Extra Neuro

Question 1

Where are muscle spindles found?

Answer 1

Fibres within hidden within the contractile fibres (intrafusal)

Question 2

What are muscle spindles innervated by?

Answer 2

Gamma motor neurons

Question 3

What is a muscle spindle?

Answer 3

Stretch receptors that are wrapped round intrafusal muscle fibres (within the muscle)

Question 4

Withdrawal reflex: what does reciprocal innervation of antagonistic muscles explain?

Answer 4

It explains why the contraction of one muscle induces the relaxation of the other; this permits the execution of smooth movements.

Question 5

What do golgi tendon organs measure?

Answer 5

Mechanoreceptors that measure changes in tension of a muscle.

Question 6

What nerve fibres innervate golgi tendon organs?

Answer 6

Afferent type 1b sensory nerve fibres (inhibitory).

Question 7

What is the response of golgi tendon organs if they detect a change in tension?

Answer 7

They inhibit alpha motor neurones to prevent muscle contraction if the force gets too great.

Question 8

What is a LMN?

Answer 8

A neurone that carries signals to effectors. The cell body is located in the brain stem or spinal cord.

Question 9

What is an UMN?

Answer 9

A neurone that is located entirely in the CNS. Its cell body is located in the primary motor cortex.

Question 10

What are the signs of UMN weakness?

Answer 10

• Increased muscle tone.
• Hyper-reflexia.
• Spasticity.
• Minimal muscle atrophy.

Question 11

What are the signs of LMN weakness?

Answer 11

• Decreased muscle tone.
• Hypo-reflexia.
• Flaccid.
• Muscle atrophy.
• Fasciculations.

Question 12

Define a Motor pool

Answer 12

All the lower motor neurones that innervate a single muscle

* The motor pool contains both the alpha and gamma motor neurons (see later)
* Motor pools are often arranged in a rod like shape within the ventral horn of the spinal column

Question 13

What do medial alpha neurones (near the spinal chord supply)

Answer 13

Proximal muscles

Question 14

What do lateral alpha neurones supply

Answer 14

distal muscles

Question 15

Define motor unit

Answer 15

an alpha neurone and all the extrafusal skeletal muscle fibres it innervates

Question 16

What does it mean if a motor unit has a small amount of muscle fibres?

Where would you see this?

Answer 16

it allows for greater movement resolution, as there is a greater variation of movement

In the finger tips or tongue

Question 17

Where do first order neurones for the olfactory nerve synapse?

Answer 17

in the olfactory bulb

Question 18

Where is the degree of pain judged?

Answer 18

in the insula

Question 19

Where is the emotional response to pain generated?

Answer 19

The cingulate gyrus

Question 20

What is a collection of cell bodies called in the
a CNS?
b PNS

Answer 20

a Nucleus

b Ganglion

Question 21

What is a collection of axons called in the
a CNS?
b PNS

Answer 21

a Tract

b Nerve

Question 22

What neuroens are mylinated?

Answer 22

A and B fibres

Question 23

What the differnece between A and B fibres? (they are both mylinated)

Answer 23

A is THICK
B is THIN

A transmission speed is 100m/sec
B transmission speed is 10m/sec

Question 24

What kind of fibres are unmylinated?

Answer 24

C fibres, they are very thin

Their transmission speed is 1m/sec

Question 25

what makes up myelin in the
a CNS
b PNS

Answer 25

CNS - Oligodendrocytes

PNS - Schwann Cells

Question 26

In the spinal chord, what is conveyed in the
a VENTRAL ROOT/RAMUS
b DORSAL ROOT/RAMUS

Answer 26

Ventral root - Motor, efferent

Dorsal Root - Sensory, afferent

Question 27

What can the motor branches either be?

Answer 27

Autonomic (can be sensory or motor)

or Somatic

Question 28

Will somatic nerves relay in a Ganglia ?

Answer 28

no. it will go straight to whatever it innervates

Because they have to be fast
This is why they use A fibres

Question 29

Will Autonomic nerves relay in a ganglia?

Answer 29

Yes. Fibres before it are known as pre ganglionic, fibres after are known as post ganglionic

(they are distribution centres for regulation. One nerve eg Vagus can split and supply different regions of the stomach, for example)
because of this however, they aren’t as fast

Question 30

Do we have more somatic or autonomic fibres in our bodies? Why

Answer 30

Have more somatic, so we can carry out more fine movements

Question 31

What fibres does the autonomic system use?

Answer 31

B and C fibres.

They are slower than A fibres

Question 32

Autonomic and somatic - which came from lateral horn and which came from the anterior horn

Answer 32

Autonomic - lateral horn

Somatic - Anterior horn

Question 33

What neurotransmitter do preganglionic fibres secrete?

Answer 33

Always Acetylcholine

Question 34

What neurotransmitter do post ganglionic fibres secrete?

Answer 34

It depends

Parasympathetic - Acetylcholine

Sympathetic -
Noradrenaline
(—> Exception for sympathetic postganglionic is sweat glands. - They secrete Ach )

Question 35

What do microglia do?

Answer 35

Primary defence of the CNS
They are the resident macrophage of the brain and spinal chord

Remove things like Damged neurons, pathogens etc

Question 36

Astrocytes are a type of Macroglia. What is the role of Astrocytes?

Answer 36

Provide Nutrient support to neurones
Regulating Communication between neurons
Help repair damaged neurons
Form part of and maintain the blood - brain barrier

Question 37

Astrocytes are a type of Macroglia. What is the role of Ependymal cells?

Answer 37

They are found in the ventricles, and produce cerebrospinal fluid, that has many roles such as protecting the brain from injury and removing waste products from the brain.

Question 38

Radial Glia are a type of Macroglia. What is the role of Them?

Answer 38

they are involved in neurogenesis, and help new neurons travel through the brain

Question 39

What is the indirect pathway of the Basal ganglia? For stopping movement

Answer 39

Striatum =(Which excites)=> External Globus Pallidus =(Which Inhibits)=> The Subthalamic nucleus =(which Inhibits)=> Internal Globus Pallidus =(which Inhibits)=> Thalamus =(which Inhibits)=> The cerebral cortex

So one excitatory and then 4 inhibitory

Striatum, External Globus Pallidus, Subthalamic Nucleus, Internal Globus Pallidus, Thalamus, Classroom

Sam’s Extremely Stupid In The Classroom.

Question 40

What is the Direct pathway of the Basal ganglia? For initiating movement -

Answer 40

Cerebral cortex.
Then: Striatum =(Inhibits)=> Internal Globus Pallidus =(Inhibits)=> Thalamus (double inhibition means thalamus is excited) so Thalamus can excite the cerebral cortex == Movement

Sam Is Terribly Confused =
Striatum, Internal Globus Pallidus, Thalamus, Cerebral Cortex

Question 41

What are the DCML pathways responsible for?

Answer 41

These are responsible for FINE TOUCH AND TACTILE SENSATION, VIBRATION, PROPRIOCEPTION etc.

Question 42

What is the DCML pathway for the
a Upper limb Above T6
b Lower limb below T6

Answer 42

Signals from the lower limb (below T6) tend to travel in the Fasciculus Gracilis
(so they then Synapse in the Gracile Nucleus of the Medulla)

Signals from the upper limb (above T6) tend to travel in the Fasciculus Cuneatus
(so they then Synapse in the Cuneate Nucleus of the Medulla)
*graciLis = L for Leg of Lower Limb

Fasciculus Gracilleus is more medial than fasciculus Cuneatus

Question 43

describe the DCML pathway

Answer 43

• Afferent signals are carried along first order neurones to and up the Dorsal columns (from proprioception receptors) to then synapse in the medulla.
• 2nd order Neurones then DECUSSATE IN THE MEDULLA and travel up to the THALAMUS where they synapse again.
• 3rd order neurones then travel through the internal capsule to the somatosensory cortex in the Parietal mode (postcentral gyrus)

Question 44

what would be seen in damaged to the DCML pathways at the spinal chord ?

They are at medial and at the back of the spinal cord.

Answer 44

THESE TRACTS RUN IPSILATERALLY THROUGH THE SPINAL CORD AND DECUSSATE IN THE MEDULLA OF THE BRAINSTEM = so damage to spinal cord here would lead to loss of Ipsilateral fine touch, tactile sensation, proprioception etc.

Question 45

What is the anterior spinothalamic tract responsible for?

Answer 45

Crude touch/ or pressure

Question 46

What is the lateral spinothalamic tract responsible for?

Answer 46

responsible for Pain and temperature

Question 47

Where do Spinothalamic and Dorsal Column medial lemniscal pathway synapse in the thalamus?

Answer 47

The Ventral Posterio-lateral division of the nucleus of the thalamus

Question 48

Where do the Spinothalamic and Spinoreticular tracts decussate?

Answer 48

These pathways Decussate within the spinal cord and travel up to the brain

A nerve entering the Anterior lateral pathways tend to travel up 1 or 2 vertebral levels before Decussating

So lesion of the spinal cord will cause a contralateral loss of pain, crude touch, sensation (Generally speaking),

Question 49

What do the Spinocerebellar and Spinoolivary tracts carry?

Answer 49

Carry Unconscious sensation, specially involved in transmitting Proprioceptive information from the LOWER limbs UP TO THE IPSILATERAL CEREBELLUM

SENOSRY, ASCENDING

Question 50

What do the CUNEOCEREBELLAR AND ROSTRAL SPINOCEREBELLAR TRACTS carry?

Answer 50

Carry Unconscious sensation, specially involved in transmitting Proprioceptive information from the Upper limbs and neck UP TO THE CEREBELLUM

Both convey through the INFERIOR CEREBELLAR PEDUNCLE

Question 51

What might be seen in someone with cerebellar damage?

Answer 51

Dysdiadochokinesia - inability to perform rapidly alternating movements
Ataxia - Disorders that affect balance, speech and coordination
Nystagmus - Abnormal eye movements
Intention tremor - tremor when moving
Slurred speech
Hypotonia - Abnormally low muscle tone

Question 52

What are the two descending Pyramidal tracts?

What do they do?

Answer 52

PYRAMIDAL TRACTS: ANTERIOR AND LATERAL CORTICOSPINAL AND CORTICOBULBAR TRACTS (pass through the pyramids of the Medulla
Carry signals down from the brain involved in Voluntary Movement

Question 53

What does the corticospinal tract split into? what do these tracts do?

Answer 53

lateral and anterior corticospinal tracts.

Lateralcoritcospinal tract comprised of Decussated fibres (cross at the medulla) , so operate contralaterally. = (controls the limbs and digits)

Around 90% of fibres Decussate in the Medulla (lateral corticospinal tract) and 10% don’t, forming the Anterior corticospinal tract = (controls Trunk, shoulder, neck muscles - AXIAL MUSCLES) 

Fibres from the anterior corticospinal tract only decussate at the level of spinal nerve in which they exit

Question 54

What does the corticobulbar tract do?

What has bilateral innervation and what has contralateral innervation? What does this mean?

Answer 54

Innervates skeletal muscle of head and neck, via the cranial nerves

So 5 and 11 (and upper face motor part of 7) = Bilateral
12 and lower face motor part of 7 = 7 Contralateral

Bilateral - receive signals from both hemispheres of the brain
Contralateral - decussate at the brainstem so only Contralateral innervation from contralateral side of Cerebral hemisphere

Question 55

Extrapyramidal tracts: What of these tracts decussate?

Answer 55

Rubrospinal tract - provides contralateral innervation for fine motor control

Originate in the RED NUCLEUS , and decussate immediately.

Tectospinal tracts = involved in coordination of head movements with vision.

Arise in the tectum, Superior and Inferior Colliculi

Question 56

Extrapyramidal tracts: What of these tracts remain ipsilateral?

What do they do?

Answer 56

Medial Reticulospinal tract- FACILLITATES voluntary Muscle contraction, increase Muscle tone -

Lateral reticulospinal tract: INHIBITS VOLUNATRY MOVEMENT, reduce muscle tone,
and plays are role in ATUOMATIC BREATHING - STARTS IN THE PONTINE RETICULAR NUCLEI - nb Both Contra and Ipsiateral

Vestibulospinal tracts = Helps control balance and posture - STARTS IN THE LARGE VESTIBULAR NUCLEI IN PONS AND MEDULLA

Question 57

What is the fluid called that fills the labyrinth?

Answer 57

Perilymph

Question 58

what is the
a ascending portion of the cochlea
b descending portion

Answer 58

a) Scala vestibuli
b) Scala tympani

Vestibuli on top!! Not alphabeticalv decent

Question 59

Tonotopic organisation: Where do lower frequencies produces vibrations on the cochlear?

Answer 59

the apex ( or higher up ) of the cochlear

Question 60

Tonotopic organisation: Where do Higher frequencies produces vibrations on the cochlear?

Answer 60

The base of the cochlear

Question 61

What is the Rubrospinal tract involved in ?

Answer 61

Arises from red nucleus
Fibres decussate and then descend
Plays a role in fine control of hand movement

Question 62

What is the Reticulospinal tract involved in ?

Answer 62

Medial tract arises from the pons
Facilitates voluntary movements
Increases muscle tone
Lateral tract arises from medulla
Inhibits voluntary movement
Reduces muscle tone

Question 63

What is the vestibulospinal tract involved in?

Answer 63

Vestibulospinal tract:
Arise from vestibular nuclei
Medial and lateral tracts
Supply ipsilateral information
Controls balance and posture

Doenst decussate

Question 64

where do the extrapyramidial tracts originate from?

What extrapyramidal tracts decussate?

Answer 64

Originate in brainstem
4 in total
Rubrospinal and tectospinal decussate – others don’t

Question 65

What arteries supply brocas area? What Broddman area

Answer 65

Middle cerebral artery

Area 44

Question 66

What arteries supply Wernickes area? What Broddman area

Answer 66

Middle cerebral artery

Area 22

Question 67

What CN control which parts of the pupillary light reflex?

Answer 67

Afferent - Optic Nerve

Efferent - Oculomotor nerve (parasympathetic)

Question 68

What layer does neural tissue come from?

Answer 68

Ectoderm

Question 69

In a hemi section of the spinal chord, would spastic paresis occur contralaterally or ipsilaterally?

Answer 69

Ipsilaterally, as it would be due to the corticospinal tract, which is doesn’t decussate in the spinal chord