Processing emotions: Effects of menstrual cycle phase and premenstrual symptoms on the startle reflex, facial EMG and heart rate

•Emotional processing was investigated in the early follicular and the late luteal phase.•Startle magnitudes were larger during the luteal phase when PMS were included.•HRV analyses indicated reduced parasympathetic tone in the luteal phase.•No effect of cycle phase was found in corrugator and zygom...

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Bibliographic Details
Published in:Behavioural brain research 2018-10, Vol.351, p.178-187
Main Authors: Armbruster, Diana, Grage, Tobias, Kirschbaum, Clemens, Strobel, Alexander
Format: Article
Language:English
Subjects:
17β-estradiol
Adult
Corrugator
Electrocardiography
Electromyography
Emotionality
Emotions - physiology
Estradiol - metabolism
Facial Muscles - physiology
Female
Heart Rate - physiology
HRV
Humans
Menstrual cycle
Menstrual Cycle - physiology
Menstrual Cycle - psychology
Parasympathetic Nervous System - physiology
Premenstrual Syndrome - physiopathology
Premenstrual Syndrome - psychology
Progesterone
Progesterone - metabolism
Reflex, Startle - physiology
Saliva - metabolism
Startle reflex
Testosterone
Testosterone - metabolism
Visual Perception - physiology
Young Adult
Zygomaticus
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Summary:•Emotional processing was investigated in the early follicular and the late luteal phase.•Startle magnitudes were larger during the luteal phase when PMS were included.•HRV analyses indicated reduced parasympathetic tone in the luteal phase.•No effect of cycle phase was found in corrugator and zygomaticus activity.•Testosterone was correlated with indicators of positive and less negative affect. Emotional reactivity varies across the menstrual cycle although physiological findings are not entirely consistent. We assessed facial EMG and heart rate (HR) changes in healthy free cycling women (N = 45) with an emotional startle paradigm both during the early follicular and the late luteal phase, verified by repeated salivary 17β-estradiol, progesterone and testosterone assessments. Cycle phase impacted startle responses with larger magnitudes during the luteal phase. Notably, this effect was only present when premenstrual symptoms and sequence of lab sessions were included as co-variates. At rest, participants showed a tendency towards higher HR and reduced high frequency (HF) power during the luteal phase indicating reduced parasympathetic tone. HF power was also negatively associated with startle magnitudes. HR changes in response to emotional images differed between the two cycle phases. Initial HR deceleration was more marked during the follicular phase particularly when viewing negative pictures. However, cycle phase did not significantly impact corrugator and zygomaticus activity in response to emotional pictures. Among the three gonadal steroids, correlation patterns were most consistent for testosterone. During the follicular phase, testosterone was associated with zygomaticus activity while viewing neutral or positive pictures and with less pronounced HR deceleration in response to negative images. During the luteal phase, testosterone was negatively associated with fear potentiated startle. The findings underscore the importance of considering menstrual cycle phase when investigating physiological indicators of emotion. However, the modulating effect of premenstrual symptoms also emphasizes potential inter-individual differences.
ISSN:0166-4328
1872-7549
DOI:10.1016/j.bbr.2018.05.030