2022
Nicotine dose-dependent epigenomic-wide DNA methylation changes in the mice with long-term electronic cigarette exposure.
Peng G, Xi Y, Bellini C, Pham K, Zhuang ZW, Yan Q, Jia M, Wang G, Lu L, Tang MS, Zhao H, Wang H. Nicotine dose-dependent epigenomic-wide DNA methylation changes in the mice with long-term electronic cigarette exposure. American Journal Of Cancer Research 2022, 12: 3679-3692. PMID: 36119846, PMCID: PMC9442002.Peer-Reviewed Original ResearchElectronic cigarette exposureCigarette exposureMale ApoE-/- miceApoE-/- miceCytokine mRNA expressionPoor health outcomesWhite blood cellsElectronic cigarette useDose-dependent mannerE-cigarette aerosolAerosol inhalationCigarette smokingActivation of MAPKHigher nicotine concentrationsMAPK pathway activationCell-damaging effectsCpG sitesHealth outcomesCigarette useMRNA expressionNicotine concentrationsPathway activationSignificant CpG sitesBlood cellsSignificant alterations
2012
[The comparative analysis of the common reasons of invasive ventilator alarms between medical and specialist intensive care unit].
Tan W, Sun L, Qin Z, Dai B, Zhao H, Kang J. [The comparative analysis of the common reasons of invasive ventilator alarms between medical and specialist intensive care unit]. Chinese Critical Care Medicine 2012, 24: 582-6. PMID: 23040772.Peer-Reviewed Original ResearchConceptsSpecialist intensive care unitMedical intensive care unitIntensive care unitAerosol inhalationHospital of China Medical UniversityFirst Hospital of China Medical UniversityHigh tidal volumeHigh airway pressuresHigher minute ventilationVentilator alarmsChina Medical UniversityAirway pressurePressure alarmRespiratory distressFirst HospitalCare unitTidal volumeMinute ventilationTube factorsMedical UniversityPatientsAttending physiciansSputumVentilationAirway
2007
Effect of Inhaled Tacrolimus on Cellular and Humoral Rejection to Prevent Posttransplant Obliterative Airway Disease
Schrepfer S, Deuse T, Reichenspurner H, Hoffmann J, Haddad M, Fink J, Fischbein M, Robbins R, Pelletier M. Effect of Inhaled Tacrolimus on Cellular and Humoral Rejection to Prevent Posttransplant Obliterative Airway Disease. American Journal Of Transplantation 2007, 7: 1733-1742. PMID: 17532751, DOI: 10.1111/j.1600-6143.2007.01858.x.Peer-Reviewed Original ResearchConceptsObliterative airway diseaseTreatment groupsAirway diseaseSystemic side effectsCellular immune activationOrthotopic tracheal transplantationGraft infiltrationCellular rejectionCellular immunosuppressionHumoral rejectionAllograft rejectionElevated BUNImmune activationTacrolimusAerosol inhalationMononuclear infiltrationSide effectsPOD 8Tracheal transplantationAirway graftsPO animalsHistology of graftsGraftTreatmentPods
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