Consciousness

Question 1

What is the definition of consciousness?

Answer 1

• The state of being aware of and responsive to one’s surroundings - Awareness or perception of an inward psychological or spiritual fact

Question 2

Objective definitions of consciousness

Answer 2

Ability to respond to stimuli: sensation (pain, touch proprioception), auditory (verbal, non-verbal), visual, olfactory and taste The ability to speak, the ability to orientate in time and place

Question 3

Subjective definitions of consciousness

Answer 3

The experience of sensory stimuli

the experience of emotion, memory, thought, self and non-self, experience of free will

Question 4

Key aspects & requirements of human consciousness

Answer 4

Arousal Input: - sense organs - proprioception -interoception -emotion

Output and control:

Motor: speech, locomotion, dexterity

Cognitive: differentiation of awareness (naming, defining, recognising unique features) integration of awareness (categorising, semantics), perception and conception, memory, reasoning/logic/rationality, representation of space and time, representation of self & non-self, language, agency

Emotional system: drive/instinct - to percieve, think act

Sensory - subjective experience of emotion motor - e.g. expression of anger, laughter, pain

Question 5

Physiological & pathological states and consciousness

Answer 5

Sleep, coma, death PVS, MCS, locked in syndrome

Question 6

Describe sleep

Answer 6

-Decreased arousal (and hence awareness & therefore consciousness) -physiological -active process -reversible and cyclical

Question 7

Describe slow wave sleep

Answer 7

Stage 3 sleep, full of delta waves waves less than 4Hz Deep, slow brain waves known as delta waves begin to emerge during stage 3 sleep. This stage is also sometimes referred to as delta sleep. During this stage, people become less responsive and noises and activity in the environment may fail to generate a response. It also acts as a transitional period between light sleep and a very deep sleep.

Question 8

Describe Stage 2 sleep

Answer 8

Stage 2 is the second stage of sleep and lasts for approximately 20 minutes. The brain begins to produce bursts of rapid, rhythmic brain wave activity known as sleep spindles. Body temperature starts to decrease and heart rate begins to slow.

Question 9

REM sleep

Answer 9

The brain becomes more active

Body becomes relaxed and immobilized

Dreams occur

Eyes move rapidly

Most dreaming occurs during the fourth stage of sleep, known as rapid eye movement (REM) sleep.

REM sleep is characterized by eye movement, increased respiration rate, and increased brain activity.

REM sleep is also referred to as paradoxical sleep because while the brain and other body systems become more active, muscles become more relaxed.

Dreaming occurs due to increased brain activity, but voluntary muscles become immobilized.

Question 10

Coma

Answer 10

• characterised by a complete loss of wakefulness and reactivity
• a state of unresponsiveness to external stimuli with eyes closed
• pathological but usally reversible -prolonged unconsciousness

Question 11

Causes of coma

Answer 11

sedation/anaethesia

epilepsy

electrolyte/metabolic

disturbance of thermoregulation

structural damage to brainstem/thalamus/cortex e.g. stroke, trauma, tumour

inflammation, infection

Question 12

metabolic coma

Answer 12

triphasic theta hepatic, uraemia, diabetic, pancreatic, adrenocorticoid failure

Question 13

Name this stage of sleep?

Answer 13

slow stage of sleep

Question 14

Name this stage of sleep

Answer 14

Stage 2 sleep

Question 15

Name this stage of sleep

Answer 15

REM sleep

Question 16

Name this EEG pattern

Answer 16

Triphasic theta - in metabolic coma

Question 17

Outcomes of metabolic coma

Answer 17

Reversal and recovery

survival into vegetative state or minimally conscious state

irreversible cessation of function of brainstem (brainstem death), cerebral cortex (neocortical death), body

Question 18

Glasgow coma scale

Answer 18

Max 15, min 3

coma of 8 (e.g. E2, M5, V1 - just conscious)

Eye opening (E) - spontaneous (4), to speech (3), to pain (2), no response (1)

Eye opening is an index of arousal

Absent eye opening distinguishes coma/brainstem death from PVS and MCS

Best motor response to verbal command (M) - obeys commands (6), localises to pain (5), flexion-withdrawal to pain (4), flexion-abnormal to pain (3), extension to pain (2), no response (1)

Best verbal response (V), oriented and converses (5), disoriented and converses (4), inappropriate words (3), incomprehensible sounds (2), no response (1)

Question 19

Vegetative state

Answer 19

Awake but unaware

Absent awareness (& hence consciousness)

Preserved arousal (preserved sleep/wake cycle)

No voluntary response to environment

Variably preserved reflex responses to environment

Cause: widespread damage to cerebral cortex (esp anoxia, head injury) – Neocotical Brain death

Persistent Vegetative State >4 weeks

ØPermanent Vegetative State

Question 20

Categories of vegetative state

Answer 20

Continuing vegetative state (4 weeks)

Permanent vegetative state

• after a non-traumatic brain injury 6 months in the UK
• after traumatic brain injury 1 year

Unresponsive wakefulness syndrome (UWS)

• proposed by the European Task Force on Disorders and Consciousness, yet to be fully defined

Question 21

RCP guidelines for coma

Answer 21

A state of unrousable unresponsiveness, lasting more than 6 hours in which a person:

• cannot be awakened
• fails to respond normally to painful stimuli, light or sound
• lacks a normal sleep-wake cycle and
• does not initiate voluntary actions

Question 22

RCP guidelines for vegetative state

Answer 22

a state of wakefulness without awareness in which tehre is preserved capacity for spontaneous or stimulus-induced arousal, evidenced by sleep-wake cycles and a range of reflexive and spontaneous behaviours

VS is characterised by complete absence of behavioural evidence for self- or environmental awareness

Question 23

Minimally conscious state (MCS)

Answer 23

A state of severely altered consciousness in which minimal but clearly discernible behavioural evidence of self- or environmental awareness is demonstrated.

MCS is characterised by inconsistent, but reproducible, responses above the level of spontaneous or reflexive behaviour, which indicate some degree of interaction with their surroundings

Question 24

Continuing VS

Answer 24

A state of VS lasting for more than 4 weeks

May be classified as permanent VS if it has persisted for:

>6 months following anoxic or other metabolic brain injury

>1 year following traumatic brain injury

in cases of genuine clinical uncertainty, a further period of targeted monitoring (6-12 months) may be required to make a diagnosis of permanent VS

Recovery from permanent VS may be regarded as highly improbable

Question 25

Minimally Conscious state

Answer 25

Like vegetative state but with at least 1 of 11 items:

1. consistent movement to command
2. reproducible movement to command
3. object recognition
4. object localization
5. reaching
6. visual pursuit
7. fixation
8. automatic motor response
9. object manipulation
10. localization to noxious stimulation
11. intelligible but non-functional verbalization

Emergence from MCS signaled by at least one of two items:

functional communication

object use

Question 26

Locked in syndrome

Answer 26

conscious (Aroused and aware)

unable to respond (de-efferented)

most cases are partially locked in:

• preserved vertical eye movements
• reserved eye opening

Causes:

• ventral pontine damage
• severe Guillian Barre syndrome

Question 27

Brain stem reflexes

Answer 27

Corneal blink reflex -trigeminal (opthalmic branch) afferent, pons, facial efferent

Pupillary light reflex

Reflex conjugate eye movement to the side when turning patient’s head (vestibulo-occular reflex)

Question 28

Brain stem death

Answer 28

Irreversible cessation of brainstem function

Such that consciousness could never be regained

• Absent Reflexes
  
  • Pupils
  • Ice Calorics
  • Corneals
  • Pain
  • Gag
  • Cough
• Apnoea - 5 min test after pre-oxygenation and allowing CO2 to reach 6Kpa
• No arousal

Question 29

Legal requirements

Answer 29

Presence of an irreversible cause e.g. anoxia, structural damage

Absence of reversible cause e.g. drugs, hypothermia, alcohol, posions, metabolic (pupils react) or electrolyte disturbances

Irreversible cessation of function of:

1. Brainstem (brainstem death) – confirmed by 2 doctors
2. Cerebral cortex (neocortical death)
3. Body

Must be repeated after 24 hours

Ongoing life support?

Organ donation

Question 30

Macroscopic structures which correlate anatomically with consciousness

Answer 30

Cerebral Cortex

Reticular activating system

Thalamus

• Motor & sensory nuclei (cortical relay)
• Thalamic reticular nucleus (gabaergic, indirect: inhibitory on thalamus)
• Intralaminar nucleus esp centro-median nucleus
• Claustrum

Default Mode Network (subjective consciousness)

Anterior Cingulate Cortex

Prefrontal Cortex

Inferior Temporal Cortex

Question 31

Microscopic structures which correlate anatomically with consciousness

Answer 31

Von Economo neurones

Crown of Thorns neurons

Question 32

What are Von Economo neurons and where are they found?

Answer 32

Large spindle-shaped soma (or body), gradually tapering into a single apical axon, with only a single dendrite facing opposite.

Found in 2 very restricted regions in the brains of hominids (humans and other great apes)

• Anterior cingulate cortex (ACC)
• Fronto-insular cortex (FI)

Also in the dorsolateral prefrontal cortex of humans.

Also found in the brains of the humpback whales, fin whales, killer whales, sperm whales, bottlenose dolphin, Risso’s dolphin, beluga whales, African and Asian elephants, to a lesser extent in macaque monkeys and raccoons

3 times higher concentrations of VENs in cetaceans in comparison to humans

?represents convergent evolution due to adaptation to larger brains

allows rapid communication across relatively large brains

Question 33

Which is the von economo neuron and the normal pyramidal neuron?

Answer 33

Question 34

Cerebral cortex

Answer 34

Creation of maps of the self and environment

Processing to integrate the maps and to respond appropriately

Question 35

Intralaminar thalamic nuclei (including centro-median nucleus)

Answer 35

General anaesthetics suppress activity in ILN

Bilateral lesions of C-M nucleus

• Coma or severe delirium
• Death
• Persistent vegetative state
• Mutism

Unilateral lesions of C-M nucleus

• Unilateral neglect

Question 36

Ascending reticular activating system

Answer 36

Serotonergic nuclei: dorsal raphe & median raphe

Dopaminergic nuclei: ventral tegmental area & substantia nigra pars compacta

Noradrenergic nuclei: locus coeruleus & related brainstem nuclei

Histaminergic nuclei: tubero-mamillary nucleus

Cholinergic nuclei

• Basal Nucleus of Meynert (attention)
• Pontine tegmentum: laterodorsal tegmental nucleus & pedunculopontine nucleus

Question 37

What are some individual arousal systems?

Answer 37

Midbrain

• Dorsal raphe nucleus – 5HT
• Parabrachial nucleus glutamate, CRGP, dynorphin
• Pretectal area
• Periaqueductal grey
• Ventral Tegmental area - Dopamine

Pons

• Locus coeruleus – Noradrenaline
• Latero-dorsal tegmental nucleus – Acetyl Choline
• Pedunculopontine nucleus – Acetyl Choline
• Pontine raphe nuclei – 5HT
• Intralaminar centro-median nucleus - glutamate

Hypothalamus

• Tuberomammillary nucleus - Histamine
• Lateral hypothalamus – Hypocretin, glutamate

Basal Forebrain

• Substantia Innominata - Acetyl Choline

Question 38

Functional imaging in disorders of consciousness

Answer 38

Coordinate-based meta-analysis

SPECT, PET & fMRI

Decreased activity (compared with healthy controls)

Question 39

Default mode network (DMN)

Answer 39

Medial prefrontal cortex (mPFC)

Ventral medial prefrontal cortex (vMPFC)

Medial temporal lobes (mTL)

Posterior cingulate cortex (PCC)

Precuneus and posterior inferior parietal lobule (pIPL)

Question 40

When is the default mode network activated?

Answer 40

DMN Components activated in:

Self-Reference:

• Autobiographical information (episodic memory) Detailed memory related to specific events in time
• Self-reference: traits and descriptions
• Reflecting about one’s own emotional state
• Remembering the past and envisioning the future (?free will)

Reference to other conscious entities:

• Theory of Mind
• Moral reasoning
• Social evaluations & social categorization / status
• Story comprehension

Question 41

What is the role of the anterior cingulate cortex?

Answer 41

Role in consciousness?

Error detection and conflict monitoring

Sense of volition

Registration of pain

Social evaluation

Reward-based learning

Question 42

Claustrum

Answer 42

Electrode between the left claustrum & anterior-dorsal insula.

Stimulation reproducibly resulted in:

• complete arrest of volitional behaviour
• unresponsiveness
• Amnesia

No negative motor symptoms or mere aphasia.

Disruption of consciousness did not outlast the stimulation

No epileptiform discharges.

Question 43

Crown of thorns

Answer 43

Giant neurons encircling the brain

Three neurons stretched across both brain hemispheres, and one of the three wrapped around the organ’s circumference like a ‘crown of thorns’, Koch says

Question 44

Phyisiolohical correlates of consciousness

Answer 44

Surface EEG

• High frequency, de-synchronized waking rhythm
• Alpha rhythm
• Gamma synchronization around 40Hz esp visual cortex
• High band gamma synchrony (85-150hz) – fronto-parietal

Event-Related Potentials

• Sensory
  
  • P300 (P3a & P3b) - attention
  • N400 – response to meaningfulness of stimuli
  • Late positive complex (LPC) – explicit recognition memory
• Motor
  
  • Bereitschafts-Potential – conscious preparation for voluntary movement (“free will”?)

Question 45

Functional and theoretical correlates of consciousness

Answer 45

fMRI activation patterns during stimulation (especially in response to spoken questions)

Perturbational Complexity Index (PCI – Transcranial Magnetic Stimulation- evoked potentials

MEG Indices

• Lempel-Ziv Complexity (LZc) - quantifies the number of distinct patterns present in data
• Amplitude Coalition Entropy (ACE) - reflects the entropy over time of the set of most active channels
• Synchrony Coalition Entropy (SCE) - reflects the entropy over time of the constitution of the sets of synchronous channels

Phi (Integrated information theory) - ? how measured

The observations of Glasgow Coma Score testing might be described as the physical or somatic correlates of consciousness

Question 46

Neuro-scientific theories of consciousness

Answer 46

Seek to explain consciousness purely in terms of neural events occurring within the brain (physicalism)

• Gerald Edelman (re-entrant circuits)
• Daniel Dennett
• Francis Crick & Christof Koch (The Claustrum)
• Dehaene & Changeaux (2001) Global Workspace
• Integrated information theory Tononi et al. (2008/2014)
• Antonio Damasio (“Self comes to Mind” 2010)

Quantum Theories of Consciousness

• Eg Penrose & Hameroff (1998)

Question 47

Inattentional blindness

Answer 47

inattentional blindness, also known as perceptual blindness, is a psychological lack of attention that is not associated with any vision defects or deficits. It may be further defined as the event in which an individual fails to perceive an unexpected stimulus that is in plain sight.

Question 48

Conscious perceptions

Answer 48

are constructions

e.g. neon spreading illusion

virtual reality can induce artificial out of body experiences

Question 49

Subjective qualities of human consciousness

Answer 49

What is it like to be me or you?

Ability to experience sensory stimuli

Ability to experience emotion

Ability to experience memories

Ability to experience self

Ability to exert Free Will

• to direct the flow of thought
• to make decisions to act or think

Question 50

The hard problem of consciousness

Answer 50

Nobody has the slightest idea how anything material could be conscious. Nobody even knows what it would be like to have the slightest idea how anything material could be conscious - Jerry Fodor

Trying to explain what it is like to be me or you

arises from brain structure and electrochemical activity

Leibniz’s mill

Question 51

Leibniz’s mill

Answer 51

One is obliged to admit that perception and what depends upon it is inexplicable on mechanical principles, that is, by figures and motions.

Imagining that there is a machine whose construction would enable it to think, to sense, and to have perception, one could conceive it enlarged while retaining the same proportions, so that one could enter into it, just like into a windmill.

Supposing this, one should, when visiting within it, find only parts pushing one another, and never anything by which to explain a perception.

Thus it is in the simple substance, and not in the composite or in the machine, that one must look for perception

Question 52

Philosophy of mind - dualism and monism

Answer 52

Dualism

• Socrates, Plato & Aristotle
• Decartes
• Res Extensa & Res Cogitans

Monism

• Pre-Socratic
• Heraclitus, Parmenides
• Post-Socratic
• Stoics & Plotinus - one substance, identified as God
• Spinoza
• Leibniz
• Hegel

Modern Materialism– The Theory of everything

Question 53

Consciousness as an illusion

Answer 53

the self as a construction

• buddhism
• Metzinger - the transparent avatar

Question 54

Difficult problems of consciousness

Answer 54

The hard problem - why is it like something to be a conscious organism

binding - integrating all the aspects into a single unified perception - senses (especially vision), memory, emotions, sense of self, sense of free will to direct thought and action

location of consciousness

splitting of consciousness

unconscious awareness

other minds

dreams