The investigators will use multiple methods (including Oxytocin intranasal inhalation, neuroimaging, behavioral measures, peripheral hormone measurements) to examine how individuals' behavior, cognition, and brain function is impacted by the neuro-hormone Oxytocin. Specifically, the investigators plan to evaluate the influence of Oxytocin administration on affective processing in non-trauma exposed and trauma-exposed adults (both with and without posttraumatic stress disorder, PTSD).
The investigators will use multiple methods (including Oxytocin intranasal inhalation, neuroimaging, behavioral measures, peripheral hormone measurements) to examine how individuals' behavior, cognition, and brain function is impacted by the neuro-hormone Oxytocin. Specifically, the investigators plan to evaluate the influence of Oxytocin administration on affective processing in non-trauma exposed and trauma-exposed adults (both with and without posttraumatic stress disorder, PTSD). The investigators expect oxytocin (compared to placebo) to positively influence affect processing in healthy subjects, as well as among those diagnosed with PTSD. Given current literature, the investigators expect oxytocin to elevate the processing\\perception of positive-related stimuli, and reduce the salience of aversive or un-pleasant cues. The investigators expect oxytocin to impact participants' brain function as measured with functional magnetic resonance imaging (fMRI) while visually processing social and affect-related stimuli, rendering brain function and affective processing to be "more typical" or "adaptive" compared to placebo. Oxytocin's effect on human repertoire is not necessarily direct, but can interact with the individual's socioemotional characteristics, early life environment, and psychiatric symptoms. Therefore, the investigators will incorporate measures that capture the various dimensions that likely shape the effect of oxytocin.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
11
Yale University
New Haven, Connecticut, United States
fMRI Analysis: Change in Anterior Insula Region
Change in blood-oxygen-level dependent (BOLD) contrast signal in regions of interest relevant to fear/threat (e.g., decrease in amygdala activation) and reward processing (increase in ventral striatum activation) in oxytocin versus placebo sessions. Forearm brush stroking targets C-tactile (CT) nerves, which respond to gentle touch and engage the insula and cortical brain regions that mediate social-emotional processing. Palm brush stroking is the control condition, in that CT afferents do not innervate the palm. We contrasted BOLD responses to gentle continuous brushing of the arm vs. palm (4 blocks of 8 trials each), expecting greater oxytocin-related increases in brain reactivity within the insula and other regions in the forearm condition versus the palm condition. The values are % signal change from baseline.
Time frame: 1 week; fMRI data collected at second and third visits, one week apart
fMRI Analysis: Change in Accumbens Region
Change in blood-oxygen-level dependent (BOLD) contrast signal in regions of interest relevant to fear/threat (e.g., decrease in amygdala activation) and reward processing (increase in ventral striatum activation) in oxytocin versus placebo sessions. Forearm brush stroking targets C-tactile (CT) nerves, which respond to gentle touch and engage the insula and cortical brain regions that mediate social-emotional processing. Palm brush stroking is the control condition, in that CT afferents do not innervate the palm. We contrasted BOLD responses to gentle continuous brushing of the arm vs. palm (4 blocks of 8 trials each), expecting greater oxytocin-related increases in brain reactivity within the insula and other regions in the forearm condition versus the palm condition. The values are % signal change from baseline.
Time frame: 1 week; fMRI data collected at second and third visits, one week apart
fMRI Analysis: Change in Amygdala Region
Change in blood-oxygen-level dependent (BOLD) contrast signal in regions of interest relevant to fear/threat (e.g., decrease in amygdala activation) and reward processing (increase in ventral striatum activation) in oxytocin versus placebo sessions. Forearm brush stroking targets C-tactile (CT) nerves, which respond to gentle touch and engage the insula and cortical brain regions that mediate social-emotional processing. Palm brush stroking is the control condition, in that CT afferents do not innervate the palm. We contrasted BOLD responses to gentle continuous brushing of the arm vs. palm (4 blocks of 8 trials each), expecting greater oxytocin-related increases in brain reactivity within the insula and other regions in the forearm condition versus the palm condition. The values are % signal change from baseline.
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Time frame: 1 week; fMRI data collected at second and third visits, one week apart
fMRI Analysis: Change in dACC Region
Change in blood-oxygen-level dependent (BOLD) contrast signal in regions of interest relevant to fear/threat (e.g., decrease in amygdala activation) and reward processing (increase in ventral striatum activation) in oxytocin versus placebo sessions. Forearm brush stroking targets C-tactile (CT) nerves, which respond to gentle touch and engage the insula and cortical brain regions that mediate social-emotional processing. Palm brush stroking is the control condition, in that CT afferents do not innervate the palm. We contrasted BOLD responses to gentle continuous brushing of the arm vs. palm (4 blocks of 8 trials each), expecting greater oxytocin-related increases in brain reactivity within the insula and other regions in the forearm condition versus the palm condition. The values are % signal change from baseline.
Time frame: 1 week; fMRI data collected at second and third visits, one week apart
fMRI Analysis: Change in mOFC Region
Change in blood-oxygen-level dependent (BOLD) contrast signal in regions of interest relevant to fear/threat (e.g., decrease in amygdala activation) and reward processing (increase in ventral striatum activation) in oxytocin versus placebo sessions. Forearm brush stroking targets C-tactile (CT) nerves, which respond to gentle touch and engage the insula and cortical brain regions that mediate social-emotional processing. Palm brush stroking is the control condition, in that CT afferents do not innervate the palm. We contrasted BOLD responses to gentle continuous brushing of the arm vs. palm (4 blocks of 8 trials each), expecting greater oxytocin-related increases in brain reactivity within the insula and other regions in the forearm condition versus the palm condition. The values are % signal change from baseline.
Time frame: 1 week; fMRI data collected at second and third visits, one week apart
fMRI Analysis: Change in rACC Region
Change in blood-oxygen-level dependent (BOLD) contrast signal in regions of interest relevant to fear/threat (e.g., decrease in amygdala activation) and reward processing (increase in ventral striatum activation) in oxytocin versus placebo sessions. Forearm brush stroking targets C-tactile (CT) nerves, which respond to gentle touch and engage the insula and cortical brain regions that mediate social-emotional processing. Palm brush stroking is the control condition, in that CT afferents do not innervate the palm. We contrasted BOLD responses to gentle continuous brushing of the arm vs. palm (4 blocks of 8 trials each), expecting greater oxytocin-related increases in brain reactivity within the insula and other regions in the forearm condition versus the palm condition. The values are % signal change from baseline.
Time frame: 1 week; fMRI data collected at second and third visits, one week apart
fMRI Analysis: Change in vmPFC Region
Change in blood-oxygen-level dependent (BOLD) contrast signal in regions of interest relevant to fear/threat (e.g., decrease in amygdala activation) and reward processing (increase in ventral striatum activation) in oxytocin versus placebo sessions. Forearm brush stroking targets C-tactile (CT) nerves, which respond to gentle touch and engage the insula and cortical brain regions that mediate social-emotional processing. Palm brush stroking is the control condition, in that CT afferents do not innervate the palm. We contrasted BOLD responses to gentle continuous brushing of the arm vs. palm (4 blocks of 8 trials each), expecting greater oxytocin-related increases in brain reactivity within the insula and other regions in the forearm condition versus the palm condition. The values are % signal change from baseline.
Time frame: 1 week; fMRI data collected at second and third visits, one week apart
Salivary Oxytocin
Expect within-session (30 min) increase in peripheral salivary oxytocin level during OT sessions (within-session), and higher OT levels in oxytocin administration vs. placebo sessions. Peripheral OT levels measured with Salivettes (sterile cotton participants will be asked to chew on for 1 minutes).
Time frame: Within session (30 min) and between sessions (1 week); saliva samples collected twice (before and after OT administration) at both second and third visits, one week apart