Physiology Review

Question 1

What are cells in the motor cortex organized into?

Answer 1

vertical columns

Question 2

What does each vertical column of cell in the motor cortex stimulate?

Answer 2

A group of synergistic muscles or even a single muscle.

Question 3

What is each vertical column of cells in the motor cortex divided into?

Answer 3

6 distinct layers

Question 4

In the motor cortex, which layer is pyramidal cells in?

Answer 4

5th layer

Question 5

What layers does input signals enter in the motor cortex?

Answer 5

layers 2-4

Question 6

What do neurons arising in the 6th layer of the motor cortex communicate with?

Answer 6

With other regions of the cerebral cortex.

Question 7

What are the groups of neurons in the spinal cord?

Answer 7

> sensory (afferent)
anterior motor neurons (efferents)
interneurons

Question 8

What type of fibers do alpha motor neurons give rise to?

Answer 8

A alpha fibers

Question 9

What are interneurons responsible for most of in the spinal cord?

Answer 9

spinal cord integrative function

Question 10

What are the characteristics of interneurons?

Answer 10

> 30X as numerous as anterior motor neurons
small and highly excitable
capable of spontaneous activity
responsible for most of spinal cord integrative function

Question 11

Where are Renshaw cells located?

Answer 11

anterior horns of spinal cord

Question 12

What are Renshaw cells?

Answer 12

inhibitory interneurons in the anterior horns of the spinal cord

Question 13

What do Renshaw cells do?

Answer 13

Transmit inhibitory signals to surrounding motor neurons.

• results in lateral inhibition
• enhance fluidity of limb movement

Transmit inhibitory signals to same motor neuron.
- results in recurrent inhibition

Question 14

Where do Renshaw cells receive collateral branches from?

Answer 14

alpha motor neurons

Question 15

What type of cell innervates muscle spindles?

Answer 15

small gamma motor neurons (group II afferents)

Question 16

What are the two types of intrafusal fibers that make up muscle spindles?

Answer 16

> Nuclear bag fibers

> Nuclear chain fibers

Question 17

What do nuclear bag fibers detect in the muscle spindle?

Answer 17

Rate of change (dynamic change) in muscle length.

Question 18

What do nuclear chain fibers detect in the muscle spindle?

Answer 18

Static change in muscle length.

Question 19

What are nuclear bag fibers innervated by?

Answer 19

group Ia afferents and dynamic gamma efferents

Question 20

What are nuclear chain fibers innervated by?

Answer 20

group II afferent and static gamma efferents

Question 21

Which are more numerous, nuclear chains fibers or nuclear bag fibers?

Answer 21

nuclear chain fibers more numerous

Question 22

How are nuclei arranged in nuclear bag fibers?

Answer 22

multiple nuclei located in a central “bag-like” configuration

Question 23

How are nuclei arranged in nuclear chain fibers?

Answer 23

multiple nuclei arranged in a single row

Question 24

In muscle spindles, what transmits dynamic stretch reflex signals?

Answer 24

signals transmitted from primary nerve endings

Question 25

What action of the muscle elicits a dynamic stretch reflex?

Answer 25

elicited by rapid stretch or unstretch

Question 26

What is the purpose of the dynamic stretch reflex?

Answer 26

opposes sudden changes to muscle length

Question 27

What is the purpose of the static reflex?

Answer 27

causes degree of muscle contraction to remain relatively constant

Question 28

In muscle spindles, what transmits static reflex signals?

Answer 28

signals transmitted by both primary and secondary endings

Question 29

You know muscle spindles have both a dynamic stretch reflex and a static reflex, but what is the main function of these two components combined?

Answer 29

prevents jerkiness of body movements (damping)

Question 30

What does muscle stretch lead to?

Answer 30

direct increase in firing rate of type Ia afferent fibers

> group Ia afferents synapse directly on alpha-motor neurons of the same muscle
muscle contracts and decreases tension on muscle spindle
synergistic muscles are activated and antagonistic muscles are inhibited

Question 31

On which neurons do group Ia afferents synapse directly?

Answer 31

alpha-motor neurons on the same muscle

Question 32

Talk through muscle spindle function.

Answer 32

Slide 7 in Review

Question 33

What are the three major motor control areas of the brain?

Answer 33

• motor cortex
• cerebellum
• basal ganglia

Question 34

What is the function of the premotor and supplementary motor cortices?

Answer 34

Generate a plan for movement.

transfer plan to primary motor cortex

Question 35

True or False:

Signals generated from the premotor and supplementary motor cortices in generating a plan for movement involves more complex patterns of movement than the more discrete pattern generated by the primary motor cortex.

Answer 35

True

Question 36

Which part of the premotor cortex develops a “motor image” of the total muscle movement that is to be performed?

Answer 36

anterior part of premotor cortex

Question 37

Which cortex programs complex motor sequences and is responsible for mental rehearsal for a movement?

Answer 37

supplementary motor cortex

Question 38

Where is the image located in the motor cortex that excites each successive pattern of muscle activity required to achieve the image?

Answer 38

posterior motor cortex

Question 39

Which two pathways does the posterior motor cortex send signals to?

Answer 39

1) –> primary motor cortex

2) –> basal nuclei and thalamus –> primary motor cortex –> cortico-spinal pathways down spine

Question 40

In the pyramidal system, where do upper motor neurons originate?

Answer 40

motor cortices

Question 41

What percentage of upper motor neurons decussate in pyramids and form the lateral corticospnial tract?

Answer 41

75-85%

Question 42

Where do the remaining 15-25% of upper motor neurons that don’t deccussate in pyramids to form the lateral corticospinal tracts decussate near?

Answer 42

Near synapse with lower motor neurons and form anterior corticospinal tracts.

Question 43

What do most upper motor neurons synapse with?

Answer 43

Association neurons in spinal cord central gray.

Question 44

What are upper motor neurons classified according to?

Answer 44

Where they synapse in the ventral horn.

> medial activation system
lateral activation system
nonspecific activating system

Question 45

What does the medial activation system innervate?

Answer 45

postural and girdle muscles

Question 46

What does the lateral activation system innervate?

Answer 46

associated with distally located muscles used for fine movements

Question 47

What does the nonspecific activating system innervate?

Answer 47

facilitate local reflex arcs

Question 48

Which two tracts make up the pyramidal system?

Answer 48

> corticospinal tract

> corticobulbar tract

Question 49

Name the two pyramidal and 3 extrapyramidal tracts that we covered?

Answer 49

> Pyramidal System:

• corticospinal tract
• corticobulbar tract

> Extrapyramidal Tracts:

• rubrospinal tract
• vestibulospinal tract
• reticulospinal tract

Question 50

Where does the rubrospinal tract originate?

Answer 50

Red Nucleus

Question 51

Where does the rubrospinal tract decussate at?

Answer 51

in midbrain

Question 52

Where in the spine does the rubrospinal tract descend?

Answer 52

lateral funiculus (column)

Question 53

What is the function of the rubrospinal tract?

Answer 53

closely related to cerebellar function

Question 54

What do patients with a lesion in their rubrospinal tract present with?

Answer 54

> Impairment of distal arm and hand movement.

> Intention tremors (similar to cerebellar lesions).

Question 55

Where does the vestibulospinal tract originate?

Answer 55

vestibular nuclei

receives major input from vestibular nerve (CN VIII)

Question 56

Where in the spinal cord does the vestibulospinal tract descend?

Answer 56

anterior funiculus (column)

Question 57

What does the vestibulospinal tract synapse with?

Answer 57

lower motor neurons to extensor muscles

Question 58

What is the vestibulospinal tract primarily involved in?

Answer 58

Maintenance of upright posture.

Question 59

Where does the reticulospinal tract originate?

Answer 59

various regions of reticular formation

Question 60

In which part of the spinal cord does the reticulospinal tract descend?

Answer 60

anterior portion of lateral funiculus (column)

Question 61

What is the function of the reticulospinal tract?

Answer 61

Thought to mediate larger movements of trunk and limbs that do not require balance or fine movements of upper limbs.

fills in the gaps

Question 62

What are the 3 components of the vestibular apparatus?

Answer 62

> utricle
saccule
semicircular canals

Question 63

In which plane is the macula of the utricle located in?

Answer 63

horizontal plane

Question 64

In which plane is the macula of the saccule located in?

Answer 64

vertical plane

Question 65

What does the macula in the utricle do?

Answer 65

plays role in determining orientation of head when head is upright

Question 66

What does the macula in the saccule do?

Answer 66

signals head orientation when person is lying down

Question 67

What kind of layer is each macula, both in the utricle and saccule, covered by?

Answer 67

gelatinous layer

Question 68

What does the macula, both in the utricle and saccule, contain within?

Answer 68

> Contains large number of embedded small calcium carbonate crystals (statoconia).

> Contains thousands of hair cells which project cilia into the gelatinous layer.

Question 69

What does the weight of the statoconia (small calcium carbonate crystals) do?

Answer 69

Bends cilia in the direction of gravitational pull.

Question 70

What are the characteristics of hair cells in the vestibular apparatus?

Answer 70

> Has 50-70 small cilia (stereocilia).

> Has 1 large cilium (kinocilium) off set to one side.

> Tips of stereocilia are connected together and to kinocilium.

> Bending of stereocilia toward kinocilium opens hundreds of cation channels (mostly potassium) causing receptor membrane depolarization and excitation.

> Bending of cilia in opposite direction closes channels and hyperpolarizes receptor membrane.

> Hair cells are oriented such that bending the head in different directions causes different groups of hair cells to depolarize.

Question 71

What is the mechanism of hair cell function in the semicircular canals when you move your head?

Answer 71

> When head begins to rotate in any direction, inertia of the fluid in one or more of the semicircular canals remains stationary while semicircular canal rotates with the head.

> Fluid flows from the duct and through the ampulla and causes the cupula to bend to one side.

> Hundreds of hair cells within each cupula detect this bending and send signals via the vestibular nerve.

Question 72

What is the function of the hair cell when the head is bend forward 30 degrees?

Answer 72

> lateral ducts are horizontal

> anterior ducts are in vertical planes projecting forward and 45 degrees outward

> posterior ducts are in vertical planes projecting backward and 45 degrees outward

Question 73

What separates the two hemispheres of the cerebellum?

Answer 73

Vermis

Question 74

What is each hemisphere of the cerebellum divided into?

Answer 74

• intermediate zone

- lateral zone

Question 75

What are the 3 lobes that the cerebellum is divided into?

Answer 75

• anterior lobe
• posterior lobe
• flocculonodular lobe

Question 76

Which lobe of the cerebellum is associated with the vestibular system?

Answer 76

flocculonodular lobe

Question 77

What is the function of the vermis in the cerebellum?

Answer 77

location for control functions for muscle movements of the axial body, neck, shoulders, and hips

Question 78

What is the function of the intermediate zone in the cerebellum?

Answer 78

concerned with controlling muscle contractions in the distal portions of the upper and lower limbs, especially - hands, feet, fingers, and toes

Question 79

What is the function of the lateral zone in the cerebellum?

Answer 79

associated with cerebral cortex with planning of sequential motor movements

Question 80

What does the cortex of the cerebellum consist of?

Answer 80

Consists of transversely arranged narrow gyri called folia.

Question 81

What are the characteristics of the cortex of the cerebellum?

Answer 81

Like the cerebral cortex, this is gray matter and consists of multiple layers of cells, dendrites, and synapses.

Question 82

Which intracerebellar nuclei make up the gray matter of the cerebellum?

Answer 82

• dentate nuclei
• emboliform nuclei
• globose nuclei
• fastigial nuclei

Question 83

What do lesions in the dentate nuclei, emboliform nuclei, and globose nuclei cause?

Answer 83

extremity ataxia

Question 84

Where do dentate, emboliform, and globose nuclei fibers project to?

Answer 84

red nucleus

Question 85

What are motor control are dentate, emboliform, and globose nuclei related to?

Answer 85

Limb musculature and fine manipulative movement.

Question 86

What do patients with a lesion in the fastigial nuclei in the gray matter of the cerebellum present with?

Answer 86

trunk ataxia

Question 87

Where do the fibers from fastigial nuclei in the gray matter of the cerebellum project to?

Answer 87

• reticular formation

- vestibular nuclei

Question 88

What motor activity is the fastigial nuclei located in the gray matter of the cerebellum related to?

Answer 88

Postural activity and limb movements via reticulospinal and vestibulospinal tracts.

Question 89

What cells are found in the cerebellar cortex?

Answer 89

• granular cells
• golgi cells
• basket cells
• stellate cells
• purkinje cells

Question 90

Which cell type in the cerebellar cortex form parallel fibers in the cortex?

Answer 90

granular cells

Question 91

Where do golgi cells project from and to?

Answer 91

From parallel fibers (+); To granular cell bodies (-)

Question 92

Where do basket cells project from and to?

Answer 92

From parallel fibers; To Purkinje axon hillock (-)

Question 93

Where do stellate cells project from and to?

Answer 93

From parallel fibers; To Purkinje dendrites (-)

Question 94

What kind of cells do basket cells and stellate cells provide lateral inhibition to?

Answer 94

Purkinje cells to provide damping.

Question 95

Which cell supplies the ONLY output from the cortex of the cerebellum?

Answer 95

Purkinje cells

Question 96

From what fibers do Purkinje cells receive input from?

Answer 96

parallel fibers

20,000 synapses between parallel fibers and one Purkinje cell

Question 97

True or False:

Output from Purkinje cells to intracerebellar nuclei is always inhibitory.

Answer 97

True

Question 98

True or False:

Purkinje cells have extensive dendritic branching.

Answer 98

True

Question 99

Where do climbing fibers originate from?

Answer 99

medullary olives

Question 100

Where do mossy fibers originate from?

Answer 100

Multiple centers in brainstem and spinal cord, including:
> vestibulocerebellar tract
> spinocerebellar tract
> pontocerebellar tract

Question 101

Where do mossy fibers synapse?

Answer 101

> multiple synapses on Purkinje cells and result in simple spikes

> granule cells in glomeruli

Question 102

Does mossy or climbing fibers play a major role in motor learning?

Answer 102

climbing fibers

Question 103

Do both climbing and mossy fibers make multiple synapses on Purkinje cells?

Answer 103

Yes, but:
> mossy fibers result in simple spikes
> climbing fibers result in complex spikes

Question 104

Which afferent fibers, climbing or mossy, “condition” the Purkinje cells?

Answer 104

climbing fibers

Question 105

What neurotransmitter does Purkinje cells use?

Answer 105

GABA - always inhibitory

Question 106

Where do Purkinje cells axons project to?

Answer 106

> deep cerebellar nuclei

> vestibular nucleus

Question 107

What is the function of Purkinje cells in the cerebellar cortex?

Answer 107

Modulates output of cerebellum and provides synergy (regulates rate, range, and direction of movement).

Question 108

What does the vestibulocerebellum consist of?

Answer 108

• flocculonodular lobes

- vermis

Question 109

What is the function of the vestibulocerebellum?

Answer 109

Control of balance and eye movements.

Question 110

When did the vestibulocerebellum evolve?

Answer 110

evolved at about the same time as vestibular system

Question 111

Where does the vestibulocerebellum primarily send output to?

Answer 111

vestibular system

Question 112

What happens if you lose your flocculonodular lobes in the cerebellum?

Answer 112

extreme disturbance of equilibrium and postural movements

Question 113

Where does the basal nuclei receive most of its input from?

Answer 113

cerebral cortex

Question 114

Where does the basal nuclei return most of its output to?

Answer 114

cerebral cortex

Question 115

What is the principle role of the basal nuclei?

Answer 115

Work with corticospinal system to modulate thalamic output to the motor cortex to plan and execute smooth movements.

Question 116

What paired nuclei does the basal nuclei consist of?

Answer 116

> striatum 
  - caudate nucleus 
  - putamen
> globus pallidus 
> substantia nigra 
> subthalamic nucleus

Question 117

What is the putamen circuit (direct pathway) for?

Answer 117

subconscious execution of learned patterns of movement

Question 118

In the putamen circuit (direct pathway), what is the overall action of dopamine?

Answer 118

excitatory

Question 119

True or False:

The IGP/SubNigRet is normally active and sends inhibitory signals to the thalamus.

Answer 119

True

Question 120

What neurotransmitter does connections between the striatum and the substantia nigra use?

Answer 120

dopamine

Indirect pathway - D2 receptors (-)
Direct pathway - D1 receptors (+)

Question 121

What does exciting the putamen inhibit?

Answer 121

IGP/SubNigRet and allows the thalamus to send excitatory signals to the motor cortex.

Question 122

What is the caudate circuit (indirect pathway) for?

Answer 122

Cognitive planning of sequential and parallel motor patterns.

plays major role in cognitive control of motor activity

Question 123

Is the caudate circuit (indirect pathway) overall inhibitory or excitatory?

Answer 123

inhibitory - tends to decrease control of motor activity

Question 124

Which neurons are destroyed to cause Huntington’s diseas?

Answer 124

GABA neurons that control the inhibitory signal between the caudate nucleus and the globus pallidus (external).

Thus, indirect pathway no longer has inhibitory influence on direct pathway and motor activity is increased.

Question 125

What NT does the substantia nigra use to send signals to the caudate nucleus and putamen?

Answer 125

Dopamine

• direct pathway is (+)
• indirect pathway is (-)

Question 126

What NT does the caudate nucleus and putamen use to send signals to the globus pallidus and substantia nigra?

Answer 126

GABA (inhibitory)

Question 127

What NT does the cerebral cortex use to send signals to the caudate nucleus and putamen?

Answer 127

acetylcholine (excitatory)

Question 128

Multiple pathways from the brain stem use what neurotransmitters?

Answer 128

• norepinephrine
• serotonin (inhibitory)
• enkephalin

Question 129

What doe multiple glutamate pathways provide?

Answer 129

Most of the excitatory signals.

Question 130

What are the characteristics of a patient with Huntington’s?

Answer 130

• flicking movements of individual muscles
• progressive severe distortional movements of entire body
• severe dementia
• motor dysfunctions

Question 131

What are the abnormal movements seen in patients with Huntington’s disease most likely caused by?

Answer 131

Loss of most of cell bodies of GABA-secreting neurons of caudate nucleus and putament and of Ach neurons in other parts of the brain.

Question 132

List the stimulating factors for sweating.

Answer 132

• Stimulation of anterior hypothalaus-pre-optic area in the brain electrically or by excess heat.
• Cholinergic sympathetic nerve fibers (muscarinic).
• Circulating epinephrine and norepinephrine.

Question 133

What is sweating a major mechanism for?

Answer 133

Heat Loss

Question 134

What is the concentration of sodium and chloride in precursor secretion?

Answer 134

Na = 142 mEq/L
Cl = 104 mEq/L

Question 135

What are the characteristics of a strong stimulation of sweat glands?

Answer 135

• Large amounts of precursor secretion are formed.
• Ducts reabsorb only about half the sodium chloride.
• Concentrations of sodium and chloride ions are about 50-60 mEq/L.
• Little water is reabsorbed.

Question 136

What effect does aldosterone have on sweat concentration?

Answer 136

stimulates Na and water reabsorption from sweat glands in exhange for K.

Question 137

True or False:

The composition of precursor secretion is similar to that of plasma w/o proteins.

Answer 137

True

Question 138

What are the principle areas of the brain that affect body temperature?

Answer 138

• anterior hypothalamic/pre-optic area

- pre-optic area

Question 139

The anterior pre-optic area contains both heat-sensitive and cold-sensitive neurons. What do heat sensitive neurons do?

Answer 139

increase firing rate 2-10X in response to a 10 C increase in body temperature

Question 140

The anterior pre-optic area contains both heat-sensitive and cold-sensitive neurons. What do cold-sensitive neurons do?

Answer 140

increase firing rate when temperature falls

Question 141

What does heating of the anterior hypothalamic/pre-optic area cause?

Answer 141

• dilation of skin blood vessels over the entire body
• profuse sweating over the entire body
• inhibition of excess heat production

Question 142

What is the definition of fever?

Answer 142

Fever is defined as a body temperature above the usual range of normal.

Question 143

What are causative factors of fever?

Answer 143

• brain abnormalities
• surgery in region of hypothalamus
• prostaglandins
• lipposaccharide toxins

Question 144

How do pyrogens increase the set point temperature?

Answer 144

Increasing production of IL-2 in phagocytic cells.

> IL-1 causes anterior pituitary to produce prostaglandins.

> IL-1, prostaglandins increase the set point temperature.

> Aspirin decreases set-point temperature by inhibiting cyclooxygenase which results in decrease in production of prostaglandins.

Question 145

Are slow waves action potentials?

Answer 145

No

Question 146

Do slow waves occur spontaneously?

Answer 146

Yes

Question 147

In which interstitial cells do slow waves originate?

Answer 147

Cajal cells (pacemakers)

Question 148

What do slow waves set the maximum frequency of?

Answer 148

Contraction for each part of the GI tract.

Question 149

True or False:

Slow waves may be caused by complex interactions among the smooth muscle cells and the interstitial cells of Cajal (smooth muscle cell electrical pacemakers).

Answer 149

True

Cells of Cajal undergo cyclic changes that periodically open and produce inward (pacemaker) currents that may generate slow wave activity.

Question 150

What do slow waves excite the appearance of?

Answer 150

intermittent spike potentials

spike potentials excite the muscle contraction

Question 151

What do spike potentials excite?

Answer 151

muscle contraction

Question 152

Are spike potentials true action potentials?

Answer 152

Yes

Question 153

When do spike potentials occur?

Answer 153

Automatically when resting membrane potential of GI smooth muscle becomes more positive than -40 mV.

Question 154

What is the relationship between slow wave potential and spike potentials?

Answer 154

Higher the slow wave potential, the greater the frequency of the spike potentials.

Question 155

How much longer does a spike potential last when compared to a typical action potential in a large nerve fiber?

Answer 155

10-40 times (normal AP = 10-20 seconds)

Question 156

What are spike potentials responsible for opening in GI smooth muscle cells?

Answer 156

Calcium channels and smaller number of sodium channels.

channels open slowly and close rapidly

Question 157

What is the stimulus for gastrin secretion?

Answer 157

• small peptides and amino acids in stomach lumen, especially pheynlalanine and tryptophan.
• distension of stomach
• vagal stimulation mediated by GRP (gastrin-releasing peptide)

Question 158

What inhibits gastrin secretion?

Answer 158

• acid from stomach

- somatostatin

Question 159

Where is gastrin secreted from?

Answer 159

• G cells of antrum, duodenum, jejunum.
• in response to stimuli associated with ingestion of a meal (e.g., stomach distension or gastrin releasing peptide (GRP))*

Question 160

What does gastrin do?

Answer 160

• stimulates gastric acid secretion by parietal cells

- stimulates mucosal growth by stimulating synthesis of RNA and new protein

Question 161

Patients with gastrin-secreting tumors have?

Answer 161

hypertrophy and hperplasia of gastric mucosa

Question 162

When does Zollinger-Ellison syndrome occur?

Answer 162

From gasatrin-secreting non-beta cell tumors of pancreas.

Question 163

What stimulates secretion of CCK?

Answer 163

• small peptides and amino acids

- fatty acids and monoglycerides

Question 164

Where is CCK secreted from?

Answer 164

I cells of duodenum, jejunum, and ileum.

Question 165

What are the stimulatory actions of CCK?

Answer 165

• stimulates pancreatic enzyme secretion
• stimulates pancreatic bicarbonate secretion
• stimulates growth of exocrine pancreas
• stimulates contraction of gallbladder and relaxation of sphincter of Oddi for secretion of bile

Question 166

What are the inhibitory action of CCK?

Answer 166

• inhibits gastric emptying

- inhibits appetite

Question 167

What stimulus causes secretion of secretin?

Answer 167

acid and fat in lumen of duodenum

Question 168

Where is secretin released from?

Answer 168

S cells of the duodenum, jejunum, and ileum.

Question 169

What are the stimulatory actions of secretin?

Answer 169

• stimulates pepsin secretion
• stimulates pancreatic bicarbonate secretion
• stimulates biliary bicarbonate secretion
• stimulates growth of exocrine pancreas

Question 170

What are the inhibitory actions of secretin?

Answer 170

inhibits gastric acid secretion by parietal cells

Question 171

What is the stimulus for secretion of GIP?

Answer 171

• only GI hormone released in response to protein, fat, and carbohydrate
• released in response to orally administered glucose

Question 172

What is the site of secretion of GIP?

Answer 172

K cells of duodenum and jejunum.

Question 173

What is the stimulatory action of GIP?

Answer 173

stimulates insulin release

Question 174

What is the inhibitory action of GIP?

Answer 174

inhibits gastric acid secretion by parietal cells

Question 175

Which hormone is the MOST potent factor for control feedback to the duodenum?

Answer 175

CCK