Quantifying non-axial deformations in rat myocardium
While it is clear that myocardium responds to mechanical stimuli, it is unknown whether myocytes transduce stress or strain. It is also unknown whether myofibers maintain lateral connectivity or move freely over one another when myocardium is deformed. Due to the lack of information about the rela...
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Texas A&M University
2005
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ndltd-tamu.edu-oai-repository.tamu.edu-1969.1-13402013-01-08T10:37:33ZQuantifying non-axial deformations in rat myocardiumAghassibake, Kristina Dianemyocardiumstraindeformationnon-axialWhile it is clear that myocardium responds to mechanical stimuli, it is unknown whether myocytes transduce stress or strain. It is also unknown whether myofibers maintain lateral connectivity or move freely over one another when myocardium is deformed. Due to the lack of information about the relationship between macroscopic and cellular deformations, we sought to develop an experimental method to examine myocyte deformations and to determine their degree of affinity. A set of protocols was established for specimen preparation, image acquisition, and analysis, and two experiments were performed according to these methods. Results indicate that myocyte deformations are non-affine; therefore, some cellular rearrangement must occur when myocardium is stretched.Texas A&M UniversityCriscione, John C.2005-02-17T20:59:13Z2005-02-17T20:59:13Z2004-122005-02-17T20:59:13ZBookThesisElectronic Thesistext1907345 byteselectronicapplication/pdfborn digitalhttp://hdl.handle.net/1969.1/1340en_US |
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NDLTD |
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en_US |
| format |
Others
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myocardium strain deformation non-axial |
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myocardium strain deformation non-axial Aghassibake, Kristina Diane Quantifying non-axial deformations in rat myocardium |
| description |
While it is clear that myocardium responds to mechanical stimuli, it is unknown whether myocytes transduce stress or strain. It is also unknown whether myofibers maintain lateral connectivity or move freely over one another when myocardium is deformed. Due to the lack of information about the relationship between macroscopic and cellular deformations, we sought to develop an experimental method to examine myocyte deformations and to determine their degree of affinity. A set of protocols was established for specimen preparation, image acquisition, and analysis, and two experiments were performed according to these methods. Results indicate that myocyte deformations are non-affine; therefore, some cellular rearrangement must occur when myocardium is stretched. |
| author2 |
Criscione, John C. |
| author_facet |
Criscione, John C. Aghassibake, Kristina Diane |
| author |
Aghassibake, Kristina Diane |
| author_sort |
Aghassibake, Kristina Diane |
| title |
Quantifying non-axial deformations in rat myocardium |
| title_short |
Quantifying non-axial deformations in rat myocardium |
| title_full |
Quantifying non-axial deformations in rat myocardium |
| title_fullStr |
Quantifying non-axial deformations in rat myocardium |
| title_full_unstemmed |
Quantifying non-axial deformations in rat myocardium |
| title_sort |
quantifying non-axial deformations in rat myocardium |
| publisher |
Texas A&M University |
| publishDate |
2005 |
| url |
http://hdl.handle.net/1969.1/1340 |
| work_keys_str_mv |
AT aghassibakekristinadiane quantifyingnonaxialdeformationsinratmyocardium |
| _version_ |
1716502758534676480 |