Search results for "Bone age"

showing 10 items of 11 documents

The relationship of mandibular radiomorphometric indices to skeletal age, chronological age and skeletal malocclusion type

2017

Background The present study was performed with the following aims: (1) to assess the relationship between skeletal age, measured using the cervical vertebral maturity (CVM) method, and chronological age; (2) to determine the correlation of skeletal and chronological age to the cortical thickness of the lower border of the mandible using the linear radiomorphometric; and (3) to explore the relationship between these indices and skeletal malocclusion type. Material and methods The data were collected from the records of 180 patients, including 57 males (31.7%) and 123 females (68.3%). The data were based on the panoramic and lateral cephalograms of each patient. The CVM stages were determine…

0301 basic medicinebusiness.industryResearchLateral cephalogramsMandibleDentistryBone ageOrthodonticsChronological age:CIENCIAS MÉDICAS [UNESCO]03 medical and health sciences030104 developmental biologySkeletal malocclusionStatistical significanceUNESCO::CIENCIAS MÉDICASLower borderMedicinebusinessGeneral DentistryJournal of Clinical and Experimental Dentistry
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Is bone loss the reversal of bone accrual? Evidence from a cross-sectional study in daughter-mother-grandmother trios.

2011

Bone adapts to mechanical loads applied on it. During aging, loads decrease to a greater extent at those skeletal sites where loads increase most in earlier life. Thus, the loss of bone may occur preferentially at sites where most bone has been deposited previously; ie, bone loss could be the directional reversal of accrual. To test this hypothesis, we compared the bone mass distribution at weight-bearing (tibia) and non-weight-bearing (radius) bones among 18-year-old girls, their premenopausal mothers, and their postmenopausal maternal grandmothers. Bone and muscle properties were measured by pQCT, and polar distribution of bone mass was obtained in 55 girl-mother–maternal grandmother trio…

AdultBone accrualAdolescentCross-sectional studyEndocrinology Diabetes and Metabolismmedia_common.quotation_subjectDentistryMothersBone and BonesNuclear FamilyMechanostatBone DensitymedicineHumansOrthopedics and Sports MedicineTibiaBone Resorptionmedia_commonAgedDaughterTibiabusiness.industryMusclesBone agemedicine.diseaseMiddle ageOsteopeniaRadiusCross-Sectional StudiesFemalebusinessJournal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research
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Role of Imaging in the Assessment of Age Estimation

2019

Age assessment by skeletal age estimation of unknown individuals is of paramount importance in forensic science, both for assessing imputability (if the author of a crime is old enough to be tried and judged), both in case of unaccompanied minors, or whether refugees and asylum seekers are adults or juveniles, which implies different legal issues and procedures. The aim of this article is to review the age estimation methods used in forensic practice.

AdultEstimationmedicine.medical_specialtyRadiology Nuclear Medicine and ImagingAdolescentbusiness.industryRefugeeMEDLINEBone ageForensic MedicineHandClavicle030218 nuclear medicine & medical imagingRadiography03 medical and health sciences0302 clinical medicineAge estimationAge Determination by SkeletonFamily medicineHumansMedicinebusinessTooth030217 neurology & neurosurgery
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Not All Floating-Harbor Syndrome Cases are Due to Mutations in Exon 34 of SRCAP

2013

International audience; Floating-Harbor syndrome (FHS) is a rare disorder characterized by short stature, delayed bone age, speech delay, and dysmorphic facial features. We report here the molecular analysis of nine cases, fulfilling the diagnostic criteria for FHS. Using exome sequencing, we identified SRCAP as the disease gene in two cases and subsequently found SRCAP truncating mutations in 6/9 cases. All mutations occurred de novo and were located in exon 34, in accordance with the recent report of Hood et al. However, the absence of SRCAP mutations in 3/9 cases supported genetic heterogeneity of FH syndrome. Importantly, no major clinical differences were observed supporting clinical h…

AdultHeart Septal Defects VentricularMaleDNA Mutational AnalysisBiologyShort statureCraniofacial Abnormalitiesgenetic heterogeneity03 medical and health sciencesExonGeneticsmedicineHumansAbnormalities MultipleGenetic Predisposition to DiseaseChildFloating-Harbor syndromeGenetics (clinical)Exome sequencingGrowth Disorders030304 developmental biologyDisease geneGeneticsAdenosine Triphosphatases0303 health sciences[SDV.GEN]Life Sciences [q-bio]/GeneticsGenetic heterogeneity030305 genetics & heredityBone ageExonsmedicine.diseaseSRCAP3. Good healthFloating–Harbor syndromeSpeech delayMutationFemalemedicine.symptom[ SDV.GEN ] Life Sciences [q-bio]/Genetics
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Bone age determination based on the study of the medial extremity of the clavicle

1998

The development of the medial clavicular epiphysis and its fusion with the clavicular shaft have been a subject of medical research since the second decade of this century. Computed tomography provides the imaging modality of choice in analyzing the maturation process of the sternal end of the clavicle. In a retrospective study, we analyzed normal development in 380 individuals under the age of 30 years. The appearance of an epiphyseal ossification center occurred between ages 11 and 22 years. Partial union was found from age 16 until age 26 years. Complete union was first noted at age 22 years and in 100 % of the sample at age 27 years. Based on these data, age-related standardized age dis…

Adultmedicine.medical_specialtyAdolescentComputed tomographyOssification centerReference ValuesAge Determination by SkeletonmedicineHumansRadiology Nuclear Medicine and imagingChildRetrospective StudiesNeuroradiologyOrthodonticsmedicine.diagnostic_testOssificationbusiness.industryInfantRetrospective cohort studyBone ageGeneral MedicineClavicleSurgerymedicine.anatomical_structureClavicleEpiphysisChild PreschoolRadiologymedicine.symptomTomography X-Ray ComputedbusinessEpiphysesEuropean Radiology
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The skeletal maturity of Australian children aged 10-13 years in 2016.

2021

Skeletal maturity can be used as a biological indicator of the tempo of growth in children and adolescents. We present a description of skeletal maturity from a cohort of white Australian children and describe variation in skeletal maturity based on child age. Participants (n = 71; age 10.5-13.9 years) were recruited from the 'Healthy, Active Preschool & Primary Years (HAPPY)' study. Left hand-wrist radiographs were used to determine skeletal maturity using the Tanner-Whitehouse III (TW3) RUS technique. In boys, the mean skeletal maturity offset (bone age - chronological age) was -0.12 ± 0.19 years and 57.9% had delayed skeletal maturity compared to chronological age. Among those with delay…

MaleAgingAdolescentPhysiologyEpidemiologyChild ageContext (language use)Cohort StudiesGeneticsMedicineHumansChildSkeletonBone Developmentbusiness.industryPublic Health Environmental and Occupational HealthAustraliaBone ageChronological ageSkeletal maturityDelayed skeletal maturationCohortFemalebusinessCohort studyDemographyAnnals of human biology
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Vertical jumping height and horizontal overhead throwing velocity in young male athletes

1992

The purpose of this study was to examine the effects of calendar and skeletal age, anthropometric dimensions, training history and their interactions on vertical jumping height and horizontal overhead throwing velocity in a cross-section of 318 young male athletes (age range 9-16 years) participating in cross-country skiing (n = 70), basketball (n = 40), apparatus gymnastics (n = 19), ice hockey (n = 50), track and field (n = 89) and wrestling (n = 50). Vertical jumping height was measured with four different loads held on the shoulders and then interpolated for loads representing 0 and 40% body mass. Horizontal overhead throwing velocity using both hands was determined for seven balls of d…

MaleAgingBasketballAdolescentShouldersPhysical Therapy Sports Therapy and Rehabilitationmedicine.disease_causeBody Mass IndexCohort StudiesIce hockeyJumpingSurveys and QuestionnairesmedicineHumansOrthopedics and Sports MedicineChildTrack and field athleticsSimulationMathematicsPhysical Education and TrainingAnthropometryKinanthropometryBone ageGeodesyBody HeightCross-Sectional StudiesPhysical FitnessThrowingSportsJournal of Sports Sciences
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Mechanical jumping power in young athletes.

1987

Mechanical jumping power was determined for 286 young male athletes representing six sports events and ranging in calendar and skeletal ages from 8.8 to 17.1 and from 7.8 to 18.1 years, respectively. The subjects performed successive maximal vertical jumps on a contact mat for 30 s. The number of jumps and their cumulative flight time after 15 and 30 s were used for calculations of mechanical power. The jumping performances of the young athletes were found to be reproducible from the age of 10-12 years in respect to the angular displacement of the knee and duration of contact. Absolute mechanical power, as well as power related to body weight, increased with calendar and skeletal ages. Of t…

Malemedicine.medical_specialtyAdolescentPhysiologyPhysical ExertionOrienteeringmedicine.disease_causeJumpingmedicineHumansTrack and field athleticsChildMechanical energyMathematicsOrthodonticsLegbiologyAthletesBody WeightAge FactorsBone ageAnthropometryCircumferencebiology.organism_classificationBody HeightBiomechanical PhenomenaPhysical therapyMuscle ContractionSportsActa physiologica Scandinavica
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Correlations and predictors of menarche age

1987

In a cross-sectional study of 452 girls between 10 and 16 years of age 36 indices of physical and 50 of mental development were tested for their correlation with age at menarche and chronological age, as well as for their predictive power for estimating menarche by multiple regression analysis. Indices of physical maturity and body weight when adjusted for chronological age showed the highest partial correlation coefficients with age at menarche. Among mental characters which show lower intercorrelations with menarche occurred the highest correlation coefficients for a handmotor factor "Spurennachzeichnen" and a factor "Gruppenabhangigkeit" (which indicates a type of social motivation). In …

Mental developmentPhysical Maturitybusiness.industryRegression analysisBone ageGeneral MedicineAnthropometryCorrelationAnthropologyMenarcheMedicineAnimal Science and ZoologybusinessEcology Evolution Behavior and SystematicsPartial correlationDemographyAnthropologischer Anzeiger
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Establishing a diagnostic tool for assessing optimal treatment timing in Indian children with developing malocclusions

2011

Objective: To interrelate chronological age, cervical vertebrae maturational stage and dental calcification stages and to establish latter as first level diagnostic tool to estimate timing of pubertal growth spurt. Materials and Methods: Sample derived from pretreatment panaromic and lateral cephalometric radiographs of patients 8-14 years old. Study sample divided into three groups depending upon Angle’s molar relation: Group I, Group II, Group III. According to chronological age, into: Group A: 8-11 years Group B:11-14 years, further separating males and female subjects in each group. Demirjian et al method was used to assess dental maturity and for skeletal maturity the New Improved Vers…

Molarbusiness.industryOptimal treatmentDentistryBone ageOdontologíaMandibular first premolar:CIENCIAS MÉDICAS [UNESCO]Ciencias de la saludMandibular second molarmedicine.anatomical_structureStatistical significanceUNESCO::CIENCIAS MÉDICASmedicineChi-square testbusinessGeneral DentistryCervical vertebrae
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