Chapter 13 - Neural Tissue

Question 1

What are the two communication systems?

Answer 1

Nervous system and endocrine system.

Question 2

What does the nervous system do?

Answer 2

Coordinate all body systems and electrochemical signaling.

Question 3

What does the endocrine system use for signaling?

Answer 3

Hormones.

Question 4

What is the general make-up of the nervous system?

Answer 4

CT, BVs, neurons, and neuroglia.

Question 5

What are the 2 divisions of the nervous system?

Answer 5

Central nervous system (CNS) and peripheral nervous system (PNS).

Question 6

What comprises the CNS?

Answer 6

Brain and spinal cord.

Question 7

What comprises the PNS?

Answer 7

Cranial and spinal nerves.

Question 8

CNS characteristics?

Answer 8

Brain and spinal cord, covered by meninges, starts as a hollow tube, bathed in cerebro spinal fluid, and integration center.

Question 9

PNS charcteristics?

Answer 9

Consists of cranial and spinal nerves that contain both sensory and motor fibers, connects CNS to muscles, glands & all sensory receptors, and brings info to and from the CNS.

Question 10

What are the two types of PNS?

Answer 10

Afferent division (sensory) and efferent division (motor).

Question 11

What are the two divisions of the efferent division?

Answer 11

Somatic division (conscious) and autonomic division (unconscious).

Question 12

General functions of nervous system?

Answer 12

Receptor: detect stimuli, sensory: afferent PNS, integrative: CNS, motor: efferent PNS, and effector: muscle/gland.

Question 13

What are the types of nervous tissue?

Answer 13

Neurons and neuroglial cells.

Question 14

Neuron characteristics?

Answer 14

Structural & functional units, excitable, and amitotic.

Question 15

Neuroglial cell characteristics?

Answer 15

Accessory cells and act like connective tissue.

Question 16

What are the three major structures of neurons?

Answer 16

Soma (cell body), dendrites, and axon.

Question 17

Is the soma mononucleated or multinucleated?

Answer 17

Mononucleated.

Question 18

What does the soma consist of?

Answer 18

Nissl bodies, axon hillock, perikaryon, and neurofibrils.

Question 19

Nissl bodies characteristics?

Answer 19

Ribosome clusters; give gray color.

Question 20

Axon hillock characteristics?

Answer 20

Connects soma to axon.

Question 21

Perikaryon characteristics?

Answer 21

Region around the nucleus.

Question 22

Neurofibrils characteristics?

Answer 22

Cytoskeleton that extend into dendrites/axons; gives shape.

Question 23

Dendrite characteristics?

Answer 23

Respond to neurotransmitters, short, branched, unmyelinated, specialized for contact with other neurons, and conducts impulses toward the cell body.

Question 24

Axon characteristics?

Answer 24

Only 1/cell, conducts nerve impulses away from soma, can give off collaterals, wrapped in myelin sheath, end in synaptic terminals, produce neurotransmitters.

Question 25

The axon may contact what?

Answer 25

Another neuron, muscle fibers, and glands.

Question 26

Another name for axonal transport?

Answer 26

Axoplasmic flow.

Question 27

What does axonal transport do?

Answer 27

Move cellular materials (not signals) through the axon.

Question 28

What are the 2 types of axonal transport?

Answer 28

Anterograde and retrograde.

Question 29

What is anterograde axonal transport?

Answer 29

Away from soma; neurotransmitters, organelles, and nutrients.

Question 30

What is retrograde axonal transport?

Answer 30

Toward soma; degraded materials to be recycled & extracellular substances

Question 31

What is the axoplasma?

Answer 31

Cytoplasm of an axon.

Question 32

What does the axoplasma consist of?

Answer 32

Few organelles and cytoskeletal proteins.

Question 33

What do cytoskeletal proteins do?

Answer 33

Form cytoskeleton, maintain shape, and generate axonal transport.

Question 34

What is axolemma?

Answer 34

Plasma membrane of an axon.

Question 35

What does the axolemma consist of?

Answer 35

Collaterals, telodendria, and synaptic terminal.

Question 36

What are collaterals?

Answer 36

Side branches.

Question 37

What are telodendria?

Answer 37

Terminal extensions.

Question 38

What are synaptic terminals?

Answer 38

Where the neuron contacts the postsynaptic cell.

Question 39

How are neurons classified?

Answer 39

Based on the number and morphology of dendrites.

Question 40

What are the types of neurons?

Answer 40

Anaxonic, bipolar, unipolar, and multipolar.

Question 41

What are anaxonic neurons?

Answer 41

Small neurons and axons cannot be distinguished from dendrites (CNS, especially interneurons that coordinate special senses.)

Question 42

What are bipolar neurons?

Answer 42

Several small dendrites converge onto one, dendrite and axon separated by soma, and unmyelinated (sensory neurons of special sensory organs).

Question 43

What are unipolar neurons?

Answer 43

Several small dendrites converge onto one large one, dendrite and axon continuous, and usually myelinated (majority of sensory neurons in PNS).

Question 44

What is another name for unipolar neurons

Answer 44

Pseudo-unipolar.

Question 45

What are multipolar neurons?

Answer 45

Many dendrites extend from soma, long axon, myelinated (majority of motor neurons in PNS and spinal interneurons in CNS).

Question 46

What are the functions of afferent neurons?

Answer 46

Sensory

Question 47

Characteristics of afferent neurons?

Answer 47

Cell body usually are outside CNS, have receptor ends on dendrites or are associated with receptor cells in sense organs, and carry impulses from peripheral body parts to brain or spinal cord.

Question 48

What are the receptors of afferent neurons?

Answer 48

Exteroceptors, proprioceptors, and interoceptors

Question 49

What do exteroceptors do?

Answer 49

Sense touch, temperature, pressure, light, and chemicals.

Question 50

What do proprioceptors do?

Answer 50

Monitor muscle and skeleton position.

Question 51

What do interoceptors do?

Answer 51

Monitor internal systems (digestion, respiratory, urinary, etc.).

Question 52

Where are interneurons found?

Answer 52

Only in CNS.

Question 53

How are interneurons classified?

Answer 53

Based on effects.

Question 54

What are the types of classification of interneurons?

Answer 54

Excitatory and inhibitory.

Question 55

What is the function of efferent neurons?

Answer 55

Motor function.

Question 56

Characteristics of efferent neurons?

Answer 56

Cell body usually inside CNS and carry impulses from the brain or spinal cord to peripheral body parts.

Question 57

What are the types of efferetn neurons?

Answer 57

Somatic and autonomic/visceral.

Question 58

What do somatic neurons do?

Answer 58

Control skeletal muscle.

Question 59

What do autonomic/visceral neurons do?

Answer 59

Control smooth muscles/glands.

Question 60

What are the neurgolial cells of the PNS.

Answer 60

Satellite and schwann cells

Question 61

What are the neuroglial cells of the CNS.

Answer 61

Astrocytes, oligodendrocytes, ependymal cells, and microglia

Question 62

Astrocytes characteristics?

Answer 62

Largest, most common, and star shaped.

Question 63

Functions of astrocytes?

Answer 63

Structure and repair, metabolism, regulate ions and nutrition, guide neurons to target, and form blood-brain barrier.

Question 64

Oligodendrocytes characteristics?

Answer 64

Like astrocytes but smaller.

Question 65

Functions of oligodendrocytes?

Answer 65

Form myelin in CNS and sequester debris.

Question 66

Microglia characteristics?

Answer 66

Smallest, least common, and derived from myeloid cells.

Question 67

Functions of microglia?

Answer 67

Help support neurons, phagocytosis, and increase in number during injury or disease.

Question 68

Ependymal cell characteristics?

Answer 68

Columnar/cuboidal, microvilli on luminal surface, and joined by gap junctions.

Question 69

Functions of ependymal cells?

Answer 69

Help produce cerebrospinal fluid (CSF), form porous layer, and monitor CSF composition.

Question 70

Satellite cell characteristics?

Answer 70

Associated with soma.

Question 71

Functions of satellite cells?

Answer 71

Assist with exchange of nutrients and isolates neuron from extraneous stimuli.

Question 72

Schwann cell characteristics?

Answer 72

Produce myelin in PNS and encloses axons of longer peripheral nerves.

Question 73

Functions of schwann cells?

Answer 73

Support neurons, prevent contact, and myelinate large PNS axons.

Question 74

Unmyelinated axon characteristics?

Answer 74

Appear gray, many axons associate with a single schwann cell, and CNS; no glial cells (rarely are PNS axons without ANY covering.).

Question 75

Myelinated axon characteristics?

Answer 75

Appear white, CNS; oligodendrocytes myelinate part of several axons, and PNS; schwann cell meylinates part of one axon.

Question 76

Myelin structure?

Answer 76

Myelin, neurilemma, and nodes of ranvier.

Question 77

What is myelin?

Answer 77

Plasma membrane of schwann cell wrapped around axon.

Question 78

What is neurilemma?

Answer 78

Part of schwann cell that contains cytoplasm.

Question 79

What are nodes of ranvier?

Answer 79

Gaps in myelin sheath.

Question 80

When does the myelination process start and end?

Answer 80

Starts at week 14 and completed by age 2-3 years.

Question 81

What are the functions of myelin?

Answer 81

Isolate axons and increase rate of action potential.

Question 82

Can PNS fibers regenerate?

Answer 82

Yes, but only a fraction of the axon.

Question 83

What is regeneration of the PNS fibers called?

Answer 83

Wallerian degeneration.

Question 84

What happens when the axon separates from the cell body?

Answer 84

Distal portion of axon will deteriorate along with myelin sheath, macrophages clean up, some schwann cells remain, get thin basement membrane and layer of CT around schwann cell, hollow tube forms, proximal end sprouts, remain schwann cells produce new myelin.

Question 85

How much does an axon grow per day?

Answer 85

3-4 mm.

Question 86

Repair in CNS?

Answer 86

Is more limited, degeneration occurs after injury, oligodendrocytes do not proliferate, proximal end sprouts but has no tube to folow, and astrocytes produce scar tissue an chemicals blocking regrowth.

Question 87

Nerve impulse types?

Answer 87

Irritability, excitability, action potential, and nerve impulse.

Question 88

What is irritability?

Answer 88

Abilitiy to respond to stimuli.

Question 89

What is excitability?

Answer 89

Ability to transmit an impulse.

Question 90

What is the action potential?

Answer 90

An electrical impulse changing the permeability of a membrane.

Question 91

What is the nerve impulse?

Answer 91

AP moving down an axon.

Question 92

When do impulses travel faster?

Answer 92

Axon is myelinated and has a larger diameter.

Question 93

Synapse characteristics?

Answer 93

Functions as control/transmission point and site of communication.

Question 94

What do synapse communicate with?

Answer 94

Sensory structure and neuron, neuron and effector, 2 neurons, and any two cells with gap junctions.

Question 95

What are the types of synapses?

Answer 95

Electrical and chemical.

Question 96

Electrical synapse characteristics and example?

Answer 96

Gap junctions cause the exchange of charged ions between two cells. Intercalated disk in cardiac muscle.

Question 97

Chemical synapse characteristics and examples?

Answer 97

Chemicals are release by one cell and travel to another. Neuromuscular junction and neuron-neuron contact.

Question 98

Chemical synapse characteristics?

Answer 98

Synaptic vesicles house neurtransmitter, only exist in the presynatpic cell, release neurotransmitter into the synaptic cleft, receptors on post synaptic membrane register neurotransmitter, proliferates AP from one cell to the next, and communication in one direction only.

Question 99

What are the steps at chemical synapse?

Answer 99

AP reaches synaptic knob of presynaptic neuron, neurotransmitter released, neurotransmitter crosses cleft and binds to receptors in post synaptic membrane, get change in permeability, and neurotransmitter is then removed from synaptic cleft.

Question 100

Neuronal pool characteristics?

Answer 100

Recieve impulses from afferent fibers (input), impulses carried away on efferent fibers (output), and afferent fibers can branch many times as they enter a pool.

Question 101

What are the types of neuronal pools?

Answer 101

Convergence, divergence, serial processing, parallel processing, and reverberation.

Question 102

What are serial processing neuronal pools?

Answer 102

One neuron to another in series.

Question 103

What are divergence neuronal pools?

Answer 103

When impulses leaves a pool, it may spread into several output fibers and allows impulse to be amplified.

Question 104

What are convergence neuronal pools?

Answer 104

Single nerve in pool may receive impulses from 2 or more incoming fibers, if lead to same nerve; they are said to converg, and allows summation of impulses from different sources.

Question 105

What are parallel processing neuronal pools?

Answer 105

Processing information from several neurons at once.

Question 106

What are reverberation neuronal pools?

Answer 106

Positive feedback continues activity of circuit.

Question 107

What is facilitation?

Answer 107

One neuron may receive either excitatory and inhibitory stimuli from multiple neurons, the net effect of all this input results in a net charge, and if charge is positive enough it will result in an AP.

Question 108

What is the AP produced called.

Answer 108

Threshold.

Question 109

What happens in facilitation if neuron is below threshold?

Answer 109

No impulse, but nerve is more excitable to next impulse, nerve is said to be facilitated.

Question 110

What does facilitation allow?

Answer 110

Multiple sources to manage the nervous system.

Question 111

CNS structures?

Answer 111

Nuclei, center, and tracts

Question 112

What is the nuclei?

Answer 112

Collection of neuron cell bodies.

Question 113

What is the center?

Answer 113

Collection of neuron cell bodies working together.

Question 114

What are the tracts?

Answer 114

Bundles of axons.

Question 115

PNS structures?

Answer 115

Ganglia and nerves.

Question 116

What are ganglia?

Answer 116

Collection of neuron cell bodies.

Question 117

What are nerves.

Answer 117

Bundles of axons.