0000000000075225

AUTHOR

Tomas Cervinka

0000-0002-9345-4233

showing 3 related works from this author

Differential Effects of Exercise on Tibial Shaft Marrow Density in Young Female Athletes

2013

Increased mechanical loading can promote the preferential differentiation of bone marrow mesenchymal stem cells to osteoblastogenesis, but it is not known whether long-term bone strength-enhancing exercise in humans can reduce marrow adiposity.Our objective was to examine whether bone marrow density (MaD), as an estimate of marrow adiposity 1) differs between young female athletes with contrasting loading histories and bone strengths and 2) is an independent predictor of bone strength at the weight-bearing tibia.Mid-tibial MaD, cortical area (CoA), total area, medullary area, strength strain index (SSI), and cortical volumetric bone mineral density (vBMD) (total, endocortical, midcortical, …

Adultmedicine.medical_specialtyAdolescentChemical PhenomenaMedullary cavityEndocrinology Diabetes and MetabolismAdipocytes WhiteClinical BiochemistryBone Marrow CellsContext (language use)BiochemistryWeight-BearingYoung AdultEndocrinologyBone DensityBone MarrowOsteogenesisInternal medicinemedicineHumansTibiaQuantitative computed tomographyExerciseAdiposityBone mineralOsteoblastsTibiabiologymedicine.diagnostic_testAthletesbusiness.industryBiochemistry (medical)Adolescent Developmentbiology.organism_classificationPeripheralEndocrinologymedicine.anatomical_structureAthletesFemaleDiaphysesBone marrowTomography X-Ray ComputedbusinessThe Journal of Clinical Endocrinology & Metabolism
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Effects of a Home‐Based Physical Rehabilitation Program on Tibial Bone Structure, Density, and Strength After Hip Fracture: A Secondary Analysis of a…

2019

Abstract Weight‐bearing physical activity may decrease or prevent bone deterioration after hip fracture. This study investigated the effects of a home‐based physical rehabilitation program on tibial bone traits in older hip fracture patients. A population‐based clinical sample of men and women operated for hip fracture (mean age 80 years, 78% women) was randomly assigned into an intervention (n = 40) and a standard care control group (n = 41) on average 10 weeks postfracture. The intervention group participated in a 12‐month home‐based rehabilitation intervention, including evaluation and modification of environmental hazards, guidance for safe walking, nonpharmacological pain management, m…

Orthopedic surgeryluustoINJURY/FRACTURE HEALINGexerciseagingluuEXERCISEDiseases of the musculoskeletal systemOriginal ArticlesliikuntaAGINGikääntyminenmurtumatRC925-935BONE QCT/μCTkliiniset kokeetOriginal ArticleRD701-811injury/fracture healingCLINICAL TRIALSJBMR Plus
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Physical function and lean body mass as predictors of bone loss after hip fracture: a prospective follow-up study

2020

Abstract Background: Predictors of bone deterioration after hip fracture have not been well characterized. The aim of this study was to examine the associations of physical function and lean body mass (LBM) with loss of bone density and strength in older people recovering from a hip fracture. Methods: A total of 81 over 60-year-old, community-dwelling men and women operated for a hip fracture participated in this 1-year prospective follow-up study. Distal tibia total volumetric bone mineral density (vBMDTOT, mg/cm³) and compressive strength index (BSI, g²/cm⁴) and mid-tibia cortical vBMD (vBMDCO, mg/cm³) and bending strength index (SSI, mm³) were assessed in both legs by peripheral quantita…

MaleAginglcsh:Diseases of the musculoskeletal systemfyysinen toimintakykyluuntiheysWalkingHip fracturemurtumatBone DensityBone mineral densityHumansProspective StudiespQCTAgedAged 80 and overTibiaHip FracturesMiddle AgedPhysical Functional PerformancelonkkaBone Diseases MetabolicikääntyminenlihasmassaLean body massMultivariate AnalysisBody CompositionLinear ModelsPhysical functionFemaleIndependent Livinglcsh:RC925-935human activitiesResearch ArticleFollow-Up StudiesBMC Musculoskeletal Disorders
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