2023
Cardiometabolic disease and obesity patterns differentially predict acute kidney injury after total joint replacement: a retrospective analysis
Leis A, Mathis M, Kheterpal S, Zawistowski M, Mukherjee B, Pace N, O'Reilly-Shah V, Smith J, Karvonen-Gutierrez C. Cardiometabolic disease and obesity patterns differentially predict acute kidney injury after total joint replacement: a retrospective analysis. British Journal Of Anaesthesia 2023, 131: 37-46. PMID: 37188560, PMCID: PMC10308436, DOI: 10.1016/j.bja.2023.04.001.Peer-Reviewed Original ResearchConceptsOdds of acute kidney injuryAcute kidney injuryCardiometabolic diseasesNon-Hispanic blacksGroup of hospitalsKidney injuryCardiometabolic patternTotal joint arthroplasty complicationsObesity statusObesity patternsIncreased oddsDisease co-occurrenceIncreased odds of AKIRetrospective analysisRisk of postoperative acute kidney injuryLatent class analysisLatent classesPostoperative acute kidney injuryRisk of acute kidney injuryRisk factorsDifferential riskTotal joint replacementMetabolic syndromeObesityPostoperative AKI risk
2022
Metals and risk of incident metabolic syndrome in a prospective cohort of midlife women in the United States
Wang X, Karvonen-Gutierrez C, Herman W, Mukherjee B, Park S. Metals and risk of incident metabolic syndrome in a prospective cohort of midlife women in the United States. Environmental Research 2022, 210: 112976. PMID: 35202625, PMCID: PMC9869389, DOI: 10.1016/j.envres.2022.112976.Peer-Reviewed Original ResearchConceptsEnvironmental risk scoreCohort of midlife womenIncident MetSMidlife womenHazard ratioRisk of incident MetSRisk of incident metabolic syndromeProspective cohortStudy of Women's HealthFree of MetSRisk of cardiometabolic diseasesIncident metabolic syndromeMetabolic syndromeImpaired fasting glucoseCox proportional hazards modelsHigh-density lipoprotein cholesterolHigh blood pressureMetS incidenceWomen's HealthProportional hazards modelAbdominal obesityNation Multi-Pollutant StudyDevelopment of metabolic syndromeCardiometabolic diseasesHigh triglycerides
2014
Personal Black Carbon Exposure Influences Ambulatory Blood Pressure
Zhao X, Sun Z, Ruan Y, Yan J, Mukherjee B, Yang F, Duan F, Sun L, Liang R, Lian H, Zhang S, Fang Q, Gu D, Brook J, Sun Q, Brook R, Rajagopalan S, Fan Z. Personal Black Carbon Exposure Influences Ambulatory Blood Pressure. Hypertension 2014, 63: 871-877. PMID: 24420543, PMCID: PMC4445364, DOI: 10.1161/hypertensionaha.113.02588.Peer-Reviewed Original ResearchConceptsPersonal black carbonAir pollutionBlack carbonBeijing Municipal Environmental Monitoring CenterFine particulate matter concentrationsCombustion-related air pollutionFine particulate matterAmbulatory blood pressureEnvironmental Monitoring CenterParticulate matter concentrationsBlood pressureHigh air pollutionReduce air pollutionMm HgLow frequency to high frequency ratioPublic health effectsParticulate matterTwenty-four-hour ambulatory blood pressureExposure to high levelsMatter concentrationSystolic blood pressureDiastolic blood pressurePollutionBlood pressure effectsGeneralized linear model
2013
Cardiovascular Depression in Rats Exposed to Inhaled Particulate Matter and Ozone: Effects of Diet-Induced Metabolic Syndrome
Wagner J, Allen K, Yang H, Nan B, Morishita M, Mukherjee B, Dvonch J, Spino C, Fink G, Rajagopalan S, Sun Q, Brook R, Harkema J. Cardiovascular Depression in Rats Exposed to Inhaled Particulate Matter and Ozone: Effects of Diet-Induced Metabolic Syndrome. Environmental Health Perspectives 2013, 122: 27-33. PMID: 24169565, PMCID: PMC3888573, DOI: 10.1289/ehp.1307085.Peer-Reviewed Original ResearchConceptsHFrD ratsBlood pressureND ratsHeart rateMetabolic syndromeHR variabilityFasting levels of blood glucoseNormal dietMale Sprague-Dawley ratsParticulate matterAssociated with cardiovascular morbidityCardiovascular depressionAir pollutionSprague-Dawley ratsDiet-induced metabolic syndromeElevated fasting levelsToxicity of air pollutantsFine particulate matterHigh-fructose dietLevels of blood glucoseInhalable particulate matterLevels of ozoneInduce MetSCardiovascular morbidityExaggerated BP
2012
Air-Pollution and Cardiometabolic Diseases (AIRCMD): A prospective study investigating the impact of air pollution exposure and propensity for type II diabetes
Sun Z, Mukherjee B, Brook R, Gatts G, Yang F, Sun Q, Brook J, Fan Z, Rajagopalan S. Air-Pollution and Cardiometabolic Diseases (AIRCMD): A prospective study investigating the impact of air pollution exposure and propensity for type II diabetes. The Science Of The Total Environment 2012, 448: 72-78. PMID: 23182147, PMCID: PMC4548977, DOI: 10.1016/j.scitotenv.2012.10.087.Peer-Reviewed Original ResearchConceptsAir pollution exposureAir pollutionAmbient fine particulate matterMeasures of air pollution exposureImpact of air pollution exposureFine particulate matterExposure to PM2.5Air pollution measurementsPersonal exposure measurementsCreation of novel methodologiesSub-acute exposurePolluted urban environmentsImpact of environmental factorsParticulate matterPollution exposureStudy visitsPollution measurementsType II diabetesProspective cohort studyEnvironmental risk factorsAmbient measurementsII diabetesCohort studyUrban environmentScreening visit