Neural coding and brain machine interfaces

Question 1

What is a brain machine interface (BMI)?

Answer 1

A medical device that measures or alters the electrophysiological activity at the level of populations of neurons.

Question 2

What are the two main types of BMIs discussed?

Answer 2

• BMIs to restore lost sensory abilities
• BMIs to restore lost motor abilities

Question 3

What is an example of a condition treated by sensory BMIs?

Answer 3

Hearing loss.

Question 4

Who is a famous historical figure that experienced hearing loss?

Answer 4

Beethoven.

and Helen Keller

Question 5

What are the two primary causes of hearing loss mentioned?

neural basis

Answer 5

• Damage to sensory hair cells in the cochlea which is a loss of critical steps in the hearing pathway

Question 6

What is a cochlear implant?

Answer 6

A device that bypasses the ear’s apparatus and electrically stimulates primary auditory afferents.

(stimulates surviving neurons of auditory nerve)

Question 7

How does a cochlear implant work?

Answer 7

It uses a microphone and circuitry sound analyser (frequency decomposition) and stimulates specific parts of the cochlea with an array of electrodes.

Question 8

what part fo the ear vibrates from sound

Answer 8

basillar membrane

Question 9

what does location of maximum vibration in basillar membrane depend on ?

Answer 9

tone frequency

Question 10

What is frequency decomposition?

Answer 10

The process of breaking down sound into its pure tone components.

Question 11

What does a spectrogram represent?

Answer 11

A visual representation of the frequency composition of sounds over time.

how sound is a mixture of pure tones/ displays sounds as pure tones

Question 12

What is the role of the basilar membrane in hearing?

Answer 12

It vibrates in response to sound, with different regions sensitive to different frequencies.

Question 13

example of a sensory BMI

Answer 13

cochlear ear implant

Question 14

what part of the ear performs frequency decomposition ?

Answer 14

chochlea

Question 15

What is the average word recognition performance for cochlear implant users one month after implantation?

Answer 15

Approximately 40%.

Question 16

What is the average sentence recognition performance for cochlear implant users one month after implantation?

Answer 16

70%

Question 17

What is a significant advantage of recognizing sentences over individual words for cochlear implant users?

Answer 17

Contextual information helps improve recognition performance.

Question 18

As of 2011, how many cochlear implants were there worldwide?

Answer 18

Just over 200,000.

most wide spread and successful sensory BMI

Question 19

What is one type of motor pathology relevant to brain machine interfaces?

Answer 19

Spinal cord injury.

Question 20

What does a C1 spinal cord injury typically result in?

Answer 20

Loss of function from the neck down
- tetraplegia
- respirator required

Question 21

what does a C7 spinal cord injury result in

Answer 21

loss of function from chest down
- paraplegia

can still use arms and hands

Question 22

What is amyotrophic lateral sclerosis (ALS)?

Answer 22

A pathology of motor neurons leading to paralysis and other severe symptoms such as respiratory failure and locked in state

Question 23

What does the locked-in state refer to?

Answer 23

Complete paralysis of all voluntary muscles, including the ability to express feelings.

legs, hands, eyes !!

Question 24

What is the first component of a brain machine interface aimed at restoring motor function?

Answer 24

A microelectrode array that measures electrical activity of neurons.

Question 25

What is the purpose of the decoding algorithm in a BMI for motor function (after electrodes)?

Answer 25

To interpret the intentions of the person, such as movement intentions. This si then passed to a robotic limb or movement of a cursor on a mointor. ## Footnote Acuator

Question 26

summary of key BMI coponents for motor function

Answer 26

- electrode array - decoding algorithm - actuator

Question 27

True or False: Cochlear implants work equally well for all users.

Answer 27

False.

Question 28

What is the first stage of a brain-machine interface?

Answer 28

An electrode array ## Footnote The electrode array is placed over the motor cortex.

Question 29

What is the purpose of the decoding algorithm in a brain-machine interface?

Answer 29

To decode the intentions of the person ## Footnote It attempts to interpret thoughts such as moving eyes or reaching with an arm.

Question 30

What is an actuator in the context of a brain-machine interface?

Answer 30

A robotic limb or cursor movement ## Footnote It acts on the environment based on the decoded intentions.

Question 31

What is the significance of the motor homunculus?

Answer 31

It represents the organization of motor functions in the motor cortex ## Footnote It illustrates how different body parts are controlled by specific areas of the cortex.

Question 32

What is the typical voltage range for connections from motor cortical neurons to motor neurons in the spinal cord?

Answer 32

100 to 200 microvolts ## Footnote This is significantly lower than the approximately 100 times larger signal needed to cause an action potential.

Question 33

According to Georgiopoulos et al., what drives motor control?

Answer 33

Coordinated activity of neurons in the primary motor cortex ## Footnote This was demonstrated through experiments with monkeys reaching in various directions.

Question 34

What is a tuning curve in the context of neuron activity?

Answer 34

A graph showing the relationship between direction of movement and neuron firing rate ## Footnote It illustrates how specific neurons respond to different movement directions.

Question 35

How do population vectors relate to motor control?

Answer 35

They represent the integrated directional votes of neurons ## Footnote Each neuron votes for a direction based on its firing rate.

Question 36

What was a key finding from the study on monkeys making spiral movements? ## Footnote Moran & Schwartz (1999)

Answer 36

They could reconstruct complex movements using population vector decoding from motor cortex activity ## Footnote This implies potential for decoding more intricate movements beyond simple reaches.

Question 37

What is the Utah Array? ## Footnote Petersen & DIamond (2000)

Answer 37

A microelectrode array used for recording electrical activity in the brain ## Footnote It consists of 100 microelectrodes and is useful for brain-machine interfaces.

Question 38

What was the purpose of the study conducted in 2002 using the Utah Array? ## Footnote Surruya et al. (2002)

Answer 38

To demonstrate that neural activity can control a cursor ## Footnote Monkeys used a joystick to move a cursor based on their brain activity / then used neuronal control without joystick

Question 39

What is neural control in the context of brain-machine interfaces ?

Answer 39

Direct control of a cursor by neuronal activity without a joystick in monkeys/ it is possible to decode movement based on activity in M1 ## Footnote The monkey was able to control the cursor using only its brain signals.

Question 40

What was the aim of the BrainGate clinical trials? ## Footnote Hochberg et al. 2006

Answer 40

To develop brain-machine interfaces for individuals with severe motor disorders - involved implanting microelectrodes

Question 41

participant MN in 'Braingate' trials

Answer 41

- spinal cord injury C3-C4 - complete tetraplegia - implanted with Utah array in M1 arm area

Question 42

What was the condition of the participant MN in the BrainGate trial?

Answer 42

Complete tetraplegia due to spinal cord transection ## Footnote MN could not move arms or legs but could imagine movements.

Question 43

What did the researchers record from MN during the BrainGate trial?

Answer 43

The activity of neurons in the primary motor cortex during imagined movements ## Footnote They analyzed how different neurons responded to various imagined directions.

Question 44

What does a population vector estimate in the context of motor control?

Answer 44

The direction of intended movement based on neuron firing rates ## Footnote It integrates signals from multiple neurons to predict movement direction.

Question 45

True or False: A single motor neuron can influence movement on its own.

Answer 45

False ## Footnote Movement is a result of coordinated activity among multiple neurons.

Question 46

Fill in the blank: The population vector is computed by scaling the length of neurons' preferred direction arrows by their _______.

Answer 46

firing rate

Question 47

What does each row in the primary motor cortex activity represent in the 'Braingate' trials?

Answer 47

Imagined movement in a different direction.

Question 48

Which directions are represented in the primary motor cortex activity?

Answer 48

* East * North * West * South

Question 49

strengths of Hochberg et al./ Braingate trials

Answer 49

- first demonstration of neural control in human

Question 50

limitations of Hochberg/ braingate trials

Answer 50

- complexity of movemets was limited - so how much practical use is there ?

Question 51

What is the significance of Georgopoulos' tuning curves?

Answer 51

They illustrate how neurons in the motor cortex are tuned to specific directions of movement.

Question 52

What did Hochberg et al. train an algorithm to predict?

Answer 52

The direction of imagined movement based on primary motor cortex neuron activity.

Question 53

What was the performance accuracy of MN in the reaching task?

Answer 53

80 to 90%.

Question 54

What were the limitations of the Hochberg paper?

Answer 54

* Task simplicity with only four reaching directions (N/S/E/W) * Limited degrees of freedom in movements

Question 55

What was the first demonstration accomplished by the Hochberg paper?

Answer 55

Neural control in a human.

Question 56

Fill in the blank: The complexity of movements in Hochberg's study was very _______.

Answer 56

limited.

Question 57

What does the term 'degrees of freedom' refer to in the context of movement?

Answer 57

The complexity and variability of possible movements.

Question 58

What is the significance of spike-trigger averaging in understanding motor control?

Answer 58

It helps determine which muscles are activated by specific motor cortex neurons.

Question 59

what is dysarthria

Answer 59

difficulty breathing

Question 60

what is dysphagia

Answer 60

difficulty in eating