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Elastic Strain Energy for Shearing Stresses01:20

Elastic Strain Energy for Shearing Stresses

277
As discussed in previous lessons, strain energy in a material is the energy stored when it is elastically deformed, a concept crucial in materials science and mechanical engineering. This energy results from the internal work done against the cohesive forces within the material. When a material undergoes shearing stress and corresponding shearing strain, the strain energy density, which is the energy stored per unit volume, is calculated. Within the elastic limit, where the stress is...
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Ultrasound II: Endoscopic Ultrasound and FibroScan01:25

Ultrasound II: Endoscopic Ultrasound and FibroScan

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Endoscopic Ultrasound (EUS) and FibroScan are valuable diagnostic tools in gastroenterology and hepatology, each with specific applications and techniques.
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Strain and Elastic Modulus01:15

Strain and Elastic Modulus

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The quantity that describes the deformation of a body under stress is known as strain. Strain is given as a fractional change in either length, volume, or geometry under tensile, volume (also known as bulk), or shear stress, respectively, and is a dimensionless quantity. The strain experienced by a body under tensile or compressive stress is called tensile or compressive strain, respectively. In contrast, the strain experienced under bulk stress and shear stress is known as volume and shear...
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Relation between Poisson's ratio, Modulus of Elasticity and Modulus of Rigidity01:15

Relation between Poisson's ratio, Modulus of Elasticity and Modulus of Rigidity

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Deformation occurs in axial and transverse directions when an axial load is applied to a slender bar. This deformation impacts the cubic element within the bar, transforming it into either a rectangular parallelepiped or a rhombus, contingent on its orientation. This transformation process induces shearing strain. Axial loading elicits both shearing and normal strains. Applying an axial load instigates equal normal and shearing stresses on elements oriented at a 45° angle to the load axis.
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Video Experimental Relacionado

Updated: Sep 9, 2025

Measuring Local Tissue Strains in Tendons via Open-Source Digital Image Correlation
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Mapeo de la rigidez del tendón: Elastografía bidimensional frente a la onda de corte puntual

Mario Pasurka1, Theo Falck1, Joshua Kubach1

  • 1Department of Orthopaedic and Trauma Surgery, University Hospital of Erlangen, Friedrich-Alexander-University Erlangen-Nuremberg, Krankenhaus 9, 91054, Erlangen, Germany.

Journal of orthopaedics
|September 2, 2025
PubMed
Resumen
Este resumen es generado por máquina.

Este estudio comparó la elastografía de onda de corte puntual (pSWE) y la elastografía de onda de corte 2D (2D-SWE) para evaluar la rigidez del tendón rotuliano. Ambos métodos mostraron una excelente fiabilidad, siendo 2D-SWE1 más rápido y altamente confiable para uso clínico.

Palabras clave:
Imágenes de la fuerza de la radiación acústicaEcografía musculoesqueléticaElastografía de onda de corte de puntoRigidez de los tendonesElastografía de onda de corte bidimensional

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Área de la Ciencia:

  • Ultrasonido musculoesquelético
  • Física de las imágenes médicas
  • Biomecánica

Sus antecedentes:

  • La evaluación de la rigidez del tendón patelar (PT) es crucial para el diagnóstico y el tratamiento de las tendinopatías.
  • La elastografía de onda de corte (SWE) ofrece una medición cuantitativa no invasiva de la rigidez.
  • Todavía no se ha establecido la comparabilidad entre el punto SWE (pSWE) y el 2D SWE (2D-SWE) para la evaluación del PT.

Objetivo del estudio:

  • Para comparar la precisión y fiabilidad del diagnóstico de pSWE y 2D-SWE en la evaluación de la rigidez del tendón patelar.
  • Evaluar la fiabilidad intra e interrater tanto para las técnicas pSWE como para las 2D-SWE.
  • Evaluar y comparar el tiempo de medición requerido para el pSWE y el 2D-SWE.

Principales métodos:

  • Cuarenta participantes sanos se sometieron a ultrasonido de modo B, ultrasonido Doppler de color y SWE (pSWE y 2D-SWE) de los tendones rotulianos.
  • Se registraron los valores de rigidez (velocidad de la onda de corte) y las duraciones de la medición.
  • La fiabilidad intra e interrater fue evaluada por dos investigadores en dos momentos.

Principales resultados:

  • El pSWE mostró valores de rigidez ligeramente más altos (4,02 ± 1,07 m/s) que el 2D-SWE (3,82 ± 0,73 m/s) (p < 0,001).
  • 2D-SWE con una medición (2D-SWE1) fue significativamente más rápido (47,20 ± 8,23 s) que pSWE (54,85 ± 8,34 s) (p < 0,001).
  • Ambos métodos demostraron una excelente fiabilidad intra e interrater, con 2D-SWE1 obteniendo los valores de ICC más altos.

Conclusiones:

  • Este es el primer estudio que compara pSWE y 2D-SWE para la evaluación de la rigidez del tendón rotuliano.
  • 2D-SWE, en particular 2D-SWE1, ofrece una alternativa confiable y eficiente en el tiempo para la ecografía musculoesquelética clínica.
  • Los hallazgos apoyan la utilidad clínica potencial de 2D-SWE en la evaluación de las propiedades del tendón rotuliano.