Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study

Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study

The growing interest in intrinsic brain organization has sparked various innovative approaches to generating comprehensive connectivity-based maps of the human brain. Prior reports point to a sexual dimorphism of the structural and functional human connectome. However, it is uncertain whether subtle...

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Main Authors: Katrin eArelin, Karsten eMueller, Claudia eBarth, Paraskevi Vivien eRekkas, Jürgen eKratzsch, Inga eBurmann, Arno eVillringer, Julia eSacher
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-02-01
Series:Frontiers in Neuroscience
Subjects:
Estradiol
Menstrual Cycle
Progesterone
functional connectivity
RS-fMRI
Online Access:http://journal.frontiersin.org/Journal/10.3389/fnins.2015.00044/full
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spelling doaj-b1c6f5ca17604be9865f8abb425054492020-11-24T22:24:29ZengFrontiers Media S.A.Frontiers in Neuroscience1662-453X2015-02-01910.3389/fnins.2015.00044111288Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI studyKatrin eArelin0Katrin eArelin1Karsten eMueller2Claudia eBarth3Paraskevi Vivien eRekkas4Jürgen eKratzsch5Inga eBurmann6Arno eVillringer7Arno eVillringer8Arno eVillringer9Arno eVillringer10Julia eSacher11Julia eSacher12Max Planck Institute for Cognitive and Brain Sciences and Clinic for Cognitive Neurology, University LeipzigLeipzig Research Center for Civilization DiseasesMax Planck Institute for Human Cogntive and Brain SciencesMax Planck Institute for Cognitive and Brain Sciences and Clinic for Cognitive Neurology, University LeipzigCentre for Addiction and Mental Health Research Imaging Centre and Campbell Family Mental Health Research InstituteInstitute for Laboratory MedicineMax Planck Institute for Cognitive and Brain Sciences and Clinic for Cognitive Neurology, University LeipzigMax Planck Institute for Cognitive and Brain Sciences and Clinic for Cognitive Neurology, University LeipzigLeipzig Research Center for Civilization DiseasesIntegrated Research and Treatment Center Adiposity DiseasesMind and Brain InstituteMax Planck Institute for Cognitive and Brain Sciences and Clinic for Cognitive Neurology, University LeipzigMind and Brain InstituteThe growing interest in intrinsic brain organization has sparked various innovative approaches to generating comprehensive connectivity-based maps of the human brain. Prior reports point to a sexual dimorphism of the structural and functional human connectome. However, it is uncertain whether subtle changes in sex hormones, as occur during the monthly menstrual cycle, substantially impact the functional architecture of the female brain. Here, we performed eigenvector centrality (EC) mapping in 32 longitudinal resting state fMRI scans of a single healthy subject without oral contraceptive use, across four menstrual cycles, and assessed estrogen and progesterone levels. To investigate associations between cycle-dependent hormones and brain connectivity, we performed correlation analyses between the EC maps and the respective hormone levels. On the whole brain level, we found a significant positive correlation between progesterone and EC in the bilateral DLPFC and bilateral sensorimotor cortex. In a secondary region-of-interest analysis, we detected a progesterone-modulated increase in functional connectivity of both bilateral DLPFC and bilateral sensorimotor cortex with the hippocampus. Our results suggest that the menstrual cycle substantially impacts intrinsic functional connectivity, particularly in brain areas associated with contextual memory-regulation, such as the hippocampus. These findings are the first to link the subtle hormonal fluctuations that occur during the menstrual cycle, to significant changes in regional functional connectivity in the hippocampus in a longitudinal design, given the limitation of data acquisition in a single subject. Our study demonstrates the feasibility of such a longitudinal rs-fMRI design and illustrates a means of creating a personalized map of the human brain by integrating potential mediators of brain states, such as menstrual cycle phase.http://journal.frontiersin.org/Journal/10.3389/fnins.2015.00044/fullEstradiolMenstrual CycleProgesteronefunctional connectivityRS-fMRI
collection DOAJ
language English
format Article
sources DOAJ
author Katrin eArelin
Katrin eArelin
Karsten eMueller
Claudia eBarth
Paraskevi Vivien eRekkas
Jürgen eKratzsch
Inga eBurmann
Arno eVillringer
Arno eVillringer
Arno eVillringer
Arno eVillringer
Julia eSacher
Julia eSacher
spellingShingle Katrin eArelin
Katrin eArelin
Karsten eMueller
Claudia eBarth
Paraskevi Vivien eRekkas
Jürgen eKratzsch
Inga eBurmann
Arno eVillringer
Arno eVillringer
Arno eVillringer
Arno eVillringer
Julia eSacher
Julia eSacher
Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study
Frontiers in Neuroscience
Estradiol
Menstrual Cycle
Progesterone
functional connectivity
RS-fMRI
author_facet Katrin eArelin
Katrin eArelin
Karsten eMueller
Claudia eBarth
Paraskevi Vivien eRekkas
Jürgen eKratzsch
Inga eBurmann
Arno eVillringer
Arno eVillringer
Arno eVillringer
Arno eVillringer
Julia eSacher
Julia eSacher
author_sort Katrin eArelin
title Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study
title_short Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study
title_full Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study
title_fullStr Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study
title_full_unstemmed Progesterone mediates brain functional connectivity changes during the menstrual cycle - A pilot resting state MRI study
title_sort progesterone mediates brain functional connectivity changes during the menstrual cycle - a pilot resting state mri study
publisher Frontiers Media S.A.
series Frontiers in Neuroscience
issn 1662-453X
publishDate 2015-02-01
description The growing interest in intrinsic brain organization has sparked various innovative approaches to generating comprehensive connectivity-based maps of the human brain. Prior reports point to a sexual dimorphism of the structural and functional human connectome. However, it is uncertain whether subtle changes in sex hormones, as occur during the monthly menstrual cycle, substantially impact the functional architecture of the female brain. Here, we performed eigenvector centrality (EC) mapping in 32 longitudinal resting state fMRI scans of a single healthy subject without oral contraceptive use, across four menstrual cycles, and assessed estrogen and progesterone levels. To investigate associations between cycle-dependent hormones and brain connectivity, we performed correlation analyses between the EC maps and the respective hormone levels. On the whole brain level, we found a significant positive correlation between progesterone and EC in the bilateral DLPFC and bilateral sensorimotor cortex. In a secondary region-of-interest analysis, we detected a progesterone-modulated increase in functional connectivity of both bilateral DLPFC and bilateral sensorimotor cortex with the hippocampus. Our results suggest that the menstrual cycle substantially impacts intrinsic functional connectivity, particularly in brain areas associated with contextual memory-regulation, such as the hippocampus. These findings are the first to link the subtle hormonal fluctuations that occur during the menstrual cycle, to significant changes in regional functional connectivity in the hippocampus in a longitudinal design, given the limitation of data acquisition in a single subject. Our study demonstrates the feasibility of such a longitudinal rs-fMRI design and illustrates a means of creating a personalized map of the human brain by integrating potential mediators of brain states, such as menstrual cycle phase.
topic Estradiol
Menstrual Cycle
Progesterone
functional connectivity
RS-fMRI
url http://journal.frontiersin.org/Journal/10.3389/fnins.2015.00044/full
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