P3b
Encyclopedia
The P3b is a subcomponent of the P300
P300
The P300 wave is an event related potential elicited by infrequent, task-relevant stimuli. It is considered to be an endogenous potential as its occurrence links not to the physical attributes of a stimulus but to a person's reaction to the stimulus. More specifically, the P300 is thought to...

, an event-related potential
Event-related potential
An event-related potential is any measured brain response that is directly the result of a thought or perception. More formally, it is any stereotyped electrophysiological response to an internal or external stimulus....

 (ERP) component that can be observed in human scalp recordings of brain
Brain
The brain is the center of the nervous system in all vertebrate and most invertebrate animals—only a few primitive invertebrates such as sponges, jellyfish, sea squirts and starfishes do not have one. It is located in the head, usually close to primary sensory apparatus such as vision, hearing,...

 electrical activity. The P3b is a positive-going amplitude (usually relative to a reference behind the ear or the average of two such references) peaking at around 300ms, though the peak will vary in latency from 250-500ms or later depending upon the task. Amplitudes are typically highest on the scalp over parietal brain areas.

The P3b has been a prominent tool used to study cognitive processes for several decades. More specifically, this ERP component has played a key role in cognitive psychology research on information processing. Generally speaking, improbable events will elicit a P3b, and the less probable the event, the larger the P3b. However, in order to elicit a P3b, the improbable event must be related to the task at hand in some way (for example, the improbable event could be an infrequent target letter in a stream of letters, to which a subject might respond with a button press). The P3b can also be used to measure how demanding a task is on cognitive workload
Cognitive load
The term cognitive load is used in cognitive psychology to illustrate the load related to the executive control of working memory . Theories contend that during complex learning activities the amount of information and interactions that must be processed simultaneously can either under-load, or...

.

History

Early observations of the P3b were reported in the mid-1960s. In 1964, researchers Chapman and Bragdon. found that ERP responses to visual stimuli differed depending on whether the stimuli had meaning or not. They showed subjects two kinds of visual stimuli: numbers and flashes of light. Subjects viewed these stimuli one at a time in a sequence. For every two numbers, the subjects were required to make simple decisions, such as telling which of the two numbers was numerically smaller or larger, which came first or second in the sequence, or whether they were equal. When examining evoked potentials to these stimuli (i.e., ERPs), Chapman and Bragdon found that both the numbers and the flashes elicited the expected sensory responses (e.g., visual N1
Visual N1
The Visual N1 is a visual evoked potential, a type of event-related electrical potential , that is produced in the brain and recorded on the scalp. The N1 is so named to reflect the polarity and typical timing of the component. The "N" indicates that the polarity of the component is negative with...

 components), and that the amplitude of these responses varied in an expected fashion with the intensity of the stimuli. They also found that the ERP responses to the numbers, but not to the light flashes, contained a large positivity that peaked around 300ms after the stimulus appeared. They also noted that the amplitude of this positivity was not affected by the intensity of the stimulus. Chapman and Bragdon speculated that this differential response to the numbers, which came to be known as the P300 response, resulted from the fact that the numbers where meaningful to the participants, based on the task that they were asked to perform.

In 1965, Sutton and colleagues published results from two experiments that further explored this late positivity. They presented subjects with either a cue that indicated whether the following stimulus would be a click or a flash, or a cue which required subjects to guess whether the following stimulus would be a click or a flash. They found that when subjects were required to guess what the following stimulus would be, the amplitude of the “late positive complex” was larger than when they knew what the stimulus would be. In a second experiment, they presented two cue types. For one cue there was a 2 in 3 chance that the following stimulus would be a click and a 1 in 3 chance that the following stimulus would be a flash. The second cue type had probabilities that were the reverse of the first. They found that the amplitude of the positive complex was larger in response to the less probable stimuli, or the one that only had a 1 in 3 chance of appearing. Another important finding from these studies is that this late positive complex was observed for both the clicks and flashes, indicating that the physical type of the stimulus (auditory or visual) did not matter.

In later studies published in 1967, Sutton and colleagues had subjects guess whether they would hear one click or two clicks. They observed a positivity around 300ms after the second click occurred or would have occurred in the case of the single click. They also had subjects guess how long the interval between clicks might be, and the late positivity occurred 300ms after the second click. This shows two important findings: first that this late positivity occurred when the uncertainty about the type of click was resolved, and second that even an absence of a stimulus, when it was relevant to the task, would elicit the late positive complex. These early studies encouraged the use of ERP methods to study cognition and provided a foundation for the extensive work on the P3b in the decades that followed.

Since the initial discovery of this ERP component, research has shown that the P300 is not a unitary phenomenon. Rather, we can distinguish between two subcomponents of the P300: the novelty P3, or P3a
P3a
The P3a, or novelty P3, is a component of time-locked signals known as event-related potentials . The P3a is a positive-going scalp-recorded brain potential that has a maximum amplitude over frontal/central electrode sites with a peak latency falling in the range of 250-280 ms...

, and the classic P3, or P3b. This article focuses on the P3b.

Component characteristics

Assuming that a cephalic reference is used (i.e., a reference electrode placed somewhere on the head, such as the tip of the nose or the chin), the P3b is a positive-going ERP whose latency
Latency
Latency or latent may refer to:*Latency period , the time between exposure to a pathogen, chemical or radiation, and when symptoms first become apparent...

 at peak amplitude
Amplitude
Amplitude is the magnitude of change in the oscillating variable with each oscillation within an oscillating system. For example, sound waves in air are oscillations in atmospheric pressure and their amplitudes are proportional to the change in pressure during one oscillation...

 is usually about 300ms to simple sensory stimuli. Amplitude has been defined as the difference between the mean pre-stimulus baseline voltage and the voltage of the largest (in this case, positive-going) peak of the ERP waveform in a specific time window. P3b amplitude is generally relatively large (10-20 microvolts), but varies systematically as a function of a number of important factors (see Functional significance: Factors that affect the amplitude of the P3b). Latency has been defined as the time from the onset of the stimulus (or whatever the desired point of measurement might be) to the point of maximum amplitude. The latency of the P3b is usually around 300ms, though this can vary within a time window of around 250-500ms (or later) depending on factors such as task conditions and the age of the subjects (see Functional significance: Factors that affect the latency of the P3b).

The scalp distribution of P3b is generally larger over parietal areas. However, using a 15-electrode setup with a linked-earlobe reference and an oddball task (described below), researchers have also found that the positivity increased moving from frontal to parietal sites, and that females have a greater increase than males. Other research, using the International 10-20 System with a left mastoid reference and an oddball task, has shown that with increasing age, the distribution of P3b tends to shift more frontally. Thus, the exact distribution may be dependent upon the task, as well as the gender and age of the subjects.

Main paradigms

The P3b can be observed in a variety of experimental contexts. The most common paradigms will either present infrequent, task-relevant stimuli as a way to elicit a P3b, or they will employ two tasks at the same time to use P3b as a measure of cognitive workload. Of course, it should be noted that any experimental paradigm in which participants are instructed to attend to and evaluate stimuli should elicit a P3b component, including selective attention
Attention
Attention is the cognitive process of paying attention to one aspect of the environment while ignoring others. Attention is one of the most intensely studied topics within psychology and cognitive neuroscience....

 tasks, explicit memory
Memory
In psychology, memory is an organism's ability to store, retain, and recall information and experiences. Traditional studies of memory began in the fields of philosophy, including techniques of artificially enhancing memory....

 tasks, and visual search
Visual search
Visual search is a type of perceptual task requiring attention that typically involves an active scan of the visual environment for a particular object or feature among other objects or features . Visual search can take place either with or without eye movements...

 tasks (for thorough reviews of experimental paradigms which have been used to elicit this component, see Kok, 2001 and Verleger, 1997)

Oddball paradigms

Two classic paradigms are the two-stimulus oddball task
Oddball paradigm
The oddball paradigm is a technique used in evoked potential research in which trains of stimuli that are usually auditory or visual are used to assess the neural reactions to unpredictable but recognizable events...

 and the three-stimulus oddball task, the latter of which is used to examine both P3b and P3a
P3a
The P3a, or novelty P3, is a component of time-locked signals known as event-related potentials . The P3a is a positive-going scalp-recorded brain potential that has a maximum amplitude over frontal/central electrode sites with a peak latency falling in the range of 250-280 ms...

. In a classic two-stimulus oddball task, a sequence of visual stimuli is presented. For example, subjects might see a string of letters presented one at a time. A less frequent “target” or “oddball” stimulus such as the letter T is presented along with more frequent “standard” stimuli, such as the letter S. The subject is typically instructed to respond in some way (such as with a button press) only to the targets, and to ignore the standards. The P3b is typically observed around 300ms after each presentation of the target (oddball) stimulus.

A three-stimulus oddball task is exactly like the two-stimulus oddball task, except that in addition to the targets and standards, an infrequent, deviant stimulus such as the letter “D” will appear. These are often known as deviant standards, because they are not the target of the task but they differ from the regular standard. The P3b has been shown to respond only to task-relevant stimuli, or the targets that are actively being searched for (in this example, the letter T). Therefore, the deviant standard “D” will not elicit a strong P3b because it is not relevant to the task. However, the deviant standard will still elicit an earlier, positive-going potential that is usually higher over frontal sites known as the P3a. Unlike the P3b, the P3a will habituate with repeated presentations.

Dual-task paradigms

Another set of paradigms used to study the P3b are dual task paradigms. There are several variations of the dual task paradigm, and they can be used to study cognitive workload
Cognitive load
The term cognitive load is used in cognitive psychology to illustrate the load related to the executive control of working memory . Theories contend that during complex learning activities the amount of information and interactions that must be processed simultaneously can either under-load, or...

 (see Kok, 2001). Workload can be defined as the amount of processing resources required for a particular task. In a dual-task paradigm, participants are given two tasks to perform simultaneously; a primary task and a secondary task. Though the primary task can be of virtually any type, the secondary task should involve some traditional P300 paradigm (e.g., an oddball task). When these tasks are performed concurrently, we would expect to see a reduction in P3b amplitude in response to the secondary task if the primary task requires some stimulus evaluation resources. Furthermore, the extent of this reduction is presumed to reflect the amount of workload associated with the primary task. In fact, there should be a reciprocal relationship between the amplitudes of the P3b response elicited by the primary and secondary tasks, respectively. If the primary task is easier (i.e., requires less stimulus evaluation resources), participants have more resources left over to devote to the secondary task. Conversely, if the primary task is harder (i.e., requires more stimulus evaluation resources), participants have less resources left over to devote to the secondary task.

To give an example, subjects might perform a primary task, such as tracking a visual object on a screen with a joystick, concurrently with a secondary task of mentally counting oddballs in an auditory stream. The difficulty of the primary task is usually manipulated in various ways, and the impacts of these manipulations on the P3b response to the secondary task are examined. For example, in one condition subjects might track the one-dimensional movement of an object (only up and down), and in the more difficult condition they might have to track two dimensional movement (any direction on a computer screen). A motor manipulation like this will typically impact reaction times on the secondary task, but will not impact the P3b response. However, if you increase the demand on working memory or other cognitive resources during the primary task, for example by adding objects to the screen or only having subjects selectively attend to one part of the screen, the amplitude of the P3b in response to oddballs in the secondary task will diminish. The amount that it diminishes can be a measure of how many working memory
Working memory
Working memory has been defined as the system which actively holds information in the mind to do verbal and nonverbal tasks such as reasoning and comprehension, and to make it available for further information processing...

 or stimulus evaluation resources are being used by the primary task.

In another variation of the dual-task paradigm, subjects are presented with a visual stream of items presented one at a time. In this stream there are two targets, each of which requires a separate response. The amount of time or items separating the two targets is varied, and the amplitude of the P3b in response to the second item is examined. Diminished amplitude of the P3b response to the second target would be expected when the first target required more processing or working memory resources.

Cognitive variables

Donchin stated that the less probable the event, the larger the P3b amplitude
Amplitude
Amplitude is the magnitude of change in the oscillating variable with each oscillation within an oscillating system. For example, sound waves in air are oscillations in atmospheric pressure and their amplitudes are proportional to the change in pressure during one oscillation...

 will be. There are several types of probability that can affect P3b amplitude: global probability, or how frequent the targets are relative to the number of standards (for example, P3b amplitude is greater when targets make up 10 percent of the stimuli than when targets comprise 20 percent of the stimuli); local probability, or the probability within the specific sequence of the events (for example, whether a target followed a standard or another target); ); and temporal probability, or how frequently targets occur within a one-minute time period (whether standards are present or not).

Ray Johnson published a triarchic model of P300 amplitude in 1986. Although he does not explicitly refer to P3b in this paper, most of his discussions refer to P3b. He offered three things that affected the amplitude – subjective probability, stimulus meaning, and information transmission. He summarized his view in the following formula: P300 amplitude = f[T x (1/P + M)], where P is subjective probability, M is stimulus meaning, and T is information transmitted. . He describes subjective probability as objective probability with the added element of human judgment of how relevant a stimulus is to the task, and notes that P300 amplitude is directly related to the amount of uncertainty that is reduced by a stimulus. However, it has also been found that P300 amplitude can change in the absence of changes in probability. Stimulus meaning therefore refers to variables that account for the processing of a stimulus that are not related to probability. (Recall that Chapman and Bragdon found that only the stimulus that had meaning in their experiment elicited the late positivity.) Stimulus meaning encompasses three independent variables that can be manipulated – task complexity (how difficult a task is, or how many tasks must be performed at once), stimulus complexity (perceptual demand, or how many relevant features of the stimulus must be processed – a face being more complex than a dot), and stimulus value (the significance, or for example the monetary value: the greater the value the larger the P300 amplitude). Information transmission is the proportion of stimulus information received by a person relative to how much information the stimulus originally contained. There are external and internal manipulations of information transmission. When much information is lost for external reasons, for example because the stimulus is harder to discriminate or perceive, P300 amplitude is lower. Internal manipulations are variations in how much attention subjects are required or allowed to give to the stimulus. P3b requires attention, and increasing the difficulty of maintaining attention will correspondingly decrease P3b amplitude. To summarize, Johnson describes that probability on many levels, the relevance of the stimulus to the task, and the amount information a stimulus transmits are all variables that will determine P3b amplitude.

More recently, Albert Kok reviewed the literature on cognitive workload, and concluded that P3b amplitude depends on the demands on cognitive capacity. In dual-task paradigms like those described above, subjects are required to perform a primary and a secondary task. When the primary task is more perceptually and cognitively demanding, the P3b amplitude in response to oddballs in the secondary task is decreased. Kok also supports aspects of Johnson’s theory, stating that the amount of attention allocated to a task, the relevance of the stimulus to the task, and the probability of the stimulus will all help determine what the P3b amplitude will be.

Gender, learning, and asymmetries

Other variables have been found to influence P3b amplitude. Some research using oddball tasks has indicated that females have larger P3b amplitudes than males, and that the amplitude increases more moving from frontal to parietal areas. Other research has found that learning in a topic area can affect P3b amplitude in tasks related to that area. One study took a group of individuals and gave some of them training in standard musical chord progressions while the others remained untrained. All were then given chord sequences that contained violations. Researchers found that those who had received prior training had greater P3b amplitudes in response to harmonic violations in musical sequences. This is presumably because those with training had more experience with the rules that govern harmonics, and therefore have a larger degree of expectancy for chord progressions and are more sensitive to deviance. There is also some evidence to suggest that in all subjects, P3b amplitude is distributed asymmetrically over the scalp. Research has shown that P3b amplitudes are systematically larger over the right frontal and central hemispheres than the left, though there is some debate as to whether this is due to structural causes (such as skull thickness or cranial irregularities) or to cognitive causes.

Clinical variables

A number of clinical variables such as age, disease, mental illness, and substance use have been studied in relation to P3b amplitude. Many of these studies do not refer to the P3b explicitly, but most use oddball tasks and thus would most likely have elicited a P3b. As previously noted, the topography of the amplitude of P3b tends to shift more frontally with age, but amplitude in these frontal areas does not seem to be affected by age
Ageing
Ageing or aging is the accumulation of changes in a person over time. Ageing in humans refers to a multidimensional process of physical, psychological, and social change. Some dimensions of ageing grow and expand over time, while others decline...

. Another study using an auditory oddball task showed that P300 amplitude was enlarged in unmedicated individuals with mild Parkinson's disease
Parkinson's disease
Parkinson's disease is a degenerative disorder of the central nervous system...

 when compared with healthy controls. The same study also used older and younger groups of individuals with Parkinson's disease, and found that age itself did not have an effect on amplitude. Other studies have shown that individuals with schizophrenia
Schizophrenia
Schizophrenia is a mental disorder characterized by a disintegration of thought processes and of emotional responsiveness. It most commonly manifests itself as auditory hallucinations, paranoid or bizarre delusions, or disorganized speech and thinking, and it is accompanied by significant social...

 have a marked reduction in P3b amplitude, suggesting impairments in working memory or other processing. Substance use has also been shown to affect P3b. Some studies show that alcoholics have larger P300 amplitudes in response to an auditory oddball task, but that alcoholics who have many alcoholic relatives have lower P300 amplitudes when compared to controls. P300 amplitude also appears to be sensitive to pharmacological interventions. When twelve healthy subjects were given lorazepam (a benzodiazepine drug used to treat anxiety and sometimes depression) and asked to perform an oddball task, their P300 amplitude was reduced. These studies and others have shown that conditions that tend to influence cognition (such as age, disease, mental illness, and substance use) affect the amplitude of P3b or its distribution.

Functional significance: Factors that influence latency

In line with the view that the P3b component reflects uncertainty resolution, there is evidence to suggest that time at which this component begins to appear in the ERP (i.e., its latency
Latency
Latency or latent may refer to:*Latency period , the time between exposure to a pathogen, chemical or radiation, and when symptoms first become apparent...

) corresponds to the time at which uncertainty is resolved. For example, Sutton and colleagues (1967) performed a study in which they manipulated when uncertainty could be resolved. More specifically, participants were presented with either single or double (auditory) clicks that varied in intensity. In one condition, participants were asked to report the number of clicks they heard. When a double click occurred, the P3b response occurred approximately 300 ms after the second click. More importantly, the timing of the P3b response was almost identical when only a single click was presented, suggesting that this component was generated based upon when the second click might have occurred. In fact, when the duration between the two clicks was manipulated, the onset of the P3b was delayed by the exact amount of time between them (e.g., when the second click was presented 500 ms after the first one, the P3b response occurred at 800 ms). In contrast, when participants were instructed to respond based upon the intensity of the clicks, the P3b response always occurred approximately 300 ms after the first click. Presumably, participants could determine the intensity of the clicks based upon the first one; thus, the first click resolved their uncertainty.

If in fact the latency of the P3b component reflects the timing of uncertainty resolution, then one might expect the latency of this component to be closely related to the difficulty of the evaluation or categorization. In fact, there is now ample evidence to support this claim. For example, McCarthy & Donchin (1981) presented participants with 3 x 3 matrices, each of which contained either the word ‘LEFT’ or the word ‘RIGHT’. Their task was to respond when they located the direction word in the matrix, and the identity of the word determined what type of response they should make. McCarthy and Donchin found that the P3b component occurred significantly earlier when the rest of the items in the matrix were number signs (#), relative to when the rest of the items were random letters. In essence, the random letters served as “noise”, which caused participants to take longer to identify the target word. Along these same lines, several other task manipulations which are thought to influence the difficulty of the evaluation or categorization involved have been found to influence P3b latency (e.g., decreasing the physical intensity of the stimuli; see Verleger, 1997 for a review). Collectively, these findings suggest that P3b latency reflects the amount of time it takes participants to evaluate or categorize the stimulus in question.

Given that performance indices (such as response times) have long been used in cognitive psychology to study the duration and/or timing of mental events, one might ask whether P3b latency simply provides a comparable neural index of these same processes. Research suggests that P3b latency is highly correlated with response times when participants are instructed to prioritize accuracy in their responses, but is less correlated with response times when participants are instructed to prioritize speed in their responses. This pattern of results suggests that the P3b primary reflects stimulus evaluation processes, whereas response times are thought to reflect both stimulus evaluation and response selection (but for a critique of this claim, see Verleger, 1997). More specifically, when participants are instructed to prioritize speed (i.e., to respond as quickly as possible), they may respond before stimulus evaluation is complete (which is consistent with the fact that participants tend to make more errors under these conditions). Additional support for this conclusion comes from the finding that P3b latency is not affected by experimental manipulations thought to influence response selection processes (e.g., stimulus-response compatibility), whereas reaction times are (e.g., McCarthy & Donchin, 1981). An important implication of this conclusion is that the P3b component can used to identify the “locus of interference” in many popular cognitive paradigms. For example, Luck (1998) found that P3b latency was only slightly delayed during the psychological refractory period (PRP), suggesting that response time interference in this paradigm primarily reflects a delay in response selection.

Other factors which have been found to influence the latency of the P3b response include factors related to physiological arousal, such as heart rate
Heart rate
Heart rate is the number of heartbeats per unit of time, typically expressed as beats per minute . Heart rate can vary as the body's need to absorb oxygen and excrete carbon dioxide changes, such as during exercise or sleep....

 and caffeine
Caffeine
Caffeine is a bitter, white crystalline xanthine alkaloid that acts as a stimulant drug. Caffeine is found in varying quantities in the seeds, leaves, and fruit of some plants, where it acts as a natural pesticide that paralyzes and kills certain insects feeding on the plants...

 consumption, as well as factors related to cognitive capacity, such as age
Ageing
Ageing or aging is the accumulation of changes in a person over time. Ageing in humans refers to a multidimensional process of physical, psychological, and social change. Some dimensions of ageing grow and expand over time, while others decline...

 and differences in how rapidly individuals can allocate attentional resources.

Theory

Several theories have been put forward about what cognitive processes the P3b reflects. Donchin proposed a “context updating model.” This model posits that the brain constantly and automatically generates hypotheses about the environment and what it is about to experience. A P300 wave, including a P3b, is generated when the brain receives information that indicates that it needs to change these hypotheses, or update its mental model of the world. In other words, a P300 is elicited whenever there is sufficient information to indicate that the brain needs to update working memory. Though the “context updating” account is well supported by existing research, several alternative theories have been proposed. For example, Verleger and colleagues (2005) have proposed that the P3b component reflects a process that mediates between perceptual analysis and response initiation. More specifically, this process emerges from a cognitive mechanism responsible for monitoring whether the classification of a stimulus is appropriately translated into action. ) This theory constitutes a direct challenge to the widely held view that the P3b component reflects processes involved in perception but not response initiation (see Verleger, 1997).

Another theory proposed by Kok proposed that the P3b reflects mechanisms involved in event categorization, or the process that leads to the decision about whether an external stimulus matches or does not match an internal representation of a specific category or stimuli. Categorization requires processes such as attention, perception, and working memory, all of which are known to affect P3b amplitude (as reviewed above), and thus this model integrates the research findings on P3b. Kok also discusses another “template-matching model,” where subjects are required to detect a target and create a representation or “template” of the stimulus, and the P3b is strongest when the template is matched by presented stimuli. The template-matching model is similar to the event categorization model, and suggests that the P3b reflects processes that underlie recognition memory (which can also require working memory.) The event-categorization model has similarities to the model proposed by Verleger that suggests that the P3 is generated during the “closure” of a perceptual cycle. The cognitive version of Verleger’s model suggests that the P3b is generated when a decision is made that a stimulus belongs to a task-relevant category. As Kok summarizes, P3b appears to integrate processes that are required to identify and match a stimulus with some kind of internal representation.

Neural origins

The neural generators of the P3b are highly debated. Early studies using electrodes implanted in the brain indicated that the hippocampal formation
Hippocampus
The hippocampus is a major component of the brains of humans and other vertebrates. It belongs to the limbic system and plays important roles in the consolidation of information from short-term memory to long-term memory and spatial navigation. Humans and other mammals have two hippocampi, one in...

 might generate the P300. However, later work found that if the hippocampus is lesioned or damaged, the P300 is still generated and no reliable differences in its amplitude or latency are observed. Subsequent research found that lesioning the temporal-parietal lobe junction significantly affected P300 production, indicating that this area may contain one or more generators of the P3b. This suggests that the P3b might indicate some kind of circuit pathway between frontal and temporal/parietal brain areas. A temporal-parietal generator would be logical, because P3b appears to be elicited when attentional resource activations promote working memory and other processes in temporal-parietal areas. Further EEG research utilizing source modeling techniques, along with research using alternative brain imaging methods (e.g., fMRI, MEG), intracranial recordings, and brain injury patients, has also indicated that the P3b component originates from activation in the parietal
Parietal lobe
The parietal lobe is a part of the Brain positioned above the occipital lobe and behind the frontal lobe.The parietal lobe integrates sensory information from different modalities, particularly determining spatial sense and navigation. For example, it comprises somatosensory cortex and the...

 and temporal lobes of the cerebral cortex
Cerebral cortex
The cerebral cortex is a sheet of neural tissue that is outermost to the cerebrum of the mammalian brain. It plays a key role in memory, attention, perceptual awareness, thought, language, and consciousness. It is constituted of up to six horizontal layers, each of which has a different...

. There is also some evidence that activation is certain limbic structures
Limbic system
The limbic system is a set of brain structures including the hippocampus, amygdala, anterior thalamic nuclei, septum, limbic cortex and fornix, which seemingly support a variety of functions including emotion, behavior, long term memory, and olfaction. The term "limbic" comes from the Latin...

, such as the anterior cingulate cortex
Anterior cingulate cortex
The anterior cingulate cortex is the frontal part of the cingulate cortex, that resembles a "collar" form around the corpus callosum, the fibrous bundle that relays neural signals between the right and left cerebral hemispheres of the brain...

, may contribute to the P3b component.

It is not yet known which neurotransmitter systems are responsible for the generation of P3b. The temporal-parietal region is densely populated by norepenepherine inputs, and there is some evidence that the locus coeruleus norepinephrine
Norepinephrine
Norepinephrine is the US name for noradrenaline , a catecholamine with multiple roles including as a hormone and a neurotransmitter...

 system might be responsible for generating the P3b. Because many of these studies were conducted using animals, further research is needed to determine the neurotransmitters that are responsible for P3b generation.

See also

  • Somatosensory evoked potential
    Somatosensory Evoked Potential
    Somatosensory Evoked Potentials are a useful, noninvasive means of assessing somatosensory system functioning. By combining SEP recordings at different levels of the somatosensory pathways, it is possible to assess the transmission of the afferent volley from the periphery up to the cortex...

  • C1 and P1
    C1 & P1 (Neuroscience)
    The C1 and P1 are two human scalp-recorded event-related brain potential components, collected by means of a technique called electroencephalography . The C1 is named so because it was the first component in a series of components found to respond to visual stimuli when it was first discovered...

  • Visual N1
    Visual N1
    The Visual N1 is a visual evoked potential, a type of event-related electrical potential , that is produced in the brain and recorded on the scalp. The N1 is so named to reflect the polarity and typical timing of the component. The "N" indicates that the polarity of the component is negative with...

  • Mismatch negativity
    Mismatch negativity
    The mismatch negativity or mismatch field is a component of the event-related potential to an odd stimulus in a sequence of stimuli. It arises from electrical activity in the brain and is studied within the field of cognitive neuroscience and psychology. It can occur in any sensory system, but...

  • N100
  • N200
    N200 (neuroscience)
    The N200, or N2, is an event-related potential component. An ERP can be monitored using a non-invasive electroencephalography cap that is fitted over the scalp on human subjects...

  • N2pc
    N2pc
    N2pc refers to an ERP component linked to selective attention. The N2pc appears over visual cortex contralateral to the location in space to which subjects are attending; if subjects pay attention to the left side of the visual field, the N2pc appears in the right hemisphere of the brain, and...

  • N170
    N170
    The N170 is a component of the event-related potential that reflects the neural processing of faces.When potentials evoked by images of faces are compared to those elicited by other visual stimuli, the former show increased negativity 130-200 ms after stimulus presentation...

  • P200
    P200
    In neuroscience, the visual P200 or P2 is a waveform component or feature of the event-related potential measured at the human scalp. Like other potential changes measurable from the scalp, this effect is believed to reflect the post-synaptic activity of a specific neural process...

  • N400
  • P300 (neuroscience)
    P300 (neuroscience)
    The P300 wave is an event related potential elicited by infrequent, task-relevant stimuli. It is considered to be an endogenous potential as its occurrence links not to the physical attributes of a stimulus but to a person's reaction to the stimulus. More specifically, the P300 is thought to...

  • P3a
    P3a
    The P3a, or novelty P3, is a component of time-locked signals known as event-related potentials . The P3a is a positive-going scalp-recorded brain potential that has a maximum amplitude over frontal/central electrode sites with a peak latency falling in the range of 250-280 ms...

  • Late Positive Component
    Late Positive Component
    The LPC is a positive-going event-related brain potential component that has been important in studies of explicit recognition memory...

  • Difference due to Memory
    Difference due to Memory
    Difference due to Memory indexes differences in neural activity during the study phase of an experiment for items that subsequently are remembered compared to items that are later forgotten...

  • Contingent negative variation
    Contingent negative variation
    The contingent negative variation was one of the first event-related potential components to be described. The CNV component was first described by Dr. W. Grey Walter and colleagues in an article published in Nature in 1964...

  • Error-related negativity
    Error-related negativity
    Error-related negativity , , is a component of an event-related potential . ERPs are electrical activity in the brain as measured through electroencephalography and time-locked to an external event...

  • Bereitschaftspotential
    Bereitschaftspotential
    In neurology, the Bereitschaftspotential or BP , also called the pre-motor potential or readiness potential , is a measure of activity in the motor cortex of the brain leading up to voluntary muscle movement. The BP is a manifestation of cortical contribution to the pre-motor planning of volitional...

  • Lateralized readiness potential
    Lateralized readiness potential
    In neuroscience, the lateralized readiness potential is an event-related brain potential, or increase in electrical activity at the surface of the brain, that is thought to reflect the preparation of motor activity on a certain side of the body; in other words, it is a spike in the electrical...

  • Early left anterior negativity
    Early left anterior negativity
    The early left anterior negativity is an event-related potential in electroencephalography , or component of brain activity that occurs in response to a certain kind of stimulus...

  • P600
    P600
    The P600 is an event-related potential , or peak in electrical brain activity measured by electroencephalography . It is a language-relevant ERP and is thought to be elicited by hearing or reading grammatical errors and other syntactic anomalies...

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