1. BLOOD PRESSURE AND ITS EFFECTS ON MUSCLE STIFFNESS MEASUREMENTS THROUGH ULTRASOUND ELASTOGRAPHY Open Access Author: Johnson, Matthew Bryan Title: BLOOD PRESSURE AND ITS EFFECTS ON MUSCLE STIFFNESS MEASUREMENTS THROUGH ULTRASOUND ELASTOGRAPHY Area of Honors: Biomedical Engineering Keywords: Compartment SyndromeBlood PressureUltrasoundShear Wave ElastographyIntramuscular PressureMuscle Stiffness File: Download FINAL_THESIS.pdf Thesis Supervisors: Dr. Daniel Humberto Cortes Correales, Thesis SupervisorDr. Nanyin Zhang, Thesis Honors AdvisorMeghan Elise Vidt, Faculty Reader
2. Shear Wave Elastography of the Anterior Cruciate Ligament Open Access Author: Heller, Rachel Title: Shear Wave Elastography of the Anterior Cruciate Ligament Area of Honors: Mechanical Engineering Keywords: biomechanicsACLmechanical propertiesShear Wave Elastographyultrasound File: Download Heller_Rachel_ShearWaveElastographyoftheACL.pdf Thesis Supervisors: Daniel Humberto Cortes Correales, Thesis SupervisorAnne Elizabeth Martin, Thesis Honors Advisor
3. Assessing the Degradation of Novel Neural Prostheses Using Real Time Shear Wave Elastography, Ultrasound, and Photoacoustic Imaging Tools Open Access Author: Drozynski, Hanna Title: Assessing the Degradation of Novel Neural Prostheses Using Real Time Shear Wave Elastography, Ultrasound, and Photoacoustic Imaging Tools Area of Honors: Biomedical Engineering Keywords: Shear Wave ElastographyUltrasoundPhotoacousticMedical ImagingNeural ProthesesBiomaterialsShear Modulus File: Download Honors_Thesis.pdf Thesis Supervisors: Sri-Rajasekhar Kothapalli, Thesis SupervisorMeghan Vidt, Thesis Honors Advisor
4. Relating Muscle Stress and Stiffness Using Ultrasound Shear Wave Elastography Open Access Author: Brencovich, Olivia Title: Relating Muscle Stress and Stiffness Using Ultrasound Shear Wave Elastography Area of Honors: Mechanical Engineering Keywords: BiomechanicsUltrasoundShear Wave ElastographyPassive Muscle ForceMuscle StiffnessShear ModulusTensile Stress File: Download Brencovich_Relating_Muscle_Tensile_Stress_and_Shear_Modulus_Using_Ultrasound_Shear_Wave_Elastography.pdf Thesis Supervisors: Daniel Humberto Cortes Correales, Thesis SupervisorDaniel Humberto Cortes Correales, Thesis Honors AdvisorAnne Elizabeth Martin, Faculty Reader