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18.1B: Blood Vessel Function

Blood vessels carry nutrients and oxygen throughout the body and aid in gas exchange.

 

LEARNING OBJECTIVES

 

List the functions of blood vessels

 

KEY TAKEAWAYS

Key Points

 

  • Systemic and pulmonary circulatory systems efficiently deliver oxygen to the tissues of the body and remove waste products such as carbon dioxide. Arterial blood (except in the pulmonary artery ) is highly saturated with oxygen and supplies oxygen to the body’s tissues.
  • Venous blood (except in the pulmonary vein ) is deoxygenated and returns to the heart to be pumped into the lungs for reoxygenation.
  • Nutrients carried in the blood are released to tissues via the permeable endothelium of blood vessels.
  • Immune cells move throughout the circulatory system and are able to rapidly permeate the walls of blood vessels to attend sites of injury or infection.
  • Blood vessels can increase or decrease blood flow near the surface of the body, either increasing or reducing the amount of heat lost as a means of regulating body temperature.

 

Key Terms

 

  • thermoregulation: The maintenance of a constant internal temperature of an organism independent of the temperature of the environment

Blood plays many critical roles within the body: delivering nutrients and chemicals to tissues, removing waste products, and maintaining homeostasis and health. The circulatory system is transports blood through the body to perform these actions, facilitated by the extensive network of blood vessels.

Gas Transfer

The circulatory system can be split into two sections, systemic and pulmonary. In the systemic circulatory system, highly oxygenated blood (95-100%) is pumped from the left ventricle of the heart and into the arteries of the body. Upon reaching the capillary networks, gas exchange between tissue and blood can occur, facilitated by the narrow walls of the capillaries. Oxygen is released from the blood into the tissues and carbon dioxide, a waste product of respiration, is absorbed. The capillaries merge into venules and then veins, carrying the deoxygenated blood (~75%) back to the right atrium of the heart at the end of the systemic circulatory system.

The much smaller pulmonary system reoxygenates the blood and facilitates the removal of carbon dioxide. After leaving the heart through the right ventricle, the blood passes through the pulmonary artery, the only artery in the body that contains deoxygenated blood, and into the capillary network within the lungs. The close association of the thin-walled alveolae with the equally thin-walled capillaries allows for rapid release of carbon dioxide and uptake of oxygen. After leaving the lungs through the pulmonary vein, the only vein which carries oxygenated blood, the blood enters the left atrium. This completes the pulmonary circulatory system.

This diagram of the circulatory system indicates the basilar artery, internal and external carotid arteries, external and internal jugular veins, vertebral arteries, common carotid arteries, pulmonary arteries and veins, heart, celiac trunk, hepatic vein, renal veins, renal artery, gonadal vein, gonadal artery, common iliac vein and artery, internal iliac vein and artery, external iliac vein and artery, great saphenous vein, femoral vein and artery, popliteal vein and artery, small saphenous vein, anterior and posterior tibial arteries, peroneal artery, anterior and posterior tibial veins, dorsal venous arch, dorsal digital vein, arcuate artery, dorsal digital arteries, digital artery, palmar digital veins, radial artery, ulnar artery, cephalic vein, medial cubital vein, basilic vein, brachial artery, descending aorta, inferior and superior vena cava, aorta, axillary artery and vein, cephalic vein, and subclavian vein and artery.

 

The Circulatory System: This simplified diagram of the human circulatory system (anterior view) shows arteries in red and veins in blue.

 

Additional Functions

Blood vessels also facilitate the rapid distribution and efficient transport of factors such as glucose, amino acids, or lipids into the tissues and the removal of waste products for processing elsewhere, such as lactic acid to the liver or urea to the kidneys. Additionally, blood vessels provide the ideal network for immune system surveillance and distribution. Numerous white blood cells circulate around the body, sensing for infection or injury. Once an injury is detected, they rapidly leave the circulatory system by passing through gaps in vessel walls to reach the affected area while signalling for a larger targeted immune response.

Mechanically the blood vessels, especially those near the skin, play a key role in thermoregulation. Blood vessels can swell to allow greater blood flow, allowing for greater radiant heat loss. Conversely, blood flow through these vessels can be lessened to reduce heat loss in colder climates.

 

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