2019
Chapter 25 The Role of Antimullerian Hormone in Assisted Reproduction
Tal R, Seifer D. Chapter 25 The Role of Antimullerian Hormone in Assisted Reproduction. 2019, 403-414. DOI: 10.1016/b978-0-12-813209-8.00025-x.ChaptersAntimullerian hormoneOvarian responseControlled ovarian stimulationOnset of menopausePrimordial follicle poolInformative biochemical markersOvarian stimulationOvarian reserveFertility preservationAbnormal folliculogenesisFollicle poolClinical utilityParacrine regulatorSensitive markerStimulation protocolChronologic ageOvarian folliclesGranulosa cellsBiochemical markersReproductive agingReproductive medicineInverse correlationAssisted reproductionReproductive technologiesClinical application
2017
Potential therapeutic applications of human anti-Müllerian hormone (AMH) analogues in reproductive medicine
Kushnir VA, Seifer DB, Barad DH, Sen A, Gleicher N. Potential therapeutic applications of human anti-Müllerian hormone (AMH) analogues in reproductive medicine. Journal Of Assisted Reproduction And Genetics 2017, 34: 1105-1113. PMID: 28643088, PMCID: PMC5581791, DOI: 10.1007/s10815-017-0977-4.Peer-Reviewed Original ResearchConceptsAnti-Müllerian hormonePolycystic ovarian syndromePotential therapeutic applicationsReproductive medicineOnset of menopauseNew potential therapeutic applicationsOvarian follicular developmentTherapeutic applicationsSpecific disease conditionsPromising therapeutic applicationOvarian syndromeOvulation inductionFertility preservationPharmacologic agentsFollicular developmentHormone analogueReproductive tractDisease conditionsTherapeutic usesTGF-beta superfamilyAntagonist functionImportant regulatorDiagnostic purposesGonadal tissueKey regulator
1996
Autologous granulosa cell coculture demonstrates zygote suppression of granulosa cell steroidogenesis**Presented in part at the 51st Annual Meeting of the American Society for Reproductive Medicine. Seattle, Washington, October 7 to 12, 1995.††Supported in part by Physician Scientist Award (AG00566 [D.B.S.] and R01HD31894 [A.L.S.]) from the National Institutes of Health, National Institute on Aging, Bethesda, Maryland.
Seifer D, Freeman M, Gardiner A, Hill G, Schneyer A, Vanderhyden B. Autologous granulosa cell coculture demonstrates zygote suppression of granulosa cell steroidogenesis**Presented in part at the 51st Annual Meeting of the American Society for Reproductive Medicine. Seattle, Washington, October 7 to 12, 1995.††Supported in part by Physician Scientist Award (AG00566 [D.B.S.] and R01HD31894 [A.L.S.]) from the National Institutes of Health, National Institute on Aging, Bethesda, Maryland. Fertility And Sterility 1996, 66: 425-429. PMID: 8751742, DOI: 10.1016/s0015-0282(16)58513-6.Peer-Reviewed Original ResearchConceptsLuteinized granulosa cellsGranulosa cellsStandard IVF-ET treatment cycleIVF-ET treatment cyclesTwo-pronuclear embryosGranulosa cell steroidogenesisTwo-pronuclear zygotesNational InstituteVitro Fertilization UnitProduction of E2Steroid hormone productionPituitary desensitizationOvarian stimulationFollicular aspiratesCell steroidogenesisFertilization unitTreatment cyclesHormone productionCell coculturesReproductive medicineP productionAmerican SocietyAcademic research environmentE2Human embryos