Vascular shunt.

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Presentation transcript:

Vascular shunt

Distribution of Cardiac Output at Rest 15-20% resting Q is supplied to the muscles 80-85% is supplied to the body organs

Vascular shunt http://www.youtube.com/watch ?v=x_- eDv7qSrc&feature=related As she increases the intensity how does the blood know it needs to go to the working muscles? How does the body distribute the blood?

Distribution of Cardiac Output Cardiac Output increases during exercise, but how does the cardiovascular system re-distribute the blood to the working muscles when they need more oxygen? The distribution of Q is controlled by the Vascular Shunt mechanism.

Distribution of Cardiac Output During Exercise 80-85% Q is supplied to the working muscles as exercise increases 15-20% is supplied to the body organs Blood supply to the brain is maintained Increased blood supply to the skin surface for lighter work

Vasomotor Control Centre The VCC works in a similar way to the CCC: The VCC receives info from: Chemoreceptors – Lactic Acid / CO2 or O2 and PH Baroreceptors – Systolic Blood Pressure (increase or decrease)

Vasomotor Control Centre The Vascular Shunt mechanism redistributes Q (Cardiac Output) during rest and during exercise. This is controlled by the Vasomotor Control Centre (VCC) The VCC is located in the Medulla Oblongata (the brain). The VCC stimulates the sympathetic nervous system to vasodilate or vasoconstrict blood vessels.

Sympathetic Nervous System The VCC only sends information via the sympathetic nervous system Arterioles are the blood vessels primarily responsible for the vascular shunt mechanism The smooth muscle in the arterioles are always in a state of contraction, known as vasomotor tone

Pre-Capillary Sphincters Q can be redistributed due to: Arterioles vasodilating or vasoconstricting to increase / restrict blood flow Pre-Capillary Sphincters opening / closing up the capillary beds The Pre-Capillary Sphincter is a ring of smooth muscle at the junction between the arterioles and capillaries

VCC Control VCC controls the blood flow to both the organs and the muscles Organs (during exercise) – The VCC increases sympathetic stimulation. This vasoconstricts the arterioles which decreases blood flow away from the non-essential capillaries of the organs. Muscles (during exercise) – The VCC decreases sympathetic stimulation. This vasodilates the arterioles and therefore increases the blood flow to the working muscles.

The skeletal pump mechanism is one way of helping to maintain venous return. (5 marks)

G451 May 2011 (p2) Q(c) The skeletal pump mechanism is one way of helping to maintain venous return. (5 marks)

Explain how the body controls the increased distribution of blood to the working muscles during exercise

Rethink Watch the following three clips: Zoe Smith: https://www.youtube.com/watch?v=MvGUnmKP6WQ Christine Ohuruogu: https://www.youtube.com/watch?v=VXT1vGX8gt8 Sun Yang: https://www.youtube.com/watch?v=T5FlDy3YmDQ