BACKGROUND: The global left ventricular dysfunction characteristic of left ventricular aneurysm is associated with muscle fiber stretching in the adjacent noninfarcted (border zone) region during isovolumic systole. The mechanism of this regional dysfunction is poorly understood. METHODS: An anteroapical transmural myocardial infarct was created by coronary arterial ligation in an adult Dorset sheep and was allowed to mature into left ventricular aneurysm for 10 weeks. The animal was imaged subsequently using magnetic resonance imaging with simultaneous recording of intraventricular pressures. A realistic mathematical model of the three-dimensional ovine left ventricle with an anteroapical aneurysm was constructed from multiple short-axis and long-axis magnetic resonance imaging slices at the beginning of diastolic filling. RESULTS: Three model simulations are presented: (1) normal border zone contractility and normal aneurysmal material properties; (2) greatly reduced border zone contractility (by 50%) and normal aneurysmal material properties; and (3) greatly reduced border zone contractility (by 50%) and stiffened aneurysmal material properties (by 1000%). Only the latter two simulations were able to reproduce experimentally observed stretching of border zone fibers during isovolumic systole. CONCLUSIONS: The mechanism underlying mechanical dysfunction in the border zone region of left ventricular aneurysm is primarily the result of myocardial contractile dysfunction rather than increased wall stress in this region.
BACKGROUND: The global left ventricular dysfunction characteristic of left ventricular aneurysm is associated with muscle fiber stretching in the adjacent noninfarcted (border zone) region during isovolumic systole. The mechanism of this regional dysfunction is poorly understood. METHODS: An anteroapical transmural myocardial infarct was created by coronary arterial ligation in an adult Dorset sheep and was allowed to mature into left ventricular aneurysm for 10 weeks. The animal was imaged subsequently using magnetic resonance imaging with simultaneous recording of intraventricular pressures. A realistic mathematical model of the three-dimensional ovine left ventricle with an anteroapical aneurysm was constructed from multiple short-axis and long-axis magnetic resonance imaging slices at the beginning of diastolic filling. RESULTS: Three model simulations are presented: (1) normal border zone contractility and normal aneurysmal material properties; (2) greatly reduced border zone contractility (by 50%) and normal aneurysmal material properties; and (3) greatly reduced border zone contractility (by 50%) and stiffened aneurysmal material properties (by 1000%). Only the latter two simulations were able to reproduce experimentally observed stretching of border zone fibers during isovolumic systole. CONCLUSIONS: The mechanism underlying mechanical dysfunction in the border zone region of left ventricular aneurysm is primarily the result of myocardial contractile dysfunction rather than increased wall stress in this region.
Authors: Peng Zhang; Julius M Guccione; Susan I Nicholas; Joseph C Walker; Philip C Crawford; Amin Shamal; David A Saloner; Arthur W Wallace; Mark B Ratcliffe Journal: J Thorac Cardiovasc Surg Date: 2005-10 Impact factor: 5.209
Authors: Peng Zhang; Julius M Guccione; Susan I Nicholas; Joseph C Walker; Philip C Crawford; Amin Shamal; Gabriel Acevedo-Bolton; Michael A Guttman; Cengizhan Ozturk; Elliot R McVeigh; David A Saloner; Arthur W Wallace; Mark B Ratcliffe Journal: J Thorac Cardiovasc Surg Date: 2007-10 Impact factor: 5.209
Authors: Lik Chuan Lee; Jonathan F Wenk; Doron Klepach; Zhihong Zhang; David Saloner; Arthur W Wallace; Liang Ge; Mark B Ratcliffe; Julius M Guccione Journal: J Biomech Eng Date: 2011-09 Impact factor: 2.097
Authors: Kay Sun; Zhihong Zhang; Takamaro Suzuki; Jonathan F Wenk; Nielen Stander; Daniel R Einstein; David A Saloner; Arthur W Wallace; Julius M Guccione; Mark B Ratcliffe Journal: J Thorac Cardiovasc Surg Date: 2010-03-17 Impact factor: 5.209
Authors: Joseph C Walker; Mark B Ratcliffe; Peng Zhang; Arthur W Wallace; Edward W Hsu; David A Saloner; Julius M Guccione Journal: J Thorac Cardiovasc Surg Date: 2008-05 Impact factor: 5.209
Authors: Kay Sun; Nielen Stander; Choon-Sik Jhun; Zhihong Zhang; Takamaro Suzuki; Guan-Ying Wang; Maythem Saeed; Arthur W Wallace; Elaine E Tseng; Anthony J Baker; David Saloner; Daniel R Einstein; Mark B Ratcliffe; Julius M Guccione Journal: J Biomech Eng Date: 2009-11 Impact factor: 2.097