0-1 Chapter 13 the Spinal Cord

Question 1

paraplegia

Answer 1

paralysis of lower limbs

Question 2

quadriplegia

Answer 2

paralysis of all four limbs

Question 3

hemiplegia

Answer 3

paralysis of one side of the body only

Question 4

Functions of the Spinal Cord

Answer 4

conduction
locomotion
reflexes

Question 5

central pattern generators

Answer 5

are pools of neurons providing control of flexors and extensors that cause alternating movements of the lower limbs

Question 6

spinal cord

Answer 6

cylinder of nervous tissue that arises from the brainstem at the foramen magnum of the skull

Question 7

Number of Spinal Nerves

Answer 7

31 pair of spinal nerves
•first pair passes between the skull and C1
•rest pass through intervertebral foramina

Question 8

spinal cord ends at

Answer 8

inferior margin ends at L1 or a little beyond

occupies the upper two-thirds of the vertebral canal

Question 9

segment

Answer 9

part of the spinal cord supplied by each pair of spinal nerves

Question 10

spinal cord divided into the

Answer 10

cervical, thoracic ,lumbar, and sacral regions

Question 11

two areas of the cord are thicker than elsewhere

Answer 11

• cervical enlargement –nerves to upper limb

* lumbar enlargement –nerves to pelvic region and lower limbs

Question 12

medullary cone (conus medullaris)

Answer 12

cord tapers to a point inferior to lumbar enlargement

Question 13

cauda equina

Answer 13

bundle of nerve roots that occupy the vertebral canal from L2 to S5

Question 14

meninges

Answer 14

three fibrous connective tissue membranes that enclose the brain and spinal cord
–separate soft tissue of central nervous system from bones of cranium and vertebral canal

Question 15

Meninges of the Spinal Cord

from superficial to deep

Answer 15

dura mater, arachnoid mater, and pia mater

Question 16

dura mater

Answer 16

–forms loose-fitting sleeve around spinal cord –dural sheath

–tough, collagenous membrane surrounded by

Question 17

arachnoid mater

Answer 17

arachnoid membrane

subarachnoid space

Question 18

arachnoid membrane

Answer 18

layer of simple squamous epithelium lining dura mater and a loose mesh of collagenous and elastic fibersspanning the gap between the arachnoid membrane and the pia mater

Question 19

subarachnoid space

Answer 19

gap between arachnoid membrane and the pia mater

•filled with cerebrospinal fluid (CSF)

Question 20

lumbar cistern

Answer 20

subarachnoid space inferior to medullary cone that contains cauda equina and CSF

Question 21

pia mater

Answer 21

–delicate, translucent membrane that follows the contours of the spinal cord

Question 22

terminal filum

Answer 22

fibrous strand of pia mater that extends beyond the medullary cone within the lumbar cistern

Question 23

coccygeal ligament

Answer 23

formed from fusion of terminal filum and dura mater

•anchors the cord and meninges to vertebra Co1

Question 24

denticulate ligaments

Answer 24

extend through the arachnoid to the dura

•anchors spinal cord to limit side to side movement

Question 25

spina bifida

Answer 25

congenital defect in which one or more vertebrae fail to form a complete vertebral arch for enclosure of the spinal cord
–in 1 baby out of 1000
–common in lumbosacral region

Question 26

folic acid

Answer 26

(a B vitamin) as part of a healthy diet for all women of childbearing age reduces risk

Question 27

gray matter

Answer 27

neuron cell bodies with little myelin

–site of information processing –synaptic integration

Question 28

white matter –

Answer 28

abundantly myelinated axons

–carry signals from one part of the CNS to another

Question 29

Gray Matter in the Spinal Cord

Answer 29

spinal cord has a central core of gray matter that looks like a butterfly-or H-shaped in cross section

Question 30

posterior (dorsal) root of spinal nerve carries only

Answer 30

sensory fibers

Question 31

anterior (ventral) root of spinal nerve carries only

Answer 31

motor fibers

Question 32

gray commissure

Answer 32

connects right and left sides

•punctured by a central canal lined with ependymal cells and filled with CSF

Question 33

lateral horn

Answer 33

visible from T2 through L1

•contains neurons of sympathetic nervous system

Question 34

White Matter in the Spinal Cord

Answer 34

white matter of the spinal cord surrounds the gray matter
•consists of bundles of axons that course up and down the cord
–provide avenues of communication between different levels of the CNS

Question 35

columns or funiculi

Answer 35

three pair of these white matter bundles

–posterior(dorsal), lateral, and anterior(ventral) columns on each side

Question 36

tracts or fasciculi

Answer 36

subdivisions of each column

Question 37

ascending tracts

Answer 37

carry sensory information up the spinal cord

Question 38

descending tracts

Answer 38

carry motor information down the spinal cord

–all nerve fibers in a given tract have a similar origin, destination, and function

Question 39

decussation

Answer 39

as the fibers pass up or down the brainstem and spinal cord they cross over from the left to the right side and vice versa

Question 40

contralateral

Answer 40

when the origin and destination of a tract are on opposite sides of the body

Question 41

ipsilateral

Answer 41

when the origin and destination of a tract are on the same side of the body
–does not decussate

Question 42

Ascending Tracts

Answer 42

• ascending tracts carry sensory signals up the spinal cord
• sensory signals travel across three neurons from origin in receptors to the destination in the sensory areas of the brain

Question 43

sensory signals travel across three neurons

Answer 43

first order neurons
second order neurons
third order neurons

Question 44

first order neurons

Answer 44

detect stimulus and transmit signal to spinal cord or brainstem

Question 45

second order neurons

Answer 45

continues to the thalamus at the upper end of the brainstem

Question 46

Ascending tracts decussates at

Answer 46

Second order neuron

Question 46

third order neurons

Answer 46

carries the signal the rest of the way to the sensory region of the cerebral cortex

Question 47

Major Ascending Tracts

Answer 47

• gracile fasciculus
• cuneate fasciculus
• spinothalamic tract
• spinoreticular tract
• posterior (dorsal) and anterior (ventral) spinocerebellar tracts

Question 48

Gracile fasciculus

Answer 48

Three neuron pathway
CONTRALATERAL
Carries touch and vibration from lower part of body (below t6)
First order neuron - unipolar - sensor to brainstem - cell body posterior root ganglion
Second order neuron - multipolar - begins with cell body in brainstem - crosses over at brainstem and continues contra laterally to thalamus
Third order neuron - multipolar - cell body in thalamus and axon goes to cortex

Question 49

Cuneate fasciculus

Answer 49

Three neuron pathway
CONTRALATERAL
Carries touch and vibration from upper part of body (above t6)
First order neuron - unipolar - sensor to brainstem - cell body posterior root ganglion
Second order neuron - multipolar - begins with cell body in brainstem - crosses over at brainstem and continues contra laterally to thalamus
Third order neuron - multipolar - cell body in thalamus and axon goes to cortex

Question 50

Spinothalamic tract

Answer 50

Three neuron pathway
Carries pain and temperature
First - unipolar- ends in posterior horn of spinal cord at level it enters -
Second - multipolar - cell body in posterior horn at spinal cord level where first entered - decussates at level of spinal cord and ascends CONTRALATERAL to the thalamus
Third order - multipolar - thalamus to cortex

Question 51

Spinorecticular

Answer 51

Four neuron pathway
Carry pain
First - unipolar- ends in posterior horn of spinal cord at level it enters -
Second - multipolar - cell body in posterior horn at spinal cord level where first entered - decussates at level of spinal cord and ascends CONTRALATERAL to the brainstem (reticular formation)
Third order - multipolar- from brainstem (reticular formation) to the thalamus
Fourth order - multipolar - thalamus to cortex

Question 52

Spinocerebellar tracts

Answer 52

Two neuron
Ipsilateral
Carry proprioceptive signals
First order - unipolar - end in posterior horn of spinal cord
Second order neuron - begins in posterior horn of spinal cord

Anterior tract—posterior horn, decussates at level, ascends to cerebellum and decussates again

Posterior tract–posterior horn, ascends to cerebellum

Question 53

proprioception

Answer 53

nonvisual sense of the position and movements of the body

Question 54

medial lemniscus

Answer 54

formed from the second-order neurons of gracile and cuneate systems that decussate in the medulla
–tracts of these nerve fibers lead the rest of the way to the thalamus

Question 55

descending tracts

Answer 55

carry motor signals down the brainstem and spinal cord

Question 56

descending tracts

involves two neurons

Answer 56

upper motor neuron

lower motor neuron

Question 57

two neuron pathway

Answer 57

–upper motor neuron in cerebral cortex

–lower motor neuron in spinal cord

Question 58

upper motor neuron

Answer 58

originate in cerebral cortex or brainstem and terminates on a lower motor neuron

Question 59

lower motor neuron

Answer 59

in brainstem or spinal cord

Question 60

Lower motor neuron

Answer 60

Alpha motor neuron

Question 61

axon of lower motor neuron

Answer 61

leads the rest of the way to the muscle or other target organ

Question 62

Corticospinal tracts

Answer 62

Carry motor information for precise movements

Anterior and lateral

Question 63

Corticospinal tracts lateral

Answer 63

Two neuron
CONTRALATERAL
Multipolar
Cell body upper motor neuron in cortex - axon decussates in medulla and descends in lateral corticospinal tract and stops in anterior horn of spinal cord at level it needs to exit
Lower motor neuron exits through anterior root, joins spinal nerve and goes to muscle forming neuromuscular junction

Question 64

Anterior corticospinal tract

Answer 64

Two neuron
CONTRALATERAL
Multipolar
Cell body upper motor neuron in cortex - axon descends to exit level and decussates and stops in anterior horn of spinal cord at level it needs to exit
Lower motor neuron exits through anterior root, joins spinal nerve and goes to muscle forming neuromuscular junction

Question 65

pyramids

Answer 65

ridges on anterior surface of the medulla oblongata formed from fibers of this system

Question 66

tectum

Answer 66

midbrain region

Question 67

Poliomyelitis and ALS

Answer 67

both diseases cause destruction of motor neurons and production of skeletal muscle atrophy from lack of innervation

Question 68

poliomyelitis

Answer 68

–caused by the poliovirus
–destroys motor neurons in brainstem and anterior horn of spinal cord
–signs of polio include muscle pain, weakness, and loss of some reflexes
•followed by paralysis, muscular atrophy, and respiratory arrest
–virus spreads by fecal contamination of water

Question 69

amyotrophic lateral sclerosis (ALS)

Answer 69

Lou Gehrig disease
–destruction of motor neurons and muscular atrophy
–also sclerosis(scarring) of lateral regions of the spinal cord
–astrocytes fail to reabsorb the neurotransmitter glutamate from the tissue fluid
•accumulate to toxic levels

Question 70

spinal cord communicates with the rest of the body by way of

Answer 70

spinal nerves

Question 71

nerve

Answer 71

a cordlike organ composed of numerous nerve fibers (axons) bound together by connective tissue

Question 72

mixed nerves

Answer 72

contain both afferent (sensory) and efferent (motor) fibers

Question 73

nerves of peripheral nervous system are ensheathed in

Answer 73

Schwann cells

Question 74

Schwann cells

Answer 74

–forms neurilemma and often a myelin sheath around the axon
–external to neurilemma, each fiber is surrounded by basal lamina and then a thin sleeve of loose connective tissue –endoneurium

Question 75

fascicles

Answer 75

nerve fibers gathered in bundles

Question 76

perineurium

Answer 76

wraps fascicles

•composed of up to 20 layers of overlapping, squamous , epithelium-like cells

Question 77

epineurium

Answer 77

bundles numerous fascicles that constitutes whole nerve
•composed of dense irregular connective tissue
•protects nerve from stretching and injury

Question 78

Classification of Nerve Fibers

Answer 78

sensory (afferent) nerves

Question 79

sensory (afferent) nerves

Answer 79

–carry signals from sensory receptors to the CNS

Question 80

motor (efferent) nerves

Answer 80

–carry signals from CNS to muscles and glands

Question 81

mixed nerves

Answer 81

–consists of both afferent and efferent fibers

–conduct signals in two directions

Question 82

ganglion

Answer 82

cluster of neurosomas outside the CNS

–enveloped in an endoneurium continuous with that of the nerve

Question 83

Number of Spinal nerves

Answer 83

31 pairs of spinal nerves (mixed nerves)

Question 84

spinal nerves by segment

Answer 84

–8 cervical (C1 –C8) C1 between skull and atlas
•others exiting at intervertebral foramen
–12 thoracic (T1 –T12)
–5 lumbar (L1 –L5)
–5 sacral (S1 –S5)
–1 coccygeal (Co)

Question 85

proximal branches

Answer 85

–each spinal nerve has two points of attachment to the spinal cord
–posterior (dorsal) root is sensory input to spinal cord
–anterior (ventral) root is motor output out of spinal cord

Question 86

posterior (dorsal) root

Answer 86

is sensory input to spinal cord

•posterior (dorsal) root ganglion –contains the somas of sensory neurons carrying signals to the spinal cord

Question 87

anterior (ventral) root

Answer 87

is motor output out of spinal cord

•six to eight rootlets that leave spinal cord and converge to form anterior root

Question 88

cauda equina

Answer 88

formed from roots that arise from L2 to Co

Question 89

distal branches of spinal nerves

Answer 89

distal to vertebral foramen, the nerve divides into:
anterior ramus
posterior ramus
meningeal branch

Question 90

anterior ramus

Answer 90

innervates the anterior and lateral skin and muscles of the trunk
•gives rise to nerves of the limbs

Question 91

posterior ramus

Answer 91

innervates the muscles and joints in that region of the spine and the skin of the back

Question 92

meningeal branch

Answer 92

reenters the vertebral canal and innervates the meninges, vertebrae and spinal ligaments

Question 93

Nerve Plexuses

Answer 93

anterior rami branch and anastomose repeatedly to form five nerve plexuses:

Question 94

Nerve Plexuses

5

Answer 94

cervical plexus
brachial plexus
lumbar plexus
sacral plexus
coccygeal plexus

Question 95

cervical plexus

Answer 95

in the neck, C1 to C4

•supplies neck and phrenic nerve to the diaphragm

Question 96

brachial plexus

Answer 96

near the shoulder, C5 to T1
Musculocutaneous
Radial
Axillary
Median
Ulnar

Question 97

lumbar plexus

Answer 97

in the lower back, L1 to L4
Femoral
Obturator

Question 98

somatosensory function

Answer 98

carry sensory signals from bones, joints, muscles, and the skin

Question 99

sacral plexus

Answer 99

in the pelvis, L4, L5 and S1 to S3

Sciatic nerve

Common fibular
Tibular

Question 100

proprioception

Answer 100

brain receives information about body position and movements from nerve endings in muscles, tendons, and joints

Question 101

motor function

Answer 101

primarily to stimulate muscle contraction

Question 102

radial nerve injury

Answer 102

–passes through axilla
–crutch paralysis
–wrist drop

Question 103

sciatic nerve injury

sciatica

Answer 103

sharp pain that travels from gluteal region along the posterior side of the thigh and leg to ankle
–ninety percent of cases result from herniated intervertebral disc or osteoporosis of lower spine

Question 104

chickenpox

Answer 104

common disease of early childhood
–caused by varicella-zoster virus
–produces itchy rash that clears up without complications
•virus remains for life in the posterior root ganglia
–kept in check by the immune system

Question 105

shingles

Answer 105

shingles(herpes zoster) –localized disease caused by the virus traveling down the sensory nerves by fast axonal transport when immune system is compromised
–common after age of 50
–painful trail of skin discoloration and fluid-filled vesicles along path of nerve
–usually in chest and waist on one side of the body

Question 106

dermatome

Answer 106

a specific area of the skin that receives sensory input from a pair of spinal nerves

Question 107

dermatome map

Answer 107

a diagram of the cutaneous regions innervated by each spinal nerve

Question 108

dermatomes overlap their edges as much as

Answer 108

50%

–necessary to sever or anesthetize three successive spinal nerves to produce a total loss of sensation in one dermatome

Question 109

reflexes

Answer 109

quick, involuntary, stereotyped reactions of glands or muscle to stimulation
–automatic responses to sensory input that occur without our intent or often even our awareness

Question 110

four important properties of a reflex

Answer 110

require stimulation
quick
involuntary
stereotyped

Question 111

reflexes include

Answer 111

glandular secretion and contraction of all three types of muscle

Question 112

conditioned reflexes

Answer 112

include some learned responses

Question 113

somatic reflexes

Answer 113

since they involve the somatic nervous system

Question 114

pathway of reflex arc

Answer 114

somatic receptors
afferent nerve fibers
integrating center
efferent nerve fibers
skeletal muscles

Question 115

muscle spindle

Answer 115

stretch receptors embedded in skeletal muscles

Question 116

proprioceptors

Answer 116

specialized sense organs to monitor the position and movement of the body parts

Question 117

stretch (myotatic) reflex

Answer 117

when a muscle is stretched, it ‘fights back’ and contracts which maintains increased tonus, making it stiffer than unstretched muscle

Question 118

tendon reflex

Answer 118

reflexive contraction of a muscle when its tendon is tapped

Question 119

knee-jerk (patellar) reflex

Answer 119

is monosynaptic reflex

•one synapse between the afferent and efferent neurons

Question 120

reciprocal inhibition

Answer 120

reflex phenomenon that prevents muscles from working against each other by inhibiting the antagonist

Question 121

flexor reflex

Answer 121

the quick contraction of flexor muscles resulting in the withdrawal of a limb from an injurious stimulus
•requires contraction of the flexors and relaxation of the extensors in that limb

Question 122

polysynaptic reflex arc

Answer 122

pathway in which signals travel over many synapses on their way back to the muscle

Question 123

crossed extension reflex

Answer 123

the contraction of extensor muscles in the limb opposite of the one that is withdrawn
–maintains balance by extending other leg

Question 124

ipsilateral reflex arc

Answer 124

one in which the sensory input and the motor output are on the same sides of the spinal cord
–flexor reflex

Question 125

contralateral reflex arc

Answer 125

one in which the input and output are on opposite sides

–crossed extension reflex

Question 126

intersegmental reflex

Answer 126

one in which the input and output occur at different levels (segments) of the spinal cord

Question 127

The Tendon Reflex

Answer 127

in response to excessive tension on the tendon
–inhibits muscle from contracting strongly
–moderates muscle contraction before it tears a tendon or pulls it loose from the muscle or bone

Question 128

tendon reflex

organs

Answer 128

proprioceptors in a tendon near its junction with a muscle

–Golgi tendon organ -1mm long, nerve fibers entwined in collagen fibers of the tendon

Question 129

complete transection–

Answer 129

complete severance of cord
–immediate loss of motor control below level of injury
–above C4 poses the threat of respiratory failure
–spinal shock
–paralysis

Question 130

paraplegia

Answer 130

paralysis of both lower limbs

Question 131

quadriplegia

Answer 131

paralysis of all four limbs

Question 132

hemiplegia

Answer 132

paralysis on one side of the body

Question 133

paresis

Answer 133

partial paralysis or weakness of the limbs