2010
Anti-tumor effects of adenovirus containing human growth hormone sequences in a mouse model of human ovarian cancer
Zhu Y, Fariña JB, Meshack S, Santoveña A, Patel S, Oliva A, Llabrés M, Hodsdon ME, Booth CJ, Dannies PS. Anti-tumor effects of adenovirus containing human growth hormone sequences in a mouse model of human ovarian cancer. Endocrine 2010, 37: 430-439. PMID: 20960164, DOI: 10.1007/s12020-010-9333-5.Peer-Reviewed Original ResearchConceptsHuman ovarian cancerOvarian cancerPeritoneal cavityMouse modelTumor cell injectionImmunodeficient SCID miceGrowth hormone releaseHuman ovarian cancer cellsAnti-tumor effectsOvarian cancer cellsReplication-deficient adenovirusLower survival rateLiver metastasesMedian survivalControl miceLung metastasesIntraperitoneal injectionPeritoneal fibrosisLiver toxicitySCID miceHormone releaseHepatocellular changesSurvival rateCell injectionGrowth hormonePharmacokinetics analysis of sustained release hGH biodegradable implantable tablets using a mouse model of human ovarian cancer
Santoveña A, Fariña JB, Llabrés M, Zhu Y, Dannies P. Pharmacokinetics analysis of sustained release hGH biodegradable implantable tablets using a mouse model of human ovarian cancer. International Journal Of Pharmaceutics 2010, 388: 175-180. PMID: 20060456, DOI: 10.1016/j.ijpharm.2009.12.054.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell ProliferationDelayed-Action PreparationsDisease Models, AnimalDrug CarriersDrug ImplantsDrug StabilityFemaleHuman Growth HormoneHumansLactic AcidLikelihood FunctionsMiceMice, SCIDOvarian NeoplasmsPolyglycolic AcidPolylactic Acid-Polyglycolic Acid CopolymerSurvival RateTabletsTime FactorsConceptsSerum levelsSurvival timeMouse modelOvarian cancer mouse modelHormone serum levelsImmunodeficient female micePopulation pharmacokinetic modelHuman ovarian cancer cellsHuman ovarian cancerCancer mouse modelEffect of hGHOvarian cancer cellsFemale miceOvarian cancerHormone releaseOrbital vesselsTumoral cell proliferationPeritoneal cavityPharmacokinetic analysisHigh doseHormone loadSustained release devicesPharmacokinetic modelCancer cellsPharmacokinetic study
1979
Antipsychotic Drugs Inhibit Prolactin Release from Rat Anterior Pituitary Cells in Culture by a Mechanism Not Involving the Dopamine Receptor*
WEST B, DANNIES P. Antipsychotic Drugs Inhibit Prolactin Release from Rat Anterior Pituitary Cells in Culture by a Mechanism Not Involving the Dopamine Receptor*. Endocrinology 1979, 104: 877-880. PMID: 436760, DOI: 10.1210/endo-104-4-877.Peer-Reviewed Original ResearchConceptsRat anterior pituitary cellsAnterior pituitary cellsGH releasePRL releaseControl valuesAntipsychotic drugsDopamine antagonistsDopamine receptorsPituitary cellsInhibition of PRLMicroM pimozideDopamine agonistsHormone releaseD-butaclamolInhibited secretionPRLBromocriptineAntagonistButaclamolInhibitionReceptorsDrugsReleaseCellsHaloperidol