Dopamine, Reward Learning and Sex Hormones

Menstrual Cycle Clinical Trial

Official title:

Dopamine and Reward Learning Across Hormonal Transition Phases

Clinical Trial Details — Status: Recruiting

Administrative data

• NCT number: NCT06365515
• Other study ID #: TUE010_IRTG_P5
• Status: Recruiting
• Phase: N/A
• Start date: May 2024
• Est. completion date: December 2025

Study information

• Verified date: August 2023
• Source: University Hospital Tuebingen
• Contact: Nils B Kroemer, Professor
• Phone: +4922828711151
• Email: nils.kroemer[@]uni-tuebingen.de
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

Hormonal transition periods during the menstrual cycle may predispose women to mental disorders. Hormonal fluctuations provide specific neuroendocrine conditions that modulate brain structure and function and these actions affect cognitive and emotional behaviors and affect energy and mood homeostasis. It is thought that these changes are driven by altered dopamine transmission. Here, the investigators aim to examine (1) how sex hormones and dopamine are linked and also (2) how hormonal changes affect motivation, mood, and energy homeostasis. To this end, dopamine intervention will be tested on effort-based decision-making and motivational circuits in three hormonal stages (i.e., women in early-follicular phase (EF), women in mid-luteal phase (ML), and men). Additionally, the effects of hormonal status on metabolic indices will be tested, and its effects on mood fluctuations in a period of a month. The investigator hypothesizes that women in EF cycle phase (1) have naturally less dopamine and show less effort, and (2) they show greater improvement in effort-based decision-making after Levodopa administration. The investigator has exploratory outcomes about (3) sex differences in reward-learning with and without Levodopa administration and explores if these differences correlate with elevated female sex hormone levels. Moreover, it is hypothesized that (4) hormonal fluctuations affect energy homeostasis, thus women in their EF cycle phase have higher energy expenditure and (5) they report more negative mood than in their mid-luteal (ML) cycle phase.

Description:

This study will investigate naturally cycling women (n = 60) and men (n = 30). During the intake session (C1) energy expenditure of men and women in their EF cycle phase will be assessed by indirect calorimetry, participants will perform a training EAT task, and hormones (e.g., estradiol, progesterone, testosterone, and their precursor steroids and metabolites) will be assessed from blood samples. Energy expenditure will be assessed at another time point again (C2) (women with different hormonal profiles) and blood samples will be collected. During the neuroimaging sessions (S1, S2) both men and women will be measured, 30 women in their EF menstrual cycle phase and another 30 women in their ML phase. All participants will take part in the Effort Allocation Task, an effort-based decision-making task during an L-DOPA-based pharmaco-neuroimaging using functional magnetic resonance imaging (fMRI). To disentangle the influence of L-DOPA within a randomized double-blind design, in one session an L-DOPA-based pill (Madopar, 150mg/37.5 mg L-DOPA/ benserazide) and in another one a placebo pill will be administered. Sex steroids (e.g., progesterone, estrogen, testosterone) and metabolic hormones (e.g., glucose, insulin, triglyceride, ghrelin) will be obtained from blood samples. Before and after the MR scanning a reinforcement learning task will be examined. Over one month, a smartphone survey will be used to regularly record mood, premenstrual symptoms, and information on food cravings. Participants will be asked to start filling out the daily survey after C1 and continue it for 30 days.

Recruitment information / eligibility

• Status: Recruiting
• Enrollment: 90
• Est. completion date: December 2025
• Est. primary completion date: December 2025
• Accepts healthy volunteers: Accepts Healthy Volunteers
• Gender: All
• Age group: 20 Years to 35 Years

Eligibility

Inclusion Criteria:

• Naturally cycling healthy women and men
• Age between 20-35
• Body-mass index (BMI): 18-28 kg/m2
• German or English language fluency
• Normal or corrected to normal vision
• For women: Regular menstrual cycle, no hormonal contraception (between 25 and 31 days)

Exclusion Criteria:

• Lifetime history of brain injury, stroke, epilepsy, seizures, schizophrenia, bipolar disorders, or severe alcohol/substance dependence, premenstrual dysphoric disorder (anamnestic survey)
• Mood disorder, anxiety disorder, obsessive-compulsive disorder, trauma- and stressor related disorder, somatic symptom disorder or eating disorder in the last 12 months prior to testing (anamnestic survey)
• Severe/uncontrolled medical problems such as hormonal, metabolic, heart or chronic diseases (e.g., severe hypertension, diabetes, dysfunctions of the thyroid, or congestive heart failure)
• Pregnancy, delivery, and lactation (current and within the last year; anamnestic survey)
• Undergoing regular hormonal treatment
• Daily smoking (nicotine, shisha, e-cigarettes) or >1/week (cannabis)
• History of malignant melanoma, angle-closure glaucoma, gastrointestinal ulcers, and osteomalacia
• Hypersensitivity to: Microcrystalline cellulose, Mannitol (Ph.Eur.), Calcium hydrogen phosphate, Pregelatinized Starch (Corn), Crospovidone, Ethylcellulose, Fumed silica, Docusate sodium, Magnesium Stearate (Ph.Eur.), Iron/Ferric oxide (E 172)
• Taking certain types of medication (antihypertensive drugs, sympathomimetics, antipsychotics, drugs affecting the extrapyramidal motor system), non-selective MAO inhibitors or a combination of MAO-A and MAO-B inhibitors
• Since we will only include healthy participants, other medications that might contraindicate Levodopa (e.g., for mental disorders) will be excluded as well. Any other occasional medication will be evaluated on a case-by-case basis.
• Pathological hearing or increased sensitivity to loud noises
• Contraindication for MRI
• Claustrophobia
• Non-removable metal objects on or in the body
• Moderate or severe head injury

Related Conditions & MeSH terms

• Hormonal Changes
• Menstrual Cycle

Intervention

Drug:
• Levodopa administration
To boost dopamine levels 150mg/37.5 mg L-DOPA/benserazide will be administered in line with recent studies (Kroemer et al., 2019). Maximum plasma concentration of Madopar occur ~60 minutes after drug administration. Participants will start the Effort Allocation Task 45 minutes after Levodopa administration.
• Placebo administration
Placebo tablets will be administered as the placebo-controlled condition.

Locations

Country	Name	City	State
Germany	Department of Psychiatry & Psychotherapy, University of Tübingen	Tübingen	BW

Sponsors (3)

Lead Sponsor	Collaborator
University Hospital Tuebingen	German Research Foundation, Uppsala University

Country where clinical trial is conducted

Germany, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Motivation to work for rewards: force of pressing grip force device (GFD) to gain food and monetary rewards circuitry during effort-based decision-making	Operationalized via the relative force exerted on GFD in an effort allocation task during either the first seconds of each trial (invigoration) or each complete trial (maintenance). Levodopa compared to placebo condition. Outcomes will be compared between groups and will be associated with blood hormone levels.	During Effort Allocation Task (30 minutes) 45-75 minutes after pharmacological challenge
Primary	Reward-related brain responses in the reward network during effort-based decision-making	Comparing brain activity (BOLD signals) in response to feedback in regions of the reward network (ROIs: Nucleus Accumbens (NAcc), Putamen, Caudate, Ventral Tegmental Area (VTA), Amygdala, Prefrontal Cortex (PFC), Orbitofrontal cortex (OFC), Anterior Cingulate Cortex (ACC), Insula). Levodopa compared to placebo condition. Outcomes will be compared between groups and will be associated with blood hormone levels.	During task-based neuroimaging (45-75 minutes after drug administration)
Primary	Reward anticipation on a neural level	Comparing brain activity (BOLD signals) in reward-related brain regions (ROIs: NAcc, striatum, PFC, ACC) during the presentation of reward cues with high vs. low reward magnitude after Levodopa administration vs. placebo. Outcomes will be compared between groups and will be associated with blood hormone levels.	During task-based neuroimaging (45-75 minutes after drug administration)
Primary	Execution of effort on a neural level	Comparing brain activity (BOLD signals) in reward-related brain regions (ROIs: Striatum, Insula, ACC, PFC) during force exerted on GFD in an effort allocation task after Levodopa administration vs. placebo. Outcomes will be compared between groups and will be associated with blood hormone levels.	During task-based neuroimaging (45-75 minutes after drug administration)
Secondary	Resting-state functional connectivity	Resting-state functional connectivity of regions of the mesocorticolimbic circuitry (ROIs: Nucleus Accumbens, Putamen, Caudata, Ventral Tegmental Area, Amygdala, ventral medial Prefrontal Cortex, Orbitofrontal cortex, Anterior Cingulate Cortex) after Levodopa administration vs. placebo.	During resting-state neuroimaging (10 minutes)
Secondary	Changes in reinforcement learning	Changes in reward-learning parameters, which are based on choices in the task before Levodopa administration vs. after Levodopa administration and compared to placebo condition.	During value-based decision-making task (15 minutes) measured 15 minutes before Levodopa administration and 90 min after
Secondary	Menstrual cycle induced changes in mood and food cravings	Changes in positive and negative mood ratings (5 mood and 5 stress items, scale 1-10) and in premenstrual symptoms (PSST items, Likert scale 1-4), and in food-craving (FCQ-S items, Likert scale 1-5) measured with ecological momentary assessment.	Measured every day (5 minutes) over the period of one month
Secondary	Changes in resting energy expenditure	Menstrual cycle-related changes in resting energy expenditure, measured with indirect calorimetry. Resting energy expenditure will be measured during the early follicular phase and then around ovulation	Measured twice 1-2 weeks apart, measurement takes 30 minutes
Secondary	Changes in metabolic hormone levels during the menstrual cycle	Changes in metabolic hormone levels (insulin, glucose, ghrelin, leptin; µg/dL or nmol/L) will be assessed from blood samples during the early follicular phase, ovulatory phase, and mid-luteal phase.	Measured 4 times (5 minutes/day) during a period of 30 days