Lecture Four: Principles of non-invasive brain stimulation

Question 1

What is the function of TMS?

Answer 1

• Stimulates the brain directly
• The effects of this can be measured in the periphery i.e alpha motor neurons -> spinal cord activation -> peripheral nerve activation

Question 2

What is brain stimulation divided into?

Answer 2

Invasive and non-invasive techniques

Question 3

What is an example of an invasive brain stimulation technique?

Answer 3

Deep Brain Stimulation (DBS)
i.e Used in parkinsons to stimulate the sub thalamic nucleus

Activates local neural effectors and passing neuron axons

Question 4

What are some examples of non-inasive brain stimulation?

Answer 4

1) Transcranial Magnetic Stimulation

2) Transcranial Direct Current Stimulation

Question 5

Describe the TMS setup;

Answer 5

• Figure 8 coil
• Huge capacitor (discharges 450v)
• Magnetic field reaches 4cm (2.2T)

Question 6

Describe how TMS functions;

Answer 6

The coil + current induces a brief rapidly changing magnetic field.

This decays exponentially from the coil

Question 7

What does the rapidly changing magnetic field in TMS do?

Answer 7

Rapidly changing = induces current flow of ECF and neurons. Therefore causing depolarisation by changing resting membrane potential

Question 8

What is used to record the effects of TMS?

Answer 8

EEG surface electrodes can record motor evoked potential to infer the state of the motor cortex (commonly used in stroke)

i.e How big, quick, how does it change when the participant thinks something

Question 9

What does the intensity of the TMS stimulus depend on?

Answer 9

Depends on the geometry of the participants brain

Threshold intensity is variable between people with brain folds

Question 10

Describe where in the brain TMS is most effective?

Answer 10

TMS is most effective at inducing a current in bending locations such as fissures

Question 11

Describe what the induction of local current in TMS does?

Answer 11

Induction of a local current activates chains of interneurons. It is there summations of inputs at the dendrites / axons that determines neuron depolarisation.

Not a selective process.

Question 12

What layer of neurons is TMS most effective at activating?

Answer 12

TMS is most effective by activating the horizontal layer of intercortical interneurons, in cortical layers 1+2.

These synapse onto pyramidal motor + dendritic trees

Question 13

In the grand scheme of things what sort of pathways is the pyramidal and dendritic trees?

Answer 13

These are indirect pathways and if the stimulus is increased pyramidal neurons can be activated directly.

Question 14

What does the depolarisation of pyramidal neurons from TMS look like?

Answer 14

Evidence from humans suggests that we can activated different types of waves in neurons.

D wave = Direct wave

Followed by;
I wave
II wave

Question 15

What are we interested in when depolarising pyramidal neurons using TMS?

Answer 15

Interested in the latency and amplitude because latency can be effected by: Health of neurons i.e stroke, MS, ALS, Peripheral nerve injury etc

Also height

Amplitude it proportional to the umber of nerves recruited.

Question 16

What is a measured product of TMS?

Answer 16

Corticomotor pathway

Motor cortex -> Spinal cord -> Motor unit

Question 17

What is the motor threshold?

Answer 17

The weakest stimulus that will produce a MEP (motor evoked potential) on 4/8 trials

Question 18

What is motor threshold measured in?

Answer 18

• Measured in % max stimulator output (MSO)
• MEP amplitude at least 0.05mV at rest
• MEP amplitude at least 0.10mV when muscle is active

Question 19

What is also seen on a MEP?

Answer 19

The stimulus artefact prior to main response

Question 20

What does the recruitment curve for TMS tell us? Page 9

Answer 20

• Increasing stimulus intensity increases the amplitude of the MEP

Question 21

What does a recruitment curve slope indicate about MEP and being in an active or resting state?

Answer 21

The slope

• Measure of corticomotor excitability
• Recruitment of neurons (lowest firing threshold first)
• Recruitment of motor units (size principle) - Smallest first
• Affected by background muscle activity

Question 22

How does the slope change between resting and active muscle states?

Answer 22

Steeper during active muscle states

Question 23

How does EMR threshold change between resting and active states?

Answer 23

In an active state EMR threshold decreases as active state increases

Question 24

What is paired pulse TMS?

Answer 24

Delivery of two pulses (one coil) (2 capacitors)

Can be at different intensities

Interstimulus interval b/w 1-5ms

Question 25

In pair pulse TMS what is the first pulse also known as?

Answer 25

First pulse; Conditioning stimulus

• Precedes Test Stimulus (second pulse)
• Effects depend on intensity and inter stimulus interval

Question 26

What is paired pulse TMS most commonly used for?

Answer 26

Short interval intracortical inhibition

Question 27

Write some short notes on SICI;

Answer 27

• Interstimulus intervals b/w 1-5ms (PPTMS)
• Conditioning stimulus is b/w 60-100% of active motor threshold
• GABAa-R activation (A)
• Reduced prior to movement

Question 28

Describe how SICI works;

Answer 28

Conditioning stimulus is sub threshold (weak) but can still activate gaba-ergic interneurons

Therefore when the test stimulus comes in fewer neurons fire (GABA rich environment = inhibition = Decreased MEP.

Therefore this indicates the state of gabaergic interneurons in the patient.

Question 29

What happens prior to movement with SICI?

Answer 29

SICI is reduced prior to movement (much less inhibition). These neurons have been turned down prior to movement

PPTMS can act as SICI

Question 30

Whens a situation that was used in the lab to increase SICI?

Answer 30

Syncobate (out of time beating) increases inhibition from static state i.e more inhibiton more GABAergic state

Question 31

What is LICI?

Answer 31

Long interval intracortical inhibiton

Question 32

How does LICI work?

Answer 32

• Interval stimulus is 50-200ms
• Conditioning stimulus is suprathreshold
• GABAb-R activation (B)

Question 33

What is SICF?

Answer 33

Short interval intracortical Facilitation

Question 34

Describe the conditions for SICF?

Answer 34

• Specific inter-stimulus intervals
• Suprathreshold stimuli
• Synchronised I-waves : I wave facilitation

Question 35

How does SICF work?

Answer 35

The specific timing of interneuron activation, when correct can boost the signal. i.e when excitation is arriving at pyramidal cells (facilitation)

Poor timing = no effect

Question 36

What is the use of dual coil TMS?

Answer 36

Dual coil TMS;

• Can activate different parts of cortical network based on stimulus interval
• Motor Cortices linked through corpus colossum (Mostly inhibitory)

Question 37

What is the contralateral silent period?

Answer 37

A period of time following an MEP that as very little / no electrical activity.

• Refractoriness potentially
• B/c TMS activates GABAb-R interneurons which in the long term create an inhibitory environment
• Changes with age and disease

Question 38

What are the conditions for contralateral silent period?

Answer 38

• Single test stimulus
• During voluntary muscle activity
• Silent period duration depends on GABAb-R activity

Question 39

What is interhemispheric inhibition?

Answer 39

The task dependant inhibition of the other hemisphere

Question 40

What is the conditions for interhemispheric inhibition?

Answer 40

• Interstimulus intervals 8-50ms
• Suprathreshold stimuli
• GABAb-R activity

Question 41

What did the experiments by morishita show regarding interhemispheric inhibition?

Answer 41

Setup;
- One hand = fine motor manipulation task
(Active M1 receives conditioning TMS)
- Other hand = MEP
(resting M1 receives Test TMS)

Expectation = FM task inhibits other side. Interhemispheric inhibition is more pronounced when FM task is used over IA task or rest.

Question 42

What is the ipsilateral silent period?

Answer 42

The use of TMS to inhibit motor output via interhemispheric communication (Corpus collosum)

• Measure the state of corpus collosum and GABAergic neurons

Question 43

What are the conditions for the ipsilateral silent period?

Answer 43

• Single test stimulus
• Ipsilateral to activated muscle
• Duration depends on GABAb-ergic activity

Question 44

Summerise TMS;

Answer 44

• TMS is a versatile research tool
• It can measure cortical excitability
• It can measure GABAa and GABAb function with sub millisecond precision (impressive for non-invasive)

Question 45

What can TMS be used to measure?

Answer 45

It can be used to measure the effects of;

• Maturation
• Age
• Neurological disease and disorders
• Interventions such as drugs, learning, rehabilitation
• It is safe, non-invasive and painless

Question 46

What are all the tests TMS can be used for;

Answer 46

SICI
LICI
SICF
Contralateral Silent Period
Interhemispheric Inhibition
Ipsilateral Silent Period

Question 47

What are the conditions for Transcranial Direct Current Stimulation?

Answer 47

• 1-2mA current delivered
• Up to 20 mins duration

Electrodes are located in the cup

Question 48

How does TDS work?

Answer 48

Delivers current from anode to cathode through ECF of brain therefore shifts resting membrane potential of neurons in this pathway and alters their spontaneous firing rate. (not synchronised firing)

Question 49

What happens at the anode and cathode during TDS?

Answer 49

Anode

• Depolarisation
• Increased excitability

Cathode

• Hyperpolarisation
• Decreased Excitability

Cant predict parts of electric field in patients brains

Question 50

What are the types of TDS?

Answer 50

• Direct Current (brain adapts to this though)
• Alternating current (13Hz, 12.5-30Hz)
• Random Noise (0.1-600Hz (range))

Question 51

What is measured in TDS?

Answer 51

All the same stuff as in TMS (same tests)

• Cortical excitability
• Intracortical excitability and facilitation
• Interhemispheric interactions

TMS = Mainly Motor
TDS = Psychiatric

Question 52

What is TDS used in?

Answer 52

• Learning
• Memory
• Mood
• Dexterity
• Perception

Question 53

What are some safety concerns of non-invasive brain stimulation?

Answer 53

Non-invasive brain stimulation cant be used by people with;

• Pacemakers
• Epilepsy
• Brain surgery patients
• cochlear implants
• aneurysm clips
• DBS
• medication pumps
• pregnancy