Nervous System

Question 1

What are the three components of the brainstem in order?

Answer 1

Midbrain, Pons, Medulla

Question 2

What does the cerebellum take part in?

Answer 2

Coordination of movement

Question 3

What are the three components that make up the hind brain?

Answer 3

Cerebellum, medulla, pons

Question 4

What are the folds of the brain called?

Answer 4

Gyrus/gyri

Question 5

What are the gaps between folds of the brain called?

Answer 5

Sulci

Question 6

What are the folds made up of?

Answer 6

Grey matter 6-7 mm thick with a layer of white matter underneath.

Question 7

What are the 3 key sulci?

Answer 7

Central sulcus, parieto-occipital sulcus, lateral sulcus (fissure)

Question 8

What is the name of the important notch in the brain?

Answer 8

Preoccipital notch

Question 9

What does the central sulcus separate?

Answer 9

Frontal and parietal lobe

Question 10

What are the four gyri of the frontal lobe?

Answer 10

Superior frontal gyrus, middle frontal gyrus, inferior frontal gyrus, precentral gyrus

Question 11

What lies beneath the lateral fissure?

Answer 11

Temporal lobe

Question 12

What are the three longitudinal gyri of the temporal lobe?

Answer 12

Superior, middle and inferior temporal gyrus

Question 13

What is behind the temporal lobe?

Answer 13

Occipital lobe

Question 14

What lobe lies between the frontal, occipital and temporal lobe?

Answer 14

Parietal lobe

Question 15

What is the name of the sulcus which separates the parietal lobe into an upper and lower part?

Answer 15

Intraparietal sulcus

Question 16

What is the parietal lobe split into?

Answer 16

Superior and inferior parietal lobule

Question 17

What are the names of the two gyri found on the inferior parietal lobule? What is special about them?

Answer 17

Supramarginal gyrus and angular gyrus. They are connected to form an m shape.

Question 18

What is the other singular gyrus of the parietal lobe?

Answer 18

Postcentral gyrus

Question 19

What does the precentral gyrus correspond with? What does it control?

Answer 19

Primary motor cortex. Controls muscles on the other side of the body.

Question 20

What is the primary motor cortex dominated by?

Answer 20

The face and hands

Question 21

What is meant by somatotopical?

Answer 21

Organised by body region. Increasing complexity requires more brain cells and a larger region of the cortex.

Question 22

What is meant by primary and motor of primary motor cortex?

Answer 22

Primary: critical role
Motor: movement

Question 23

What does the postcentral gyrus correspond with? What is it involved with?

Answer 23

Primary somatosensory cortex. Where you consciously appreciate every touch on your skin.

Question 24

Large areas of the primary somatosensory cortex are devoted to ________ ____________ regions of the body.

Answer 24

Highly discriminatory

Question 25

What is the purpose of the primary visual cortex?

Answer 25

Allows you to see the world.

Question 26

What surrounds the primary visual cortex?

Answer 26

The calcarine sulcus

Question 27

How is the primary visual cortex organised?

Answer 27

Visuotopically organised (retinotopically)

Question 28

Why don’t we see a line down the middle of the world?

Answer 28

Visual cortex on one side communicates with the visual cortex on the other.

Question 29

What do the areas around the primary visual cortex do? What are they called?

Answer 29

Add value (shape and colour) to the original picture.
Supplementary/secondary visual cortices

Question 30

From where does the primary auditory area get input from?

Answer 30

Gets input from the ear on the opposite side.

Question 31

In which gyrus is the primary auditory area located?

Answer 31

The transverse gyrus of Heschl, deep within the brain.

Question 32

How is the sound received by the primary auditory area organised

Answer 32

High tones and frequencies at one end whilst low tones and frequencies at the other. Tonotopically organised.

Question 33

What does Wernicke’s speech area allow us to do?

Answer 33

Understand what is being said.

Question 34

What happens when a person gets a stroke/tumour at Wernicke’s speech area?

Answer 34

Disorder of speech: a fluent/sensory aphasia. Can hear but not understand spoken word.

Question 35

What is meant by an aphasia?

Answer 35

Disorder of speech associated with the brain.

Question 36

What does Wernicke’s speech area communicate with? By what?

Answer 36

Broca’s speech area through a large bundle of fibres called the arcuate fasciculus.

Question 37

What is the Wernicke’s and Broca’s speech areas associated with

Answer 37

W: sensory aspect of speech recognition.
B: motor aspect of speech recognition.

Question 38

What does Broca’s speech area do?

Answer 38

Allows us to pronounce words by communicating with muscles that control speech.

Question 39

What happens when we get a lesion on the Broca’s speech area?

Answer 39

Can’t pronounce words: non-fluent aphasia

Question 40

What happens when the arculate fasciculus is broken?

Give an example.

Answer 40

A conduction aphasia. E.g. What did you have for lunch today? It’s going to rain outside.

Question 41

What are the supramarginal and angular gyri responsible for?

Answer 41

Reading and writing

Question 42

Which area controls which muscles are to be activated during writing?

Answer 42

Exner’s area

Question 43

What is the non dominant right hemisphere responsible for in comparison with verbal language on the left side?

Answer 43

Non-verbal language: 
Body language
Emotional expression
Spatial skills
Conceptual understanding
Artistic/musical skills

Question 44

What are the effects of injury on the non-dominant hemisphere?

Answer 44

Spatial disorientation
Inability to recognise familiar objects
Loss of musical appreciation
Speech lacks emotion
Loss of non-verbal language

Question 45

What are the functions of the frontal association cortex?

Answer 45

Intelligence
Personality
Behaviour
Mood
Cognitive function

Question 46

What are the functions of the parietal association cortex?

Answer 46

Spatial skills

3D recognition: shapes, faces, written words, concepts, abstract perception.

Question 47

Wernicke’s area is larger on the _______ side.

Answer 47

Left

Question 48

What information does Broca’s speech area contain?

Answer 48

How to pronounce words

Question 49

What are the functions of the temporal association cortex?

Answer 49

Memory, mood, aggression, intelligence

Question 50

What does Exner’s area do?

Answer 50

Drives muscles for writing.

Question 51

Verbal language areas are concentrated mainly in the _________ hemisphere.

Answer 51

Left

Question 52

In the right hemisphere, the general areas of verbal language of the left hemisphere are instead replaced by _________.

Answer 52

Non verbal language areas

Question 53

What regions add value to the original visual cortex?

Answer 53

Supplementary visual cortices

Question 54

Which regions are most highly developed in humans?

Answer 54

Complex association areas

Question 55

What types of nerves are in the first upper region of the spinal cord? How many pairs are there?

Answer 55

Cervical (neck) nerves

8 pairs

Question 56

What does the spinal cord extend down?

Answer 56

The middle of the vertebral column

Question 57

Coming away from the spinal cord are ________

Answer 57

Nerves on each side called spinal nerves

Question 58

How many pairs of spinal nerves are there?

Answer 58

31

Question 59

What nerves are underneath the cervical nerves?

Answer 59

Thoracic spinal nerves

12 pairs

Question 60

What spinal nerves are underneath the thoracic spinal nerves? How many?

Answer 60

Lumbar nerves

5 pairs

Question 61

Each spinal nerve goes out towards ______

Answer 61

An area of the skin

Question 62

What spinal nerves are under the lumbar nerves? How many?

Answer 62

Sacral nerves

5 pairs

Question 63

Which pair of spinal nerves does not go towards the skin?

Answer 63

C1

Question 64

What spinal nerves are at the very bottom of the spinal cord? How many?

Answer 64

Coccygeal nerves

1 pair

Question 65

What would happen if one of the spinal nerves was cut?

Answer 65

The area that is goes towards would be numb.

Question 66

What is meant by a dermatome?

Answer 66

A region of skin innervated by a spinal nerve.

Question 67

How many dermatomes are there?

Answer 67

30

Question 68

What are the two roots going into and out of the spinal cord?

Answer 68

Dorsal root

Ventral root

Question 69

What are the functions of the dorsal and ventral root?

Answer 69

Dorsal: Receives sensory information
Ventral: Sends motor information to muscles

Question 70

What do the dorsal and ventral roots join up to form?

Answer 70

Spinal nerve

Question 71

What are the two major sets of information from the skin?

Answer 71

Touch and pressure

Pain and temperature

Question 72

What two special types of receptor sit right under the skin?

Answer 72

Touch: Meissner corpuscles
Pressure: Pacinian corpuscles

Question 73

What type of receptor is used for discriminative sensation?

Answer 73

Encapsulated receptors (more dense on lips and hands)

Question 74

How are nerves of encapsulated receptors activated?

Answer 74

The receptor is depressed and nerve at centre is activated.

Question 75

Where are the cell bodies of the nerves entering the dorsal root located?

Answer 75

In a swelling called the ganglion.

Question 76

What area of the spinal cord do sensory nerves go to?

Answer 76

Dorsal area

Question 77

What is considered discriminative sensation?

Answer 77

Touch and pressure

Question 78

There are more nerves going to the _____ than the _____ (chest/hand)

Answer 78

hand

chest

Question 79

How fast do nerves travel along myelinated fibres?

Answer 79

50 m/s

Question 80

How fast do signals travel along non-myelinated fibres?

Answer 80

1 m/s

Question 81

What is considered non-discriminative sensation?

Answer 81

Pain and temperature

Question 82

What type of sensation occurs through free nerve endings?

Answer 82

Non-discriminative

Question 83

What are free nerve endings?

Answer 83

Terminations of the nerve fibres. Very sensitive to pain and temperature.

Question 84

How are non-discriminative fibres different to discriminative fibres?

Answer 84

Thinner, non-myelinated

Question 85

Pain and temperature sensation is not as _______ as touch and pressure.

Answer 85

Precise / regionally specific

Question 86

Where do non-discriminated nerves terminate?

Answer 86

The most dorsal part of the dorsal area specialised for receiving information about pain and temperature.

Question 87

Where does the ventral root convey information?

Answer 87

Towards muscles

Question 88

Where can we find very large motor neurones?

Answer 88

In the ventral horn of the grey matter

Question 89

What neurotransmitter is released at the muscle?

Answer 89

Acetyl choline (fast conducting)

Question 90

What is the lower motor neurone made up of?

Answer 90

Cell body and the axon passing out

Question 91

Are lower motor neurones myelinated?

Answer 91

YES

Question 92

What is paraplegia?

Answer 92

Loss of sensation as well as paralysis of the lower half of the body due to the compression of the spinal cord that is caused by severing e.g. T10

Question 93

What is quadriplegia?

Answer 93

Loss of sensation of most of body as well as paralysis due to severing e.g. C2

Question 94

How far is the skin from the brain?

Answer 94

About 1 metre

Question 95

How many neurones are involved in passing the impulse from skin to brain?

Answer 95

3 - the information can be modified at each synapse

Question 96

What is the pathway of the first-order neurones?

Answer 96

Passes from receptor through root ganglion and up the spinal cord in the dorsal column.

Question 97

Where do the first-order neurones from the arm lie in the dorsal column?

Answer 97

Just lateral to those coming from the leg

Question 98

What is the pathway of second-order neurone?

Answer 98

From the dorsal column nuclei (cuneate and gracile fasciculus). Passes up to the brainstem in a big bundle of fibres called the medial lemniscus. Terminates in the thalamus.

Question 99

What must all information going to the cerebral cortex go through?

Answer 99

Thalamus

Question 100

What occurs to the information passing through the thalamus?

Answer 100

It is further modified

Question 101

Sensations can be _______ or _______. Why? What is this called?

Answer 101

Suppressed or highlighted because there are fibres that modulate the information reaching your sensory cortex at each level. Sensory modulation

Question 102

The collection of fibres coming from receptors ______ as we ascend the spinal cord. What is this called?

Answer 102

Increases in size. Posterior/dorsal column

Question 103

What are the two tracts of the posterior column?

Answer 103

Gracile tract (medial), Cuneate tract (lateral)

Question 104

When does the cuneate fasciculus appear?

Answer 104

At the level of the arm

Question 105

When do the first-order discriminate neurones from the skin terminate?

Answer 105

At the junction between the spinal cord and brain.

Question 106

What do the gracile and cuneate tracts contain?

Answer 106

Millions of nuclei that receive all the terminals coming up from the discriminative pathway.

Question 107

Where do neurones cross over in the discriminative pathway? What is this called?

Answer 107

Second-order neurones cross over immediately after the gracile and cuneate nuclei are reached. Decussation

Question 108

Where are the second-order neurones collected up after decussation?

Answer 108

Medial lemniscus

Question 109

What area of the thalamus is specialised for receiving, processing, suppressing, highlighting signals?

Answer 109

Ventroposterior nucleus

Question 110

What does the ventroposterior nucleus do?

Answer 110

Receives, processes, suppresses, highlights, modifies the signal.

Question 111

What is the motorway that the third-order neurones travel through to reach the cortex?

Answer 111

Internal capsule

Question 112

What would happen if there was a lesion in the spinal cord for the discriminative pathway?

Answer 112

Lose touch and pressure sensation on the same side of the body

Question 113

What would happen if there was a tumour somewhere in between the medial lemniscus to the sensory cortex?

Answer 113

Lose touch and pressure sensation on the opposite side of the body.

Question 114

Where do the pain and temperature first-order neurones terminate?

Answer 114

Dorsal part of the posterior grey horn

Question 115

Which neurones decussate in the non-discrimnative pathway? Where does this occur?

Answer 115

Second-order

Spinal cord - anterior white commissure

Question 116

What does commissure mean?

Answer 116

Crossing

Question 117

Where do the second-order neurones of the non-discriminative pathway collect?

Answer 117

Lateral spinothalamic tract

Question 118

Why is the lateral spinothalamic tract called as such?

Answer 118

Lies in a lateral position

Goes from spinal cord up to the thalamus

Question 119

What will be the first and last impulses to arrive at the thalamus in the non-discriminative pathway?

Answer 119

First - leg area

Last - neck area

Question 120

The neurones from the discriminative and non-discriminative pathway travel to the _______ area of the thalamus.

Answer 120

Same (ventroposterior nucleus)

Question 121

Does the lateral spinothalamic tract join up with the medial lemniscus? Where?

Answer 121

Yes

Pons

Question 122

If there is a lesion in the spinal cord, what happens to the non-discriminative pathway?

Answer 122

Lose pain and temperature sensation on the opposite side of the body.

Question 123

What happen when there is a lesion on the right side of the brain/brainstem? What is this called?

Answer 123

Loss of touch and pressure and pain and temperature sensation on the left. Associative sensory loss

Question 124

What happens when there is a lesion on the left side of the spinal cord? What is this called?

Answer 124

Loss of touch and pressure sensation on the left and loss of pain and temperature sensation on the right. Dissociative sensory loss.

Question 125

The upper motor neurone talks to the ________

Answer 125

Lower motor neurone

Question 126

Describe motor homunculus

Answer 126

Degree of representation is associated with the degree of activity of these cells and the number of cells involved with control of movement.

Question 127

Where is the corticospinal tract biggest?

Answer 127

At the top

Question 128

Is the motor pathway myelinated? How fast is conduction?

Answer 128

Yes 50m/s

Question 129

How does the UMN get past the thalamus?

Answer 129

Via the internal capsule

Question 130

What is a capsule?

Answer 130

A fibre bundle

Question 131

Why is the pyramidal tract named such?

Answer 131

The cross-section is pyramid shaped.

Question 132

What is a better name for pyramidal tract?

Answer 132

Corticospinal tract

Question 133

Where do most motor neurones decussate? What is this called?

Answer 133

At the junction between the brain and the spinal cord.

Pyramidal decussation

Question 134

What is the motor pathway called after decussation?

Answer 134

Lateral corticospinal tract.

Question 135

What happens to the corticospinal tract when it reaches the pons?

Answer 135

Breaks up into a number of fascicles, which come back together again in the pyramid of the medulla.

Question 136

The UMN’s terminate on an LMN either _________ or via an __________.

Answer 136

Directly (main)

Via an interneurone

Question 137

Where do 10-30% of the motor fibres decussate? What is this pathway called?

Answer 137

At the spinal cord

Ventral corticospinal tract

Question 138

The __________ _______ fibres peel off and terminate on a LMN.

Answer 138

Innermost UMN

Question 139

Where do the LMN’s lie in the spinal cord?

Answer 139

Ventral grey horn

Question 140

How are LMN’s grouped?

Answer 140

By the muscles which they supply

Question 141

What happens when upper motor neurones are damaged at any point in the pathway from the brain to spinal cord? What are the symptoms?

Answer 141

Spastic paralysis of the region of the body that the fibres would have innervated.
Can no longer do precise fine voluntary movements. Can only do crude movements. Tone in the muscles has increased a lot so reflexes are exaggerated.

Question 142

What happens when there is a lesion of the LMN’s?

Answer 142

Flaccid paralysis.
Muscle no longer gets any impulses, so no tone, reflexes or movement and unable to use it. There are no neural pathways to cause the muscle to contract. Results in disuse atrophy.

Question 143

What does the Polio virus target? How does it affect the LMN’s?

Answer 143

LMN’s. It enters the LMN, replicates and kills it.

Question 144

What two systems tell the UMN’s when and how many to fire?

Answer 144

Basal ganglia and cerebellum

Question 145

From where does the information telling UMN’s what to do come from?

Answer 145

The region of the thalamus called VA-VL (ventro anterior-ventro lateral) nucleus. Talk to the motor cortex in a very precise way.

Question 146

What are the four major nuclei of the basal ganglia?

Answer 146

Striatum, globus pallidus, substantia niagra (group of nuclei), sub-thalamic nucleus

Question 147

What is the striatum made up of?

Answer 147

Caudate nucleus and putamen

They are the same structure but have been subdivided by the internal capsule.

Question 148

Why is the globus pallidus called such?

Answer 148

It is a pale globe

Question 149

What are the two parts of the globus pallidus?

Answer 149

The outer part (external segment) called the GPe (externus)

The inner part (internal segment) called the GPi (internus)

Question 150

What nucleus liess underneath the thalamus? What is it a part of?

Answer 150

Sub-thalamic nucleus (SUT), which is a part of the basal ganglia.

Question 151

What are the two parts of the substantia nigra?

Answer 151

Substantia nigra pars compacta (SNc)

Substantia nigra pars reticulata (SNr)

Question 152

Distinguish between the SNc and SNr.

Answer 152

SNc: contains pigmented cells
SNr: cells are dispersed and not pigmented

Question 153

Which part of the substantia nigra is visible?

Answer 153

SNc

Question 154

What does the striatum get input from?

Answer 154

The pigmented cells of the pars compacta

Question 155

Where do the cells in the striatum project to?

Answer 155

The globus pallidus externus and internus

Question 156

Where does the output from the basal ganglia go from? What do these fibres release?

Answer 156

From the globus pallidus to the thalamus

GABA - inhibitory

Question 157

What are the important functions of the basal ganglia?

Answer 157

1) Initiating movement
2) Keeping muscle tone in the right state for movement or in a state of contraction at rest
3) Memory and planning of movement (Frontal cortex -> basal ganglia
4) Mood and movement

Question 158

What is meant by mood and movement?

Answer 158

The degree of movement is controlled by mood. We can express our emotion through the muscles of our body. There is an emotional mood component in all our movements.

Question 159

What symptoms appear in people with diseases affecting the basal ganglia?

Answer 159

Problems with:
Initiating movement
Muscle tone
Remembering how to start movements
Flat emotions
Involuntary movements (tremor for Parkinson's)

Question 160

The release of what influences the UMN’s?

Answer 160

Release of GABA in VA-VL

Question 161

What are the large cells of the cerebellum called? How are they positioned?

Answer 161

Purkinje cells are perfectly aligned

Question 162

About __% of the brain’s cells lie in the cerebellum

Answer 162

90% because a lot of the cells are very small and are packed

Question 163

What is the function of the cerebellum?

Answer 163

Posture, balance, coordinates your movements as you move

Question 164

What is unique about the cerebellum

Answer 164

Each half of the cerebellum coordinates the movements of the same side.

Question 165

Where does the cerebellum feed into?

Answer 165

The same region of the thalamus (VA-VL) as the basal ganglia.

Question 166

What does the cerebellum release into the VA-VL?

Answer 166

An excitatory neurotransmitter called glutamate.

Question 167

What does the balance between the cerebellar input and the basal ganglia input into the thalamus cause?

Answer 167

Causes the cells to fire in the thalamus and stimulate the UMN’s in a precise way to produce smooth movement.

Question 168

What does a person with cerebellar disease have?

Answer 168

Ataxia: uncoordinated movements and loss of balance.

Question 169

If the right side of the cerebellum is damaged, which side of the body is affected?

Answer 169

The right side

Question 170

What are the symptoms of Parkinson’s Disease?

Answer 170

• Pill-rolling tremor at rest, which starts on one side
• Difficulty starting to walk (often stooped) - increasing speed until falling over
• Muscles show cogwheel rigidity due to increased muscle tone
• Slow movements (Brady/hypokinesia)
• Problems with conveying mood - appear emotionally flat

Question 171

Which area of the basal ganglia is affected by Parkinson’s disease?

Answer 171

Substantia Nigra Pars Compacta, which lies in the midbrain

Question 172

What types of fibres come out of the SNc?

Answer 172

Lightly myelinated thin fibres going towards the striatum

Question 173

What do the fibres from the SNc release at the striatum?

Answer 173

Dopamine in very high concentrations

Question 174

What do we refer to the pathway from the SN and the striatum as?

Answer 174

Nigro-striatal pathway or Dopanergic nigro-striatal pathway

Question 175

What causes Parkinson’s disease?

Answer 175

Lack of dopamine in the striatum when these SN cells degenerate. Output of the cells in the striatum is affected.

Question 176

What are the effects of dopamine on the striatum? Why are there different effects?

Answer 176

Sometimes excitatory, sometimes inhibitory, because we have D1 and D2 receptors.

Question 177

What percentage of SN cells in the brain have degenerated before a person starts showing symptoms?

Answer 177

60%

Question 178

If degeneration of SN cells mainly occurs on the right, where are the symptoms of Parkinson’s seen? What tends to happen at later stages?

Answer 178

Mainly on the left

Symptoms slowly pass to the other side.

Question 179

Which cells are tonically active?

Answer 179

Those in the globus pallidus internus

Question 180

What is meant by tonically active?

Answer 180

They fire continuously at their normal resting state. Thus releasing GABA into the VA-VL continuously.

Question 181

What is the effect of dopamine on the GPi?

Answer 181

These cells are less inhibited (hyperactive) so they end up firing more.

Question 182

What are the consequences of hyperactivity of the GPi?

Answer 182

More GABA occurs in the thalamus and therefore more inhibition of the cells firing to the UMN’s occurs. The impulses passing to the UMN’s decrease in both intensity and frequency. This results in less excitation of UMN’s and therefore slow movement and difficulty in initiating movements.

Question 183

What was the first method invented to reduce the effects of Parkinson’s? How well did it work?

Answer 183

Give dopamine tablets to patients.
This did not have any effect at all because dopamine is broken down and degraded in the stomach and is not absorbed into the blood as dopamine.

Question 184

What was given instead of dopamine tablets to patients with Parkinson’s disease? What effect did this have?

Answer 184

A precursor chemical that is converted into dopamine in the body: L-Dopa. This had a miraculous effect.

Question 185

Describe the path of L-Dopa in the body.

Answer 185

L-Dopa is injected into the patient. It is absorbed into the bloodstream, crosses the blood-brain barrier and diffuses into the brain. Sufficient gets into the striatum, where it is converted into active dopamine.

Question 186

As time progresses, the dosage of L-Dopa given to Parkinson’s disease patients must ________.

Answer 186

Increase

Question 187

How have pharmaceutical companies modified L-Dopa injections to make them more effective?

Answer 187

They give compounds with L-Dopa which help to prolong its effects in the brain.

Question 188

What is the main treatment method of Parkinson’s disease at the moment?

Answer 188

L-Dopa

Question 189

What are some of the long-term negative side effects of L-Dopa?

Answer 189

• Nausea and vomiting
• Dyskinesia: continuous unusual voluntary movements that can be worse than the original disease.
• May hasten the degenerative effects of the remaining dopamine neurones that are still functional.
• Dopamine reaches all areas of the brain and can effect these areas in different ways.

Question 190

What is the tendency now to attempt to reduce the negative effects of L-Dopa?

Answer 190

Keep the patients off the drug for as long as possible. Gradually increase the dose and watch out for the side effects.

Question 191

What was the first surgical treatment of Parkinson’s?

Answer 191

Pallidotomy
Freezing the tip or injecting a chemical into the GPi to remove the cells of that area. Those cells on the edges of the lesion would recover because they would only be partially frozen.

Question 192

What are the conditions under which a pallidotomy is undergone?

Answer 192

Under local anaesthesia injected into the skull. Patient is awake so that the freezing is done to the extent that the tremor disappears.

Question 193

What does the area frozen during a pallidotomy lie in? Why does this make a pallidotomy difficult and risky?

Answer 193

Tiger country: the GPi is quite a small target. Lying underneath it is the optic nerve crossing over and near it is the big corticospinal tract. If the electrodes are not in exactly the right place or the lesion is too big, there can be visual changes or a major stroke.

Question 194

Why was a pallidotomy less popular in its early stages?

Answer 194

MRI was not available so imaging the area was difficult during the operation.

Question 195

What was the second discovered surgical treatment of Parkinson’s disease?

Answer 195

Thalamotomy: putting a lesion in the VA-VL of the thalamus.

Question 196

How did thalamotomy compare with pallidotomy?

Answer 196

Both very successful but thalamotomy had less complications because it was a bigger target.

Question 197

Over the last ten years, due to the development of MRI, what surgical treatment are we now more inclined to do?

Answer 197

We are now able to target the GP much better, so pallidotomy has become more popular again.

Question 198

How did stimulations of areas during pallidotomies aid treatment?

Answer 198

Could make sure that they weren’t affecting areas of the corticospinal tract. These stimulations also improve the patient.

Question 199

Instead of killing brain cells, what method involving electricity do surgeons now use?

Answer 199

Deep brain stimulation. Pass and leave an electrode sitting in the globus pallidus internus or the subthalamic nucleus (now more common). Bring the wire out to a pacemaker (stimulator). A remote control can control the frequency and magnitude of stimulation.

Question 200

What is a major advantage of deep brain stimulation

Answer 200

It is a reversible treatment

Question 201

What is an empirical treatment? Give an example of one.

Answer 201

When you try and it works so you go with it. Deep brain stimulation.

Question 202

Does deep brain stimulation usually occur to one side or both sides of the brain?

Answer 202

One side

Two sides can lead to many complications - speech disorders etc.

Question 203

What are the two novel new treatments for Parkinson’s disease?

Answer 203

Cell replacement/transplantation of dopamine producing cells
Gene therapy (Viral vectors)

Question 204

What are the four types of cells that can be used for cell replacement/transplantation to treat Parkinson’s disease?

Answer 204

1) Immature neurones (fetal)
2) Genetically engineered, cultured neurones from brain tumours
3) Embryonic stem cells
4) Adult stem cells

Question 205

What are the problems associated with using immature neurones for cell replacement when treating Parkinson’s disease?

Answer 205

Major ethics - must use cells from aborted fetuses
Technical - can form tumours
So not the main form of treatment

Question 206

Where are adult stem cells found?

Answer 206

In the ventricular margin - subventricular zone

Question 207

What is involved with gene therapy?

Answer 207

Putting genes in the cells of the subthalamic nucleus which make GABA to inhibit the cells in the SUT to help decrease the activity in the GPi.