International Journal of Cardiology. Cardiovascular Risk and Prevention (Dec 2021)

Hemodynamic stress and microscopic remodeling

  • Fatih Yalçin,
  • Hulya Yalçin,
  • Roselle Abraham,
  • Theodore P. Abraham

Journal volume & issue
Vol. 11
p. 200115

Abstract

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Backgroud: Heart responds to physiologic and pathologic conditions and sympathetic drive plays an important role. It has been documented that LV base is more dominantly affected by sympathetic drive compared to the other regions. LV base is more dominantly exposed to wall stress in the initial period of remodeling due to pressure-overload, since LV cavity is the largest at base. Basal septal hypertrophy (BSH) in cross-sectional data is associated with the early phase of hypertensive heart disease. BSH was confirmed by 3rd generation microscopic ultrasound in small animals. BSH as the closest location to increased afterload could be detected in variety of stress stimuli and result in a huge septal hypertrophy in advance cases possibly related to earlier exposure of hemodynamic stress to septal wall. Conclusion: Effective geometric and functional evaluation of initial remodeling due to hemodynamic stress is important according to both human and animal data. These findings possibly contribute to early recognition of adaptive phase of hypertensive remodeling and more effective management in a timely fashion.

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