Identification of the regression model between the strength properties of tissue and its ultrasonic spectral characteristics.
Patients with identified aneurysms of the abdominal aorta, who are planned for surgical treatment, undergo an ultrasound examination of the abdominal aorta to assess the elastic properties of the aortic wall using ultrasound speckle tracking. Intraoperatively, the accessible wall of the abdominal aortic aneurysm with a size of at least 10 cm2 is taken. and a section of the thrombotic cup of the aorta with a volume of up to 5 cm3. Pathologically altered tissues extracted for research are subject to removal during a standard operation for prosthetics of the infrarenal aorta and have no clinical significance for the patient. In in vitro studies, the strength properties of the aneurysm wall are measured under uniaxial tension on a tensile testing machine, which makes it possible to evaluate the elastic properties of the test sample and obtain such parameters as Young's modulus (slope of the strain-stress diagram in a linear section at small deformations), as well as limiting strain values and loading. The evaluation of the linearity boundaries of the surface under study, as well as the yield strength of the vascular wall and thrombotic masses, is evaluated under shear stresses using a rheometer. The tests will be carried out using special ground plane-to-plane instruments. To correlate the mechanical properties with the structural composition of the aneurysm tissue, spectral analysis of the tested tissues using the laser-induced fluorescence method and histological examination by staining the obtained sections for elastic fibers, fibrous tissues and calcification will be used.
Study Type
OBSERVATIONAL
Enrollment
50
Patients with aneurysms of the abdominal aorta undergo an ultrasound examination of the abdominal aorta to assess the elastic properties of the aortic wall. The accessible wall of the abdominal aortic aneurysm is taken intraoperatively. In in vitro studies, the strength properties of the aneurysm wall are measured during uniaxial tension on a tensile testing machine, which makes it possible to evaluate the elastic properties of the test sample. The assessment of the boundaries of the linearity of the surface under study, as well as the yield strength of the vascular wall and thrombotic masses, is evaluated under shear stresses using a rheometer. To correlate the mechanical properties with the structural composition of the aneurysm tissue, spectral analysis of the studied tissues by laser-induced fluorescence and histological examination with staining of the obtained sections for the presence of elastic fibers, fibrous tissues and calcification will be used.
Alexander A Gostev
Novosibirsk, Novosibirskaya Obl, Russia
Federal State Institution Academician E.N.Meshalkin Novosibirsk State Research Institute Of Circulation Pathology Rusmedtechnology
Novosibirsk, Russia
E. Meshalkin National Medical Research Center
Novosibirsk, Russia
Calculate the relationship between the strength properties of the tissue and its ultrasonic spectral characteristics
Identification of the regression relationship between the elasto-elastic and strength properties of the tissue and its ultrasonic characteristics will make it possible to determine the most significant diagnostic ultrasonic criteria for aortic wall deformation, which determine the increased risk of its rupture and thromboembolic complications in a particular patient.
Time frame: 1 year
Measurement of elastic-elastic properties of the aortic wall using ultrasonic speckle tracking
Patients with identified aneurysms of the abdominal aorta, who are planned for surgical treatment, undergo an ultrasound examination of the abdominal aorta to assess the elastic properties of the aortic wall using ultrasound speckle tracking. with the construction of a graph of elastic deformation segment by segment
Time frame: at least one day prior to surgery
Measurement of the strength properties of the aneurysm wall in uniaxial tension in vitro
evaluate the elastic properties of the tested sample and obtain parameters such as Young's modulus (the slope of the strain-stress diagram in the linear section at small strains)
Time frame: 1 month
Measure linearity limits as well as shear yield strength in vitro
The evaluation of the linearity boundaries of the surface under study, as well as the yield strength of the vascular wall and thrombotic masses, is evaluated under shear stresses using a rheometer
Time frame: 1 month
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.