DNA methylation-based age prediction and telomere length in white blood cells and cumulus cells of infertile women with normal or poor response to ovarian stimulation
Morin SJ, Tao X, Marin D, Zhan Y, Landis J, Bedard J, Scott RT, Seli E. DNA methylation-based age prediction and telomere length in white blood cells and cumulus cells of infertile women with normal or poor response to ovarian stimulation. Aging 2018, 10: 3761-3773. PMID: 30530921, PMCID: PMC6326671, DOI: 10.18632/aging.101670.Peer-Reviewed Original ResearchConceptsChronologic agePremature reproductive agingReproductive-age womenWhite blood cellsOvarian stimulationInfertile womenOvarian responsePatient ageInfertile patientsAge womenPoor responseFollicular somatic cellsReproductive agingFertility treatmentCumulus cellsBlood cellsTelomere lengthAgeWomenPatientsStimulationWBCFemale ageRiskReproductive senescenceAssisted Reproductive Technology and Origins of Disease: The Clinical Realities and Implications
Morin SJ, Seli E. Assisted Reproductive Technology and Origins of Disease: The Clinical Realities and Implications. Seminars In Reproductive Medicine 2018, 36: 195-203. PMID: 30866006, DOI: 10.1055/s-0038-1677048.Peer-Reviewed Original ResearchConceptsSevere male factor infertilityART-exposed childrenLow birth weightMale factor infertilityReproductive technologiesSevere monogenic disordersAssisted Reproductive TechnologyMultiple gestationsSubfertile womenFactor infertilityMetabolic derangementsPremature birthAbsolute riskBirth weightCardiovascular diseaseAdditional diagnosisNumber of womenClinical realityMultiple studiesMonogenic disordersNumber of couplesRiskOrigin of diseaseDiseaseWomen