Lymphatic System Physiology : How the body drain the fluid

Aura Nirwana

29 Jan 202012:09

Summary

TLDRThis video discusses the lymphatic system, explaining its role as an additional route for returning interstitial fluid to the bloodstream. It details the differences between intracellular and extracellular fluids, highlighting the similarities between interstitial fluid and plasma. The process of filtration and reabsorption in capillaries is examined, emphasizing the lymphatic vessels' function in collecting excess interstitial fluid. Additionally, the video covers the lymphatic system's importance in immune defense, fat transport, and the return of filtered proteins, providing a comprehensive understanding of its critical physiological functions.

Takeaways

😀 The lymphatic system is an additional route for returning interstitial fluid to the bloodstream.
🌊 Interstitial fluid differs from intracellular and extracellular fluids, with unique compositions.
🔬 There are two main types of extracellular fluid: interstitial fluid and plasma, which are separated by capillary walls.
🩸 Capillaries have three types: continuous, discontinuous, and fenestrated, each with distinct permeability characteristics.
💧 Filtration occurs in capillaries, allowing nutrients to enter interstitial fluid, while reabsorption returns some fluid to the bloodstream.
📈 On average, 20 liters of fluid are filtered daily, but only about 17 liters are reabsorbed, leaving 3 liters in the interstitial space.
🛡️ Lymphatic vessels play a critical role in absorbing excess interstitial fluid to prevent edema.
🦠 Lymph nodes serve as immune system hubs, filtering lymph fluid and activating immune cells.
🍖 The lymphatic system is responsible for the absorption and transport of dietary fats through specialized vessels called lacteals.
🔄 The lymphatic system helps recover proteins that escape capillaries, maintaining osmotic balance and preventing swelling.

Q & A

What is the lymphatic system and its primary function?
-The lymphatic system is a supplementary route that helps return interstitial fluid to the bloodstream, maintaining fluid balance within the body.
What are the two main types of body fluids?
-The two main types of body fluids are intracellular fluid, which is found inside cells, and extracellular fluid, which is found outside cells.
How is extracellular fluid categorized?
-Extracellular fluid is categorized into interstitial fluid, which surrounds cells, and plasma, which is the liquid component of blood.
What are the three types of capillaries mentioned in the script?
-The three types of capillaries are continuous capillaries, discontinuous capillaries, and fenestrated capillaries, each with varying levels of permeability.
What role do capillaries play in the filtration and reabsorption processes?
-Capillaries facilitate filtration, allowing nutrients and fluids to enter interstitial spaces, and reabsorption, where some of this fluid is returned to the bloodstream.
What happens to the excess fluid that is not reabsorbed by capillaries?
-The excess fluid, which amounts to about 3 liters daily, is collected by lymphatic vessels and returned to the bloodstream.
How do lymphatic vessels differ from blood vessels in terms of structure?
-Lymphatic vessels have larger openings that allow them to absorb larger particles, such as fats, which cannot enter blood vessels due to their size.
What is the significance of lymph nodes in the lymphatic system?
-Lymph nodes act as sites for immune cell activation, storing and producing immune cells that help defend the body against infections.
How does the lymphatic system contribute to fat transport in the body?
-The lymphatic system transports dietary fats that are too large to enter blood vessels directly, specifically through lymphatic vessels present in the intestines.
What are the potential consequences of protein accumulation in the interstitial fluid?
-If proteins accumulate in the interstitial fluid, it can lead to edema due to increased osmotic pressure, causing excess fluid to be drawn into the interstitial space.