Abstract
The spontaneous eye blink rate (EBR) has been linked to different cognitive processes and neurobiological factors. It has also been proposed as a putative index for striatal dopaminergic function. While estradiol is well-known to increase dopamine levels through multiple mechanisms, no study up to date has investigated whether the EBR changes across the menstrual cycle. This question is imperative however, as women have sometimes been excluded from studies using the EBR due to potential effects of their hormonal profile. Fifty-four women were tested for spontaneous EBR at rest in three different phases of their menstrual cycle: during menses (low progesterone and estradiol), in the pre-ovulatory phase (when estradiol levels peak and progesterone is still low), and during the luteal phase (high progesterone and estradiol). No significant differences were observed across the menstrual cycle and Bayes factors show strong support for the null hypothesis. Instead, we observed high intra-individual consistency of the EBR in our female sample. Accordingly, we strongly encourage including female participants in EBR studies, regardless of their cycle phase.
Highlights
The spontaneous eye blink rate (EBR) has been linked to different cognitive processes and neurobiological factors
Given its non-invasive nature, the EBR has been used as a proxy for striatal dopamine (DA) levels as an alternative to direct measurements like positron emission tomography (PET) and single-photon emission computer tomography (SPECT)[15]
Reduced EBR has been proposed as putative index for reduced D2/3receptor availability, in relation to chronic drug consumption[28], increased alcohol/nicotine use, and gambling problem severity[29] little is known about the neural circuitry underlying inter-individual differences in the EBR
Summary
The spontaneous eye blink rate (EBR) has been linked to different cognitive processes and neurobiological factors. For more than 70 years[1], the spontaneous eye blink rate (EBR) has been used as a physiological measure related to diverse neurocognitive and biological factors[2] These factors range from individual genetic make-up[3] and neuropsychiatric disorders[4], to psychological personality traits[5,6], attentional r egulation[7], learning processes[8,9], cognitive flexibility[3,10] and other executive functions[11]. Kaminer et al.[19] suggested a model for humans and rodents, in which the trigeminal complex is altered by striatal DA levels, changing the EBR This relation to the dopaminergic system is not without inconsistencies and some studies reported evidence to the c ontrary[30,31]. The relationship of the EBR to such endogenous hormone fluctuations has never been explicitly researched
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