2008
The Study of Developmental Capacity of Vitrified Mouse Blastocysts in Different Straws after Transfer to Mouse Pseudo Pregnant
Saki G, Rahim F, Moradi L. The Study of Developmental Capacity of Vitrified Mouse Blastocysts in Different Straws after Transfer to Mouse Pseudo Pregnant. Pakistan Journal Of Biological Sciences 2008, 11: 1809-14. PMID: 18817221, DOI: 10.3923/pjbs.2008.1809.1814.Peer-Reviewed Original ResearchConceptsBirth rateConventional strawRe-expansion rateFemale NMRI micePregnant miceNMRI miceCervical dislocationUterine hornVitrification of blastocystsCPS groupSuper ovulationPregnancyMouse blastocystsPseudo-pregnant miceMiceReproductive technologiesMouse abdomenFresh blastocystsUntreated controlsDevelopmental capacityPre-implantation mammalian embryosBlastocystsM16 mediumGroupGonadotrophin
2000
Implantation defect in endometriosis: endometrium or peritoneal fluid.
Selam B, Arici A. Implantation defect in endometriosis: endometrium or peritoneal fluid. Society Of Reproduction And Fertility 2000, 55: 121-8. PMID: 10889841.Peer-Reviewed Original ResearchConceptsEndometrial receptivityPeritoneal environmentRole of alterationsCytokine concentrationsPeritoneal fluidCell adhesion moleculeEndometriosisClinical observationsHormone analogueDirect actionAdhesion moleculesIron metabolismBiochemical factorsImplantation defectsImplantationWomenRecent studiesFluid microenvironmentPossible mechanismReceptivityEndometriumGonadotrophinDerangement
1995
Estrogen-induced hypothalamic synaptic plasticity and the regulation of gonadotrophins
Horvath T, Leedom L, Lewis C, Garcia-Segura L, Naftolin F. Estrogen-induced hypothalamic synaptic plasticity and the regulation of gonadotrophins. Current Opinion In Endocrinology Diabetes And Obesity 1995, 2: 186. DOI: 10.1097/00060793-199504000-00018.Peer-Reviewed Original ResearchSynaptic plasticityNumber of synapseRegulation of gonadotrophinBasal estrogen levelsUnderstanding of estrogenGonadotrophin controlSynaptic retractionEstrogen surgeGonadotrophin levelsEstrogen levelsPreovulatory riseArcuate nucleusGlial ensheathmentNeuronal perikaryaGlial cellsNeurotransmitter effectsEstrogenEstrogen inducesNegative feedback controlGonadotrophinPossible mechanismRetractionHypothalamusPerikaryaLevels
1979
Hypothalamic-Hypopituitarism due to Temporal Arteritis
Everett G, Amatruda J, Woolf P. Hypothalamic-Hypopituitarism due to Temporal Arteritis. JAMA Internal Medicine 1979, 139: 474-475. PMID: 435003, DOI: 10.1001/archinte.1979.03630410080023.Peer-Reviewed Original ResearchConceptsTemporal arteritisHypothalamic hypopituitarismThyroid-stimulating hormone levelsHypothalamic-pituitary regionAbundant blood supplyAdministration of chlorpromazineBasal gonadotrophinsGonadotrophin responseNormal prolactinHypothalamic originInsulin hypoglycemiaNeurological lesionsProlactin responseHormone levelsBlood supplyHypopituitarismPituitary glandGrowth hormoneApparent protectionArteritisProlactinAdministrationFurther evidenceProtirelinGonadotrophin
1978
COMPARISON OF FOLLICLE-STIMULATING HORMONE AND LUTEINIZING HORMONE SECRETION AFTER ELECTRICAL STIMULATION OF THE PREOPTIC PART OF THE HYPOTHALAMUS IN FEMALE RATS ANAESTHETIZED WITH ETHYL CARBAMATE OR SODIUM PENTOBARBITONE
DYER R, HAAR M, MAYES L. COMPARISON OF FOLLICLE-STIMULATING HORMONE AND LUTEINIZING HORMONE SECRETION AFTER ELECTRICAL STIMULATION OF THE PREOPTIC PART OF THE HYPOTHALAMUS IN FEMALE RATS ANAESTHETIZED WITH ETHYL CARBAMATE OR SODIUM PENTOBARBITONE. Journal Of Endocrinology 1978, 78: 151-152. PMID: 681870, DOI: 10.1677/joe.0.0780151.Peer-Reviewed Original ResearchConceptsElectrical stimulationFollicle-stimulating hormoneCentral nervous systemSodium pentobarbitonePreovulatory surgeFemale ratsAnesthetic dosesGonadotrophic hormonesNervous systemPreoptic partNormal secretionHormoneSecretionCritical periodSame treatmentEarly phaseStimulationGonadotrophinHypothalamusPentobarbitoneRatsDosesBrainCB2
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