1994
Epithelial interleukin-11. Regulation by cytokines, respiratory syncytial virus, and retinoic acid.
Elias J, Zheng T, Einarsson O, Landry M, Trow T, Rebert N, Panuska J. Epithelial interleukin-11. Regulation by cytokines, respiratory syncytial virus, and retinoic acid. Journal Of Biological Chemistry 1994, 269: 22261-22268. PMID: 8071352, DOI: 10.1016/s0021-9258(17)31785-4.Peer-Reviewed Original ResearchConceptsRespiratory syncytial virusIL-11 productionIL-11 protein productionIL-1IL-11Retinoic acidSyncytial virusSimplex virus type 2Growth factorIL-11 mRNADose-dependent fashionVirus type 2Hepatocyte growth factorStimulus-specific fashionIL-6IL-4IL-7Alveolar A549 cellsPleiotropic cytokineType 2Human alveolar A549 cellsInterleukin-11Epithelial cellsA549 cellsUnstimulated cells
1992
Recurrent Genital Infection in the Guinea Pig: Differences between Herpes Simplex Types 1 and 2
Landry M, Myerson D, Bull C. Recurrent Genital Infection in the Guinea Pig: Differences between Herpes Simplex Types 1 and 2. Intervirology 1992, 34: 169-179. PMID: 1339184, DOI: 10.1159/000150279.Peer-Reviewed Original ResearchConceptsHSV-2 strainsHSV-2HSV-1Genital infectionRecurrence rateHSV-1 McKrae strainType 1Herpes simplex virus type 2Simplex virus type 2Recurrent genital infectionsHerpes simplex type 1Guinea pig modelHSV type 1Simplex type 1HSV-1 strainsVirus type 2Vaginal virusAcute infectionLesion recurrenceOcular infectionsMcKrae strainGenital tractNervous systemType 2Guinea pigs
1988
Ability of Herpes Simplex Virus (HSV) Types 1 and 2 To Induce Clinical Disease and Establish Latency Following Previous Genital Infection with the Heterologous HSV Type
Landry M, Zibello T. Ability of Herpes Simplex Virus (HSV) Types 1 and 2 To Induce Clinical Disease and Establish Latency Following Previous Genital Infection with the Heterologous HSV Type. The Journal Of Infectious Diseases 1988, 158: 1220-1226. PMID: 2848899, DOI: 10.1093/infdis/158.6.1220.Peer-Reviewed Original ResearchConceptsHerpes simplex virus type 1Simplex virus type 1Virus type 1Clinical diseaseHSV typesSuperinfecting virusType 1Heterologous virus typesPrevious genital infectionsLevels of serumHSV antibodiesGenital infectionHSV-2Prior infectionLatent infectionHSV-1Type 2Months postinoculationGuinea pigsVirus typeInitial virusLatent virusSuperinfectionInfectionDisease
1987
Disseminated adenovirus infection in an immunocompromised host Pitfalls in diagnosis
Landry M, Fong C, Neddermann K, Solomon L, Hsiung GD. Disseminated adenovirus infection in an immunocompromised host Pitfalls in diagnosis. The American Journal Of Medicine 1987, 83: 555-559. PMID: 2821806, DOI: 10.1016/0002-9343(87)90770-4.Peer-Reviewed Original ResearchConceptsBone marrow transplant recipientsAdenovirus infectionPostmortem serum samplesDisseminated adenovirus infectionMarrow transplant recipientsMicroscopic examinationSmall bowel tissueSpecific viral diagnosisLight microscopic examinationOral ulcerationTransplant recipientsCytomegalovirus infectionLaboratory featuresComplement fixation testIll patientsBowel tissueElectron microscopic examinationDiagnostic pitfallsType 2Fatal gastroenteritisLiver tissueIntranuclear inclusionsViral diagnosisSerum samplesColon contents
1985
Comparison of Four Methods for Typing Low-Passage Herpes Simplex Virus Isolates
Mayo D, Hilliard J, Landry M, Egbertson S, Mirkovic R. Comparison of Four Methods for Typing Low-Passage Herpes Simplex Virus Isolates. Intervirology 1985, 23: 112-115. PMID: 2984142, DOI: 10.1159/000149593.Peer-Reviewed Original ResearchConceptsHerpes simplex virusGuinea pig embryo cellsHerpes simplex virus isolatesHSV type 1Direct fluorescent antibody techniqueFluorescent antibody techniqueSimplex virusType 2Clinical isolatesEmbryo cellsType 1Virology laboratoryContinuous cell linesBVDU sensitivityMonoclonal antibodiesChick embryo cellsAntibody techniqueVirus isolatesRestriction endonuclease analysisCell linesIsolatesEndonuclease analysisTyping systemCells