Progesterone and Resting Energy Expenditure

Impact of Progesterone Substitution in Luteal Phase on Resting Energy Expenditure in Women During Menopausal Transition.

Status

Terminated

Phases

Phase 4

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT04140968

Acronym

P4&REE

Enrollment

Registered

2019-10-28

Start date

2019-11-01

Completion date

2021-05-27

Last updated

2022-03-31

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Menopause, Progesterone, Weight Gain

Keywords

Resting energy expenditure

Brief summary

This study evaluates the effect of micronized progesterone substitution in the luteal phase on resting energy expenditure in women during menopausal transition.

Detailed description

The majority of women report an increase of body weight of about 0.5 kg/year during the menopausal transition. However, the weight gain has not been attributed to menopause itself but rather to, e.g., a decrease of the basal metabolic rate due to aging, less energy expenditure and a non-adapted caloric intake. One of the first signs of the menopausal transition is a change in the bleeding pattern due to a disruption of the hypothalamus-pituitary-ovary-axis. The number of cycles with an insufficient luteal phase and anovulatory cycles with an insufficient or even absent luteal phase increase as the menopausal transition proceeds. Thus, in perimenopausal women progesterone endogenous exposure decreases in quantity and duration. By substituting progesterone during the luteal phase, irregular cycle and bleeding patterns can be normalized. However, besides the beneficial effects of progesterone on the course of a menstrual cycle it displays some features that may be preventive for weight gain. In this study only women in their early menopausal transition with menstrual cycle irregularities are included. By substituting progesterone during luteal phase the investigator tries to normalize their menstrual cycle pattern. The hypothesis is, that progesterone might not only normalize the menstrual cycle pattern of women in their early menopausal transition but due to its metabolic activities, progesterone may also increase the resting energy expenditure and thus may prevent weight gain during the menopausal transition. Furthermore the effect of progesterone substitution on the expression of miRNAs which are included in glucose- and lipid-metabolism such as miR-370 and miR-29 will be investigated.

Interventions

DRUGUtrogestan

300mg Utrogestan (1 tablet 100mg + 1 tablet 200mg) in the second and third menstrual cycle daily from cycle day 15 to 26.

Study design

Allocation

Intervention model

SINGLE_GROUP

Primary purpose

TREATMENT

Masking

NONE

Eligibility

Sex/Gender

FEMALE

Age

18 Years to No maximum

Healthy volunteers

Yes

Inclusion criteria

* Women during early menopausal transition (MT) with indication for luteal phase progesterone substitution (definition of early MT: change of cycle length (shorter or longer menstrual cycle) of at least ≥ 7 days from normal and/or phases of amenorrhea of up to \< 60 days during the preceding 12 months) * Body Mass Index (BMI) 18.5 - 24.9 kg/m2 * Informed Consent as documented by signature

Exclusion criteria

* Pregnancy or Lactation * Systemic hormone therapy or hormonal contraception (estradiol, progestogen, androgen) during the study and within 12 weeks prior to study entry * Phytotherapeutics for menstrual cycle regulation during the study and within 12 weeks prior to study entry * Active psychiatric disease * Use of psychotropic drugs during the study and within 12 weeks prior to study entry * Nicotin abuse \> 10 cigarettes/day * Alcohol abuse * Use of appetite suppressants * Diabetes mellitus * Untreated Hypo- and hyperthyroidism * Hypersensitivity to progesterone * Hypersensitivity to sunflower oil, soy lecithin and other ingredients of Utrogestan® such as gelatine, glycerol, E171 (titanium dioxide) * Contraindication of progesterone medication according to swissmedicinfo.ch (suspected or diagnosed neoplasia of the breast or other sexual organ; benign or malignant liver Tumors (also in medical history); acute or chronic liver disease (Rotor- or Dubin-Johnson-Syndrome); cholestatic jaundice; porphyria; arterial or venous thromboembolic Events and cerebral bleedings; abnormal genital bleeding of unknown cause) * Use of barbiturates, antiepileptic drugs, tuberculostatic drugs, antiretroviral drugs, antimycotic drugs, antibiotic drugs, Hypericum perforatum and Spironolactone * Known or suspected non-compliance, drug or alcohol abuse etc. * Illiteracy * Inability to follow the procedures of the study, e.g. due to language problems, psychological disorders, dementia, etc.

Design outcomes

Primary

Measure	Time frame	Description
Mean change in resting energy expenditure	cycle 1 (day 20) to cycle 3 (day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in resting energy expenditure (kcal/day) from cycle 1 due to substitution of Utrogestan in luteal phase

Secondary

Measure	Time frame	Description
Mean change in energy intake	cycle 1 (day 17-19) and cycle 3 (day 17-19), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in energy intake (kcal/day)
Mean change in body core temperature	cycle 1-3 during luteal phase, (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in body core temperature (°C)
Mean change in serum hormone profile FSH	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in serum hormone profile: FSH (U/l)
Mean change in serum hormone profile LH	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in serum hormone profile: LH (U/l)
Mean change in serum hormone profile estradiol	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20)	Change in serum hormone profile: estradiol (pmol/l)
Mean change in serum hormone profile progesterone	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in serum hormone profile: progesterone (nmol/l)
Mean change in miRNA expression	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in miRNA expression (miR-370, miR-29b)
Mean change in fasting Insulin	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in fasting Insulin (mU/l)
Mean change in blood lipid serum level: cholesterol	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in cholesterol (mmol/l)
Mean change in blood lipid serum level: LDL	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in LDL (mmol/l)
Mean change in blood lipid serum level: HDL	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in HDL (mmol/l)
Mean change in blood lipid serum level: triglycerides	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in triglycerides (mmol/l)
Mean change in fasting glucose	cycle 1 (day 5; day 20) and cycle 3 (day 5; day 20), (cycle 1 has individual length, <60 days, cycle 2&3 are 28 days)	Change in fasting glucose (mmol/l)

Countries

Switzerland

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026