Human Physiology Engineering

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Shear stress

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Human Physiology Engineering

Definition

Shear stress is a measure of the force per unit area that acts parallel to a surface, resulting from the frictional forces between fluid layers moving at different velocities. In the context of blood flow, shear stress plays a critical role in determining how blood vessels respond to changes in blood flow and pressure. It influences endothelial cell function, vascular remodeling, and can impact conditions such as atherosclerosis and hypertension.

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5 Must Know Facts For Your Next Test

  1. Shear stress in blood vessels is directly proportional to the flow velocity of blood and inversely proportional to the vessel diameter.
  2. Endothelial cells respond to shear stress by releasing substances that can cause vasodilation or vasoconstriction, impacting overall blood pressure and flow.
  3. High levels of shear stress can lead to adaptive responses in blood vessels, including changes in shape and wall thickness.
  4. Abnormal shear stress patterns are associated with vascular diseases such as atherosclerosis, where regions of disturbed flow promote plaque formation.
  5. Measuring shear stress is important for understanding cardiovascular health, as it influences both physiological processes and pathological conditions.

Review Questions

  • How does shear stress influence endothelial cell function and vascular health?
    • Shear stress significantly affects endothelial cell function by stimulating them to release various signaling molecules that can lead to either vasodilation or vasoconstriction. These responses are crucial for maintaining proper blood flow and pressure. An optimal level of shear stress promotes healthy endothelial function, while abnormal levels can contribute to vascular diseases like atherosclerosis due to impaired signaling and increased inflammation.
  • Discuss the relationship between shear stress and the development of cardiovascular diseases.
    • The relationship between shear stress and cardiovascular diseases is complex. Abnormal or disturbed shear stress patterns, often found at arterial bifurcations or in areas with turbulent flow, can lead to endothelial dysfunction, inflammation, and the formation of plaques. These factors collectively increase the risk of conditions such as atherosclerosis and hypertension, highlighting the importance of monitoring shear stress for cardiovascular health.
  • Evaluate how changes in blood vessel geometry might affect shear stress and subsequently influence vascular remodeling.
    • Changes in blood vessel geometry, such as diameter alterations due to growth or disease, significantly impact shear stress levels. A narrower vessel increases flow velocity, resulting in higher shear stress, which can stimulate endothelial cells to adapt by altering their morphology and function. This adaptation is part of vascular remodeling, where the structure of blood vessels adjusts in response to mechanical forces. If these changes lead to consistently abnormal shear stress patterns, they may contribute to pathological conditions like hypertension or aneurysm development.
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