Search results for "Greater trochanter"

showing 4 items of 4 documents

Effects of barbell back squat stance width on sagittal and frontal hip and knee kinetics

2018

Different stance widths are commonly utilized when completing the barbell back squat during athletic general preparedness training. Width manipulation is thought to influence sagittal plane stimuli to the hip and knee extensors, the primary extensor musculature in the squat. However, how width manipulation affects frontal plane stimuli is less understood. Knowledge of hip and knee net joint moments (NJM) could improve exercise selection when aiming to improve sport-specific performance and prevent injuries. Fourteen adult amateur rugby athletes were recruited for this study. After a familiarization period, participants performed wide- (WIDE, 1.5× greater trochanter width) and narrow-stance …

AdultMalemusculoskeletal diseasesGreater trochanterStrength trainingPosturePhysical Therapy Sports Therapy and RehabilitationSquatKinematics030204 cardiovascular system & hematologyWeight-BearingYoung Adult03 medical and health scienceschange of direction0302 clinical medicinestrength trainingHumansMedicineKneeOrthopedics and Sports MedicineFemurRange of Motion ArticularMuscle Skeletalta315kiihtyvyysdynamiikkaOrthodonticsHipliikeoppiKnee extensorsbusiness.industryacceleration030229 sport sciencesmusculoskeletal systemSagittal planeBiomechanical PhenomenaCross-Sectional Studiesmedicine.anatomical_structureAthleteskineticskinematicsCoronal planeFemalevoimaharjoittelubiomekaniikkabusinesshuman activitiesScandinavian Journal of Medicine & Science in Sports
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Exercise loading history and femoral neck strength in a sideways fall: A three-dimensional finite element modeling study

2016

Over 90% of hip fractures are caused by falls. Due to a fall-induced impact on the greater trochanter, the posterior part of the thin superolateral cortex of the femoral neck is known to experience the highest stress, making it a fracture-prone region. Cortical geometry of the proximal femur, in turn, reflects a mechanically appropriate form with respect to habitual exercise loading. In this finite element (FE) modeling study, we investigated whether specific exercise loading history is associated with femoral neck structural strength and estimated fall-induced stresses along the femoral neck. One hundred and eleven three-dimensional (3D) proximal femur FE models for a sideways falling situ…

AdultModels AnatomicGreater trochantermedicine.medical_specialtyHistologyAdolescentPhysiologyEndocrinology Diabetes and MetabolismFinite Element AnalysisPoison control030209 endocrinology & metabolismmedicine.disease_causeWeight-bearingWeight-BearingYoung Adult03 medical and health sciencesImaging Three-Dimensional0302 clinical medicinemedicineHumansExerciseFemoral neckOrthodonticsexercise loading historyHip fractureProximal femurFemur Neckbusiness.industryfemoral neckDistal siteta3141030229 sport sciencesmedicine.diseaseMagnetic Resonance ImagingSurgerymedicine.anatomical_structureAthleteship fracturesAccidental FallsFemaleCortical bonebusinessBone
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Preserving the abductor mechanism in robotic THR: the influence of stem design and cutterpath.

2004

The tip of the greater trochanter is the attachment site for the abductor muscles of the hip joint. Its preservation in robotic and conventional THR is important for normal gait. The effect of different stem designs and robotic cutterpaths on the preservation of the trochanter tip is examined.One anatomical stem, one straight stem, and one stem specifically designed for robotic THR were implanted virtually in CT scans of osteoarthrotic hip joints using the Torch preoperative planning unit (URS-ortho). In transverse sections of the trochanter tip, dimensions of the trochanter area removed by the milling tool were recorded for each stem design and different cutterpaths (3-axis versus 5-axis m…

MaleGreater trochanterMaterials scienceAttachment siteArthroplasty Replacement HipUser-Computer InterfaceProsthesis FittingOsteoarthritismedicineHumansFemurMuscle SkeletalGaitPreoperative planningTrochantertechnology industry and agricultureStraight stemAnatomyRoboticsComputer Science ApplicationsMechanism (engineering)Normal gaitmedicine.anatomical_structureSurgery Computer-AssistedSurgeryMuscles of the hipFemaleHip JointFamily PracticeTomography X-Ray ComputedBiomedical engineeringComputer aided surgery : official journal of the International Society for Computer Aided Surgery
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Greater Trochanteric Pain Syndrome: What is the Meaning?

2011

Greater trochanteric pain syndrome (GTPS) is a common cause of lower extremity pain. This is frequently attributed to trochanteric bursitis and distension of the subgluteal bursae. Patients are suffering from pain radiating to the posterolateral aspect of the thigh, paraesthesiae in the legs, and tenderness over the iliotibial tract. Often the symptoms are mild, with the patient treating himself successfully through activity modification and other conservative measures. including relative rest, ice, compression, elevation, anti-inflammatory medication and treatment modalities such as ultrasound and electrical stimulation, combined with a structured rehabilitation program. Patients whose sym…

medicine.medical_specialtyRehabilitationBursitisbusiness.industrymedicine.medical_treatmentThighGreater trochanteric pain syndromeDistensionmedicine.diseaseSubgluteal bursaeLow back painSurgeryIliotibial tractTendernessBursitimedicine.anatomical_structureGreater trochanteric pain syndromemedicineSettore MED/33 - Malattie Apparato LocomotoreLow back painmedicine.symptombusiness
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