2024
Association between Personal Abiotic Airborne Exposures and Body Composition Changes among Healthy Adults (60–69 Years Old): A Combined Exposome-Wide and Lipidome Mediation Approach from the China BAPE Study
Sun P, Guo X, Ding E, Li C, Ren H, Xu Y, Qian J, Deng F, Shi W, Dong H, Lin E, Guo P, Fang J, Zhang Q, Zhao W, Tong S, Lu X, Pollitt K, Shi X, Tang S. Association between Personal Abiotic Airborne Exposures and Body Composition Changes among Healthy Adults (60–69 Years Old): A Combined Exposome-Wide and Lipidome Mediation Approach from the China BAPE Study. Environmental Health Perspectives 2024, 132: 077005. PMID: 39028628, PMCID: PMC11259245, DOI: 10.1289/ehp13865.Peer-Reviewed Original ResearchConceptsFat mass indicatorsHealthy older adultsBayesian kernel machine regressionVisceral fat areaOlder adultsPercent body fatBody compositionBody fat massExposome-wide association studyPrevention of chronic diseasesAir pollution exposureBody composition indicatorsMediation analysisInBody 770 deviceHealthy adultsAssociated with increased body fat massBody composition changesKernel machine regressionBayesian kernel machine regression modelsChronic diseasesPollution exposureBody fatAssociation studiesAdverse health effectsFat area
2023
Predictive Value of CT Biomarkers in Lung Transplantation Survival: Preliminary Investigation in a Diverse, Underserved, Urban Population
Friedman R, Tarasova A, Jain V, Ye K, Mansour A, Haramati L. Predictive Value of CT Biomarkers in Lung Transplantation Survival: Preliminary Investigation in a Diverse, Underserved, Urban Population. Lung 2023, 201: 581-590. PMID: 37917190, DOI: 10.1007/s00408-023-00650-6.Peer-Reviewed Original ResearchConceptsCT biomarkersPredictive valueHounsfield unitsFat areaErector spinaeSingle-center retrospective cohort studyHigh visceral fat areaDonor lung availabilityLung transplant programsLung transplant survivalLung transplantation survivalResultsThe study cohortRetrospective cohort studyPost-transplant survivalVertebral body Hounsfield unitsVisceral fat areaKaplan-Meier curvesSubcutaneous fat areaAbsence of sarcopeniaMuscle areaCox proportional hazardsPectoralis muscle areaLung transplantCohort studyStudy cohort
2019
Semiautomated Measure of Abdominal Adiposity Using Computed Tomography Scan Analysis
Srikumar T, Siegel E, Gu Y, Balagurunathan Y, Garcia A, Chen Y, Zhou J, Zhao X, Gillies R, Clark W, Gamenthaler A, Choi J, Shibata D. Semiautomated Measure of Abdominal Adiposity Using Computed Tomography Scan Analysis. Journal Of Surgical Research 2019, 237: 12-21. PMID: 30694786, PMCID: PMC7771581, DOI: 10.1016/j.jss.2018.11.027.Peer-Reviewed Original ResearchConceptsVisceral fat areaSubcutaneous fat areaTotal fat areaFat areaTomography scan analysisAbdominal adiposityIntraclass correlationL4-L5 intervertebral levelAverage body mass indexSubcutaneous fat ratioBody mass indexMedian ageRectal adenocarcinomaRisk stratificationMass indexIntervertebral levelObesity epidemicRadiologic methodsAdipose tissueSemiautomated measureAdiposityFat ratioHuman pathophysiologyImaging suiteSemiautomated method
2011
Relationship between sleep apnea, fat distribution, and insulin resistance in obese children.
Canapari CA, Hoppin AG, Kinane TB, Thomas BJ, Torriani M, Katz ES. Relationship between sleep apnea, fat distribution, and insulin resistance in obese children. Journal Of Clinical Sleep Medicine 2011, 7: 268-73. PMID: 21677896, PMCID: PMC3113965, DOI: 10.5664/jcsm.1068.Peer-Reviewed Original ResearchConceptsObstructive sleep apneaHomeostasis model assessmentBody mass indexLog homeostasis model assessmentBMI z-scoreObese childrenInsulin resistanceFat distributionSleep apneaMean body mass indexSubcutaneous adipose tissue areaZ-scoreVisceral fat areaVisceral fat distributionSubset of patientsAdipose tissue areaPediatric obesity clinicSubset of subjectsMagnetic resonance imagingOSA pathogenesisObesity clinicOSA severityObese subjectsMass indexFat area
2010
Adiposity changes after a 1-year aerobic exercise intervention among postmenopausal women: a randomized controlled trial
Friedenreich C, Woolcott C, McTiernan A, Terry T, Brant R, Ballard-Barbash R, Irwin M, Jones C, Boyd N, Yaffe M, Campbell K, McNeely M, Karvinen K, Courneya K. Adiposity changes after a 1-year aerobic exercise intervention among postmenopausal women: a randomized controlled trial. International Journal Of Obesity 2010, 35: 427-435. PMID: 20820172, PMCID: PMC3061001, DOI: 10.1038/ijo.2010.147.Peer-Reviewed Original ResearchConceptsAerobic exercise interventionTotal body fatExercise interventionPostmenopausal womenFat areaBody fatGreater body fat lossSubcutaneous abdominal fat areaCurrent public health guidelinesIntra-abdominal fat areaSedentary postmenopausal womenAbdominal fat areaAerobic exercise programExercise five timesBody fat lossDual-energy X-ray absorptiometry measurementsBreast cancer riskVolume of exerciseMeasures of adiposityPublic health guidelinesComputerized tomography measurementsExercise groupObese womenAbdominal adiposityExercise program
1995
The effects of weight reduction to ideal body weight on body fat distribution
Hendler R, Welle S, Statt M, Barnard R, Amatruda J. The effects of weight reduction to ideal body weight on body fat distribution. Metabolism 1995, 44: 1413-1416. PMID: 7476327, DOI: 10.1016/0026-0495(95)90139-6.Peer-Reviewed Original ResearchConceptsIdeal body weightSubcutaneous fat areaBody mass indexFat areaObese womenFat distributionObese subjectsBody fatBody weightUpper body fat distributionIntraabdominal fat areaObese control subjectsBody fat distributionPercent body fatHealth risk factorsWeight reductionObese groupMass indexHip ratioControl subjectsRisk factorsMetabolic disordersControl groupWeight lossObese
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply