0000000000001106

AUTHOR

E. Rose

showing 2 related works from this author

Speed of sound measurements in mandibular and phalangeal bone during growth

2001

The micromechanical and elastic properties of bone, its structural maturity and, indirectly, mineral density are important factors for the planning and assessment of orthodontic and/or jaw orthopaedic treatment. This clinical study was undertaken to evaluate age-related changes in the anterior mandibular body. The speed of sound (SOS) has demonstrated age dependency in various peripheral bones and has been proposed as an alternative method for investigating bone parameters without the use of radiation. The ultrasound transmission velocity was measured in 184 healthy subjects (93 females, 91 males; mean age 17.6 +/- 13.7 years). According to the statistical analysis, the data did not reveal …

AdultMaleAgingTime FactorsAdolescentStatistics as TopicTransducersDentistryMandibleFingersSex FactorsMandibular bodyBone DensitySpeed of soundHumansMedicineUltrasonicsChildGeneral DentistryAlternative methodsAnalysis of Variancebusiness.industryUltrasoundAge FactorsMandibleHealthy subjectsInfantMiddle AgedPhalanxElasticityBiomechanical PhenomenaKineticsChild PreschoolBone maturationFemalebusinessClinical Oral Investigations
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Using ultrasound transmission velocity to analyse the mechanical properties of teeth after in vitro, in situ, and in vivo irradiation.

2000

Ultrasound transmission velocity (UTV) in isotropic material as a measure for the modulus of elasticity was correlated to mechanical properties. Changes in micromechanical properties of radiated teeth and influence of the oral cavity were to be evaluated nondestructively. UTV was measured in extracted teeth after 36 Gy and 62 Gy of in situ (enorally, with no contact to the oral cavity) and in vitro irradiation. Relative to controls, teeth subjected to 62 Gy in vivo showed higher UTV values for dentine and enamel. Sound teeth irradiated with 60 Gy in situ also showed higher UTV values for enamel, whereas dentine values were not significantly different from those of control. The mechanical pr…

In situMaleMaterials scienceDentistryYoung's modulusDental CariesOral cavityStatistics Nonparametricsymbols.namesakestomatognathic systemIn vivoHumansIrradiationDental EnamelRadiation InjuriesGeneral DentistryUltrasonographyTooth CrownEnamel paintbusiness.industryUltrasoundReproducibility of ResultsDose-Response Relationship RadiationMiddle AgedMolarIn vitroElasticitystomatognathic diseasesHead and Neck Neoplasmsvisual_artDentinvisual_art.visual_art_mediumsymbolsFemaleCranial IrradiationbusinessToothBiomedical engineeringClinical oral investigations
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