Laminar flow occurs when blood moves in ordered, parallel layers through the arteries without obstruction. For example, consider a straight river with a smooth, even bottom and shoreline. The middle of the river may move at a faster speed than the banks, but all the water moves forward in straight paths. Laminar flow is characteristic of large, straight arteries such as the femoral. 

Turbulent flow describes a situation in which the flow pathway becomes irregular, layers break formation, and eddy currents are formed. Picture a river that is rapid and  

winding with variable depths and many obstructions. In arteries, turbulent blood flow can occur in many places, such as where atherosclerotic plaques narrow and vary the vessel lumen, where blood vessels branch or where aneurysms are encountered. Pronounced bends, such as the one in the ascending aorta, also creates turbulent flow. These chaotic fluid dynamics generate sound, creating murmurs, carotid bruits and other audible diagnostic clues. 

Reynolds number is an equation that calculates laminar versus turbulent flow. It is expressed as follows: 

Reynolds number = [diameter x velocity x density]/ viscosity 

Laminar flow occurs at low Reynolds numbers where viscous forces are dominant, and it is characterized by smooth, constant fluid motion; turbulent flow occurs at high Reynolds numbers and is dominated by inertial forces, which tend to produce chaotic eddies, vortices and other flow instabilities. 

Expressed in numbers: 

• >4000 is considered turbulent flow 

• 2300-4000 is transitional flow 

• <2300 is laminar flow 

Risk factors that increase turbulence, such as plaque build-up or hardening of the arterial walls, serve to increase vascular resistance (sometimes referred to as SVR or systemic vascular resistance) and result in increased blood pressure, reduced blood flow, and an increased workload for the heart.