Use Electroencephalogram to Study Neural Dynamics of Fear Conditioning and Avoidance Learning Circuit in Humans

Skin Conductance Response (SCR) during the image familiarization phase (viewing phase)

On day 1 during the image familiarization phase (also called the viewing phase), participants will be presented with images on a computer screen from three different object categories, such as fruits, animals, and tools, and participants will be instructed to passively view the presented images. During the viewing phase, Skin Conductance Response (SCR) will be recorded to assess participants' response to each object category. SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each of the 3 object categories.

Time frame: During the image familiarization/viewing phase (about 15 minutes total)

Skin Conductance Response (SCR) during the fear conditioning phase

In this phase participants will continue to be presented with images from the three categories, which will be used as conditioned stimuli (CS), as follows. Objects from two categories will be reinforced by a mild electrical shock (CS+), whereas the third category will never be reinforced (CS-). Skin Conductance Response (SCR) will be recorded to assess participants' response to each object category. SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated. SCR will be reported in microsiemens for each of the 3 object categories.

Time frame: During the fear conditioning phase (about 18 minutes total)

Skin Conductance Response (SCR) during the avoidance learning phase

On day 1, after the fear phase, participants will complete the avoidance learning phase. In this phase, participants can avoid a shock by pressing a button. Objects from some categories will be reinforced by a mild electrical shock (CS+), whereas the other categories will not be reinforced (CS-). Pressing the button during the presentation of the object will or will not prevent the shock from occurring. During the avoidance learning phase, Skin Conductance Response (SCR) will be recorded to assess participants' response to each object category. SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each of the 3 object categories.

Time frame: During the avoidance learning phase (about 18 minutes total)

Skin Conductance Response (SCR) during the memory recall phase

On day 2, participants will complete the memory recall phase. During this phase, participants will again be presented with images on a computer screen from three different object categories, such as fruits, animals, and tools. Participants will be informed that they have a choice to press or not to press a button during the image presentation to avoid a possible shock. During the memory recall phase, Skin Conductance Response (SCR) will be recorded to assess participants' response to each object category. SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each of the 3 object categories.

Time frame: During the memory recall phase (about 18 minutes total)

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately Before the Viewing Phase on day 1

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately After the Viewing Phase (day 1 about 15 minutes after start of viewing phase)

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately Before the fear conditioning Phase (day 1 about 20 minutes after start of viewing phase)

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately After the fear conditioning Phase (day 1 about 38 minutes after start of viewing phase)

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately Before the avoidance learning phase (day 1 about 43 minutes after start of viewing phase)

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately after the avoidance learning phase (day 1 about 61 minutes after start of viewing phase)

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately Before the memory recall phase on day 2 (about 1 day after start of viewing phase)

Skin Conductance Response (SCR) during resting state

Skin Conductance Response (SCR) in microsiemens will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2). SCR is measured by placing two electrodes on the skin and passing a tiny electric charge between the two points. SCR is proportionally related to the number of sweat glands that are activated, meaning that the more emotionally aroused an individual is by the visual stimuli, the more SCR is increased. SCR will be reported in microsiemens for each resting state period. Resting-state Electroencephalogram (EEG) will be recorded. EEG is measured in microvolts, refers to the spontaneous electrical activity in the brain during resting-state (i.e., no task).

Time frame: Immediately after the memory recall phase (day 2 about 1 day 18 minutes after start of memory recall phase)

Number of participants who had higher event-related potentials (ERPs) in response to CS+ categories relative to CS- categories, as assessed by electroencephalogram (EEG) during the image familiarization phase (viewing phase)

On day 1 during the image familiarization phase (also called the viewing phase), participants will be presented with images on a computer screen from three different object categories, such as fruits, animals, and tools, and participants will be instructed to passively view the presented images. During the viewing phase, event-related potentials (ERPs) will be recorded to assess participants' response to each object category. Event-related potential (ERP), which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli.

Time frame: During the image familiarization/viewing phase (about 15 minutes total)

Number of participants who had higher event-related potentials (ERPs) in response to CS+ categories relative to CS- categories, as assessed by electroencephalogram (EEG) during the fear conditioning phase

On day 1, after the viewing phase, participants will then complete the fear conditioning phase. Participants will continue to be presented with images from the three categories. During the fear conditioning phase, ERPs will be recorded to assess participants' response to each object category.ERP), which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli.

Time frame: During the image familiarization/viewing phase (about 15 minutes total)

Number of participants who had higher event-related potentials (ERPs) in response to CS+ categories relative to CS- categories, as assessed by electroencephalogram (EEG) during the avoidance learning phase

On day 1, after the fear avoidance phase, participants will complete the avoidance learning phase. In this phase, participants can or can not avoid a shock by pressing a button. During the avoidance learning phase, ERPs will be recorded to assess participants' response to each object category. Event-evoked potential (EEP), which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli.

Time frame: During the avoidance learning phase (about 18 minutes total)

Number of participants who had higher event-related potentials (ERPs) in response to CS+ categories relative to CS- categories, as assessed by electroencephalogram (EEG) during the memory recall phase

On day 2, participants will complete the memory recall phase. During this phase, participants will again be presented with images on a computer screen from three different object categories, such as fruits, animals, and tools. Participants will be informed that they have a choice to press or not to press a button during the CS presentation to avoid a possible shock. During the memory recall phase, ERPs will be recorded to assess participants' response to each object category. ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli.

Time frame: During the memory recall phase (about 18 minutes total)

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately Before the Viewing Phase on day 1

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately After the Viewing Phase (day 1 about 15 minutes after start of viewing phase)

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately Before the fear conditioning Phase (day 1 about 20 minutes after start of viewing phase)

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately After the fear conditioning Phase (day 1 about 38 minutes after start of viewing phase)

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately Before the avoidance learning phase (day 1 about 43 minutes after start of viewing phase)

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately after the avoidance learning phase (day 1 about 61 minutes after start of viewing phase)

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately Before the memory recall phase on day 2 (about 1 day after start of viewing phase

Spontaneous electrical activity in the brain during the resting state as assessed by electroencephalogram (EEG)

ERP, which is assessed by electroencephalogram (EEG) and measured in microvolts, refers to the electrical activity in the brain that is elicited by a specific stimuli. EEG will be recorded during the resting states immediately before and after each experimental phase (the 4 experimental phases are the viewing phase on day 1, the fear condition phase on day 1, the avoidance learning phase on day 1, and the memory recall phase on day 2).

Time frame: Immediately after the memory recall phase (day 2 about 1 day 18 minutes after start of memory recall phase).

Number of times a participant pressed the button to avoid shock in response to an object category during the avoidance learning phase

On day 1, after the fear avoidance phase, participants will complete the avoidance learning phase. In this phase, participants can or can not avoid a shock by pressing a button. During the avoidance Learning Phase, the number of time a participant presses the button in response to each of the 3 object categories will be reported.

Time frame: During the avoidance learning phase (about 18 minutes total)

Number of times a participant pressed the button in response to an object category during the memory recall phase

On day 2, participants will complete the memory recall phase. During this phase, participants will again be presented with images on a computer screen from three different object categories, such as fruits, animals, and tools. Participants will be informed that they have a choice to press or not to press a button during the CS presentation to avoid a possible shock. During the memory recall phase, the number of time a participant presses the button in response to each of the 3 object categories will be reported.

Time frame: During the memory recall phase (about 18 minutes total)