

Question 11

Optogenetics

Answer 11

• genetic insertion of molecules into specific neurons that allows the activity of the neurons to be controlled by light
• Allows researchers to turn on specific neurons
• Much more precise than electrical stimulation

Question 12

Knockout gene

Answer 12

• gene used to replace a normal gene that does not produce the protein product of the normal gene
• Can be genetically modified
• Natural genetic mutations can have same effect

Question 13

Microtome

Answer 13

a device used to make very thin slices of tissue for histology

Question 14

Golgi stain

Answer 14

labels single neurons

Question 15

Nissl stain

Answer 15

labels population of cell bodies

Question 16

Immunohistochemistry (IHC)

Answer 16

process where antibodies are used to detect proteins in cells within in a tissue section

Question 17

Neuraxis

Answer 17

imaginary line that runs the length of the spinal cord to the front of the brain (bends in people)

Question 18

Sagittal section

Answer 18

parallel to midline

Question 19

Coronal/frontal section

Answer 19

parallel to face, perpendicular to midline

Question 20

Horizontal/transverse section

Answer 20

divides into top and bottom

Question 21

Central canal

Answer 21

small midline channel in spinal cord that contains CSF

Question 22

Cerebral aqueduct

Answer 22

connects third and fourth ventricle

Question 23

Flow of CSF

Answer 23

Lateral ventricles
Third ventricle
cerebral aqueduct
Fourth ventricle
cerebral canal

Question 24

12 cranial nerves

Answer 24

“On occasion our trusty truck acts funny good vehicle anyhow”
“Some say marry money but my brother says big brains matter more”

1) Olfactory
2) Optic
3) Oculomotor
4) Trochlear
5) Trigeminal
6) Abducens
7) Facial
8) Vestibulocochlear
9) Glossopharyngeal
10) Vagus
11) Spinal Accessory
12) Hypoglossal

Question 25

Autonomic Nervous System

Answer 25

• Hypothalamus is key brain structure regulating the ANS

* Divided into sympathetic and parasympathetic

Question 26

Sympathetic NS

Answer 26

•Fight or flight
•Mobilizes energy stores
•Originates from its own part of the spinal cord
-Norepinephrine
•Axons from neurons in the thoracic and lumbar segments of the spinal cord (SC) communicate with the sympathetic chain (chain of cell bodies outside of the SC)
•Fibers from cells in sympathetic chain then communicate with target organs

Question 27

Parasympathetic NS

Answer 27

•Rest and digest
•Conserves and restores energy reserves
•Originates from its own part of the brain and spinal cord
-Acetylcholine
•Originates from the brain and sacral divisions of the SC
•Travel some distance to locations near their target organs, where parasympathetic ganglia are located
•Not coordinated like sympathetic system

Question 28

Enteric NS

Answer 28

• Division of ANS consisting of neurons embedded in the gastrointestinal system
• Some functions contribute to conscious sensations-pain, hunger, and satiety, but most is below level of consciousness
• Very complicated

Question 29

Nuclei

Answer 29

collection of neurons within CNS

Question 30

Tract

Answer 30

bundle of axons within CNS

Question 31

Ganglia

Answer 31

collection of neurons outside CNS

Question 32

Nerves

Answer 32

bundles of axons outside CNS

Question 33

Spinal cord

Answer 33

• Runs from medulla to 1st lumbar vertebrae
• Cervical nerves=8 (head, neck, arms)
• Thoracic nerves=12 (most of torso)
• Lumbar nerves=5 (lower back and lower neck)
• Sacral nerves=5 (legs and genitals)

Question 34

Hindbrain

Answer 34

rhombencephalon-brainstem

-includes myelencephalon (medulla) and metencephalon (pons and cerebellum)

Question 35

Midbrain

Answer 35

mesencephalon-brainstem

Question 36

Forebrain

Answer 36

prosencephalon

-includes diencephalon and telencephalon

Question 37

Medulla

Answer 37

• plays important role in consciousness, arousal, movement, pain
• reticular formation: collection of brainstem nuclei important for arousal

Question 38

Pons

Answer 38

“bridge”

• connects medulla to higher brain structures
• cochlear nucleus
• vestibular nucleus=receives info about location and movement of head from inner ear
• raphe nucleus
• locus coeruleus

Question 39

Cerebellum

Answer 39

“little brain”

coordinates voluntary movement, maintains muscle tone, regulates balance

Question 40

Raphe nucleus

Answer 40

sleep, arousal, mood, appetite and aggression

synthesizes serotonin

Question 41

Locus coeruleus

Answer 41

arousal, sleep, and mood

synthesizes norepinephrine

Question 42

Midbrain

Answer 42

• Tectum
• Tegmentum
• Cerebral aqueduct
• Periaqueductal gray (PAG)
• Red nucleus
• Substantia nigra
• Superior/inferior colliculi

Question 43

Tectum

Answer 43

• ceiling

- houses superior/inferior colliculi

Question 44

Tegmentum

Answer 44

• covering

- houses midbrain structures excluding colliculi

Question 45

Periaqueductal gray (PAG)

Answer 45

• area around cerebral aqueduct

- sleep, complex movements, pain

Question 46

Red nucleus

Answer 46

communicates motor info between spinal cord and cerebellum

Question 47

Substantia nigra

Answer 47

• movement
• degenerates in Parkinson’s
• reward seeking behavior
• dopamine synthesis

Question 48

Superior colliculi

Answer 48

• receives info from optic nerves leaving eye

- guided movements (turning eyes in direction of visual stimulus)

Question 49

Inferior colliculi

Answer 49

• involved in hearing

- auditory reflexes (ex: turning head in direction of loud noise)

Question 50

Forebrain

Answer 50

• diencephalon
• basal ganglia
• limbic system
• cerebral cortex

Question 51

Diencephalon

Answer 51

Thalamus

• gateway to cortex
• receives sensory and regulatory info
• relays sensory info to cortex

Hypothalamus

• collection of nuclei
• major regulatory nucleus
• eating, drinking, sex, biorhythms, temperature control

Question 52

Basal ganglia

Answer 52

• caudate nucleus, putamen, globus pallidus, subthalamic nucleus, nucleus accumbens
• selecting and enabling the execution of motor programs stored by cortex
• degenerates in Parkinson’s and Huntington’s

Question 53

Striatum

Answer 53

nucleus accumbens, caudate nucleus and putamen

Question 54

Limbic system

Answer 54

• learning, motivated behavior, emotion
• hippocampus
• parahippocampal gyrus
• fornix
• mammillary bodies
• amygdala
• cingulate cortex
• septal area

Question 55

Hippocampus

Answer 55

learning and memory

Question 56

Parahippocampal gyrus

Answer 56

fold of tissue near the hippocampus

Question 57

Fornix

Answer 57

fiber pathway connecting hippocampus with the mammillary bodies, processing and memory

Question 58

Mammillary bodies

Answer 58

processing and memory

Question 59

Amygdala

Answer 59

connects stimuli to emotional meanings

Question 60

Cingulate cortex

Answer 60

exerts cognitive influence over emotion

Question 61

Septal area

Answer 61

reward

lesions produce extreme rage

Question 62

Cerebral cortex

Answer 62

"bark", "outer shell"
6 layers of cortex
lots of fiber pathways (white matter)
sulci=valleys
gyri=hills
fissure=large sulcus

Question 63

Association cortex

Answer 63

area of cortex that serve as a bridge between areas that process sensory and motor info
association=connection

Question 64

Commissure

Answer 64

place where two things join

-Ex: anterior commissure, corpus collosum

Question 65

Connectome

Answer 65

neurons in specific brain areas participate in neural circuits

Question 66

Macroglia

Answer 66

• astrocytes
• ependymal cells
• oligodendrocytes
• schwann cells

Question 67

Astrocyte

Answer 67

• responsible for structural support and control of extracellular chemical environment at synapse
• form close connections with capillaries allowing them to transfer nutrients to neurons

Question 68

Ependymal cells

Answer 68

• line ventricles and central canal of spinal cord

- hair-like cilia to move CSF and monitor its quality

Question 69

Microglia

Answer 69

clean up debris

when they detect damage, they travel to location and digest debris

Question 70

Neural cytoskeleton

Answer 70

microtubule, neurofilament, microfilament

Question 71

Microtubule

Answer 71

largest type of fiber

transports neurochemicals and other products to/from cell body

Question 72

Neurofilament

Answer 72

neural fiber responsible for structural support

Question 73

Microfilament

Answer 73

smallest fiber type

thought to change the length and shape of axons and dendrites

Question 74

Anterograde transport

Answer 74

movement of materials from CELL BODY to AXON TERMINAL along microtubules

Question 75

Retrograde transport

Answer 75

movement of materials from axon terminal to cell body along microtubules

Question 76

Electrostatic pressure

Answer 76

electrical gradient
opposites attract (negative charge attracted to positive charge)

Question 77

Diffusion

Answer 77

concentration gradient

diffuse from areas of high to low concentrations

Question 78

Propagation

Answer 78

replication of AP at unmyelinated sections of axon

Question 79

Saltatory conduction

Answer 79

movement of AP from one node of Ranvier to the next down the length of a myelinated axon

Question 80

Gap junctions

Answer 80

neuron directly effects an adjacent neuron through the movement of ions from one cell to another
-distance is shorter and transmission is quicker than typical chemical synapses

Question 81

Chemical synapse

Answer 81

messages are transmitted from one neuron to another by neurochemicals

• volume transmission
• wiring transmission

Question 82

Volume transmission

Answer 82

• form of chemical synapse

- neurochemicals diffuse through extracellular fluid/CSF to influence cells far away

Question 83

Wiring transmission

Answer 83

• form of chemical synapse

- chemicals diffuse from one cell to impact adjacent cell through localized channels

Question 84

Autoreceptor

Answer 84

receptor site located on presynaptic neuron that provides info about the cell’s own activity level

Question 85

Recognition molecules

Answer 85

molecule within a receptor that binds to specific neurochemical (how receptors are specific to certain molecules)
-lock and key mechanism

Question 86

Ionotropic receptor

Answer 86

ligand-gated ion channel

-receptor protein in postsynaptic membrane in which recognition site is located on the same structure as the ion channel

Question 87

Metabotropic receptor

Answer 87

G protein-coupled receptor (GPCR)

• protein embedded in postsynaptic membrane containing recognition site and G protein
• slower
• neurochemicals do not directly open ion channel

Question 88

Neural integration

Answer 88

determination of whether to fire an AP based on summation of inputs to neuro

Question 89

Spatial summation

Answer 89

simultaneous stimulation of many presynaptic terminals (many terminals taking up space on neuron)

Question 90

Temporal summation

Answer 90

repeated stimulation of one presynaptic terminal (happening over time, temporal=time)

Question 91

Neuromodulator

Answer 91

chemical messenger that communicates with target cells more distant than the synapse by diffusing away from the point of release

Question 92

Neurohormone

Answer 92

chemical messenger that communicates with target cells at great distance by traveling through the blood

Question 93

Neurotransmitters (different types)

Answer 93

1) Acetylcholine
2) Monoamines
- Catecholamines (Epi, norepi, dopamine)
- Indolamines (serotonin, melatonin)
3) Histamine
4) Amino acid
- Glutamate
- GABA
5) Gas (Nitric acid (NO) is classic example)

Question 94

Glutamate

Answer 94

• most common excitatory NT
• ionotropic or metabotropic receptors (Ex: NMDA, AMPA, kainate)

Glutamate-> GAD-> GABA

Question 95

What is special about NMDA receptor?

Answer 95

• It’s both voltage and ligand gated

- glutamate has to bind to receptor AND there has to be sufficient depolarization before it responds

Question 96

GABA

Answer 96

-most common inhibitory NT

Question 97

GABA-A receptors

Answer 97

• allow Cl into neuron resulting in membrane hyperpolarization
• can bind with benzodiazepines, barbiturates, and alcohol (all of these supress nervous system activity by increasing inhibition produced by GABA)

Question 98

GABA-B receptors

Answer 98

• GPCR

- cause membrane hyperpolarization

Question 99

Agonist

Answer 99

molecule that binds to and activates a receptor

Question 100

Antagonist

Answer 100

a chemical that binds to a receptor and prevents its activation
Ex: SSRI (increases amount of serotonin in synapse by inhibiting reuptake)

Question 101

Metabolic tolerance

Answer 101

organ systems become more effective at eliminating the drug (so body can get rid of drug quicker)

Question 102

Functional tolerance

Answer 102

target tissue may alter its sensitivity to the drug by changing the number of receptors:

• Down-regulation in response to an agonist -> fewer receptors
• Up-regulation in response to an antagonist -> more receptors

Question 103

Cross-tolerance

Answer 103

tolerance to one drug is generalized to other drugs in its class

Question 104

Pharmacodynamics

Answer 104

deals with interaction between a drug and receptor

Question 105

Binding affinity

Answer 105

degree of chemical attraction to receptor (potency)

Question 106

Efficacy

Answer 106

actual degree of activity once ligand is bound to receptor

Question 107

Pharmacokinetics

Answer 107

deals with distribution of drug into body

-enter body, get to site of action