Correction: Single-nucleus RNA sequencing reveals distinct pathophysiological trophoblast signatures in spontaneous preterm birth subtypes
Uhm C, Gu J, Ju W, Pizzella S, Oktay H, Peng J, Guariglia S, Liu Y, Zhao H, Wang Y, Menon R, Zhong N. Correction: Single-nucleus RNA sequencing reveals distinct pathophysiological trophoblast signatures in spontaneous preterm birth subtypes. Cell & Bioscience 2025, 15: 90. PMID: 40571915, PMCID: PMC12203711, DOI: 10.1186/s13578-025-01421-x.Peer-Reviewed Original ResearchSingle-nucleus RNA sequencing reveals distinct pathophysiological trophoblast signatures in spontaneous preterm birth subtypes
Uhm C, Gu J, Ju W, Pizzella S, Oktay H, Peng J, Guariglia S, Liu Y, Zhao H, Wang Y, Menon R, Zhong N. Single-nucleus RNA sequencing reveals distinct pathophysiological trophoblast signatures in spontaneous preterm birth subtypes. Cell & Bioscience 2025, 15: 1. PMID: 39773245, PMCID: PMC11705668, DOI: 10.1186/s13578-024-01343-0.Peer-Reviewed Original ResearchSpontaneous preterm birthPreterm birthExtravillous trophoblastDevelopment of spontaneous preterm birthOutcomes associated with preterm birthSingle-nucleus RNA sequencingMaternal-fetal interfacePreterm birth subtypesImmune cell recruitmentSmooth muscle contractionDevelopment of effective therapeutic strategiesEffective therapeutic strategyMatrix metalloproteinase activityPremature ruptureNeurodevelopmental outcomesTumor necrosis factor signalingPlacental trophoblastsPathological developmentVascular dysregulationNeonatal healthPPROMCell recruitmentHeightened inflammationTherapeutic strategiesVascular remodeling
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