Shear stress

From WikiMD's medical encyclopedia

Shear stress in the context of physiology and medicine, is a type of stress that is created by forces acting parallel to the surface of a material or tissue. This concept is crucial in understanding the mechanical forces that cells and tissues experience in the human body, particularly in the cardiovascular system. Shear stress plays a significant role in the regulation of blood flow and the development of certain cardiovascular diseases.

Definition

Shear stress, denoted by the symbol τ (tau), is defined as the force per unit area acting parallel to the plane of interest. It is calculated by dividing the force (F) acting on an area (A) by the area itself, mathematically represented as τ = F/A. In the human body, shear stress is most commonly discussed in the context of blood flow, where it describes the force exerted by the flowing blood on the endothelial cells lining the blood vessels.

Physiological Importance

In the cardiovascular system, shear stress is a critical regulator of endothelial function and health. It influences various cellular processes such as endothelial cell proliferation, differentiation, and apoptosis. Shear stress also plays a pivotal role in the regulation of blood vessel tone and diameter, affecting blood pressure and flow.

Vascular Remodeling

Shear stress is a key factor in vascular remodeling, the process by which blood vessels adjust their structure in response to changes in blood flow. High shear stress can lead to the widening of vessels (vasodilation) to reduce resistance and facilitate blood flow, whereas low shear stress can lead to vessel constriction (vasoconstriction) and thickening of the vessel wall.

Atherosclerosis

Atherosclerosis, the buildup of fatty plaques in the arteries, is closely linked to patterns of shear stress. Areas of blood vessels that experience low or oscillatory shear stress are more prone to the development of atherosclerotic plaques. Conversely, regions subjected to high, laminar shear stress are generally protected from atherosclerosis. This relationship underscores the importance of shear stress in cardiovascular health and disease.

Measurement

Measuring shear stress in biological systems involves complex techniques that can include computational fluid dynamics (CFD) models or direct measurement using specialized sensors. These methods allow researchers to estimate the shear stress experienced by cells and tissues under various physiological and pathological conditions.

Clinical Implications

Understanding shear stress has significant clinical implications, especially in the design of medical devices such as stents and heart valves, where abnormal shear stress can lead to device failure or adverse biological responses. Additionally, therapeutic strategies aimed at modifying shear stress in blood vessels may offer new avenues for the treatment of cardiovascular diseases.

Conclusion

Shear stress is a fundamental biomechanical force with profound effects on the cardiovascular system. Its role in vascular health, disease development, and the physiological response to blood flow makes it a critical area of study in medicine and biomedical engineering.

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Contributors: Prab R. Tumpati, MD