Presentation is loading. Please wait.

Presentation is loading. Please wait.

Tissue Fluid small artery small vein cells venule arteriole

Published byGabriella Mason Modified over 6 years ago

Similar presentations

Presentation on theme: "Tissue Fluid small artery small vein cells venule arteriole"— Presentation transcript:

1 Tissue Fluid small artery small vein cells venule arteriole
capillaries lymphatic tissue fluid Tissue fluid is: constantly being formed at the arteriole end of capillary beds essential for the efficient exchange of materials between the blood and the cells is constantly being drained away from the cells by lymph vessels

2 Capillaries and Tissue Fluid Formation
The cells of the body are bathed in a fluid called tissue fluid Tissue fluid is essential for the efficient exchange of materials between the blood and the cells Tissue fluid is formed at the arteriole end of the capillaries Capillary Tissue fluid Arteriole end of capillary Venule end Body Cells

3 Capillaries and Tissue Fluid Formation
Blood entering the capillaries from the arterioles has a relatively high hydrostatic pressure (blood pressure) due to the pumping action of the ventricles This hydrostatic pressure (4.3 kPa) tends to force water, ions and other small molecules out of the capillary by filtration Opposing this outward pressure is a tendency for water in the less concentrated tissue fluid to move into the more concentrated blood plasma in the capillaries by osmosis Arteriole end of capillary Venule end of capillary Hydrostatic pressure (kPa) Osmotic potential (kPa) 4.3 Capillary FILTRATION Tissue fluid Body Cells

4 Capillaries and Tissue Fluid Formation
The osmotic or solute potential of the blood is more negative then that of the tissue fluid due to the presence of plasma proteins that are too large to pass from the capillaries to the tissue fluid The osmotic pull of water into the capillaries from the tissue fluid has a pressure value of 1.8 kPa (the difference in solute potential between the blood and the tissue fluid) Arteriole end of capillary Venule end of capillary Hydrostatic pressure (kPa) Osmotic potential (kPa) 4.3 Capillary - 3.3 - 1.5 Tissue fluid Body Cells

5 Capillaries and Tissue Fluid Formation
At the arteriole end of the capillary there is, therefore, an outward hydrostatic pressure of 4.3 kPa and an inward osmotic pull of 1.8 kPa The outward hydrostatic pressure exceeds the inward osmotic pull and so blood is filtered and fluid leaves the blood to form tissue fluid Tissue fluid is filtered plasma but lacking the plasma proteins that are too large to pass through the capillary pores Arteriole end of capillary Venule end of capillary Hydrostatic pressure (kPa) Osmotic potential (kPa) 4.3 1.8 Capillary Tissue fluid Body Cells

6 Capillaries and Tissue Fluid Formation
As the blood moves from the arteriole to the venule end of the capillary, there is a fall in the hydrostatic pressure but the solute potentials remain unchanged The fall in hydrostatic pressure is the result of: loss of fluid at the arteriole end of the capillary blood moving further away from the pumping action of the heart Blood flow in the capillaries tends to slow down allowing time for the exchange of materials between the blood and the tissues Arteriole end of capillary Venule end of capillary 1.6 1.8 Hydrostatic pressure (kPa) Osmotic potential (kPa) 4.3 1.8 Capillary Tissue fluid Body Cells

7 Capillaries and Tissue Fluid Formation
At the venule end of the capillary, the inward osmotic pull now exceeds the outward hydrostatic pressure Some of the filtered water returns to the capillary from the tissue fluid by osmosis Arteriole end of capillary Venule end of capillary 1.6 1.8 Hydrostatic pressure (kPa) Osmotic potential (kPa) 4.3 1.8 Capillary Tissue fluid Body Cells

8 Capillaries and Tissue Fluid Formation
Tissue fluid is constantly being formed and therefore needs to be replaced Dipping into the tissue fluid there is a network of tiny vessels called lymphatics whose function is to drain surplus tissue fluid away from the cells Larger lymph vessels transport the lymph into the great veins and then into the heart L y m p h v e s l Tissue fluid Body Cells Arteriole end of capillary Venule end Capillary lymphatic

9 Capillaries and Tissue Fluid Formation
Tissue fluid is constantly being formed and therefore needs to be replaced Dipping into the tissue fluid there is a network of tiny vessels called lymphatics whose function is to drain surplus tissue fluid away from the cells The drained tissue fluid (lymph) is returned to the bloodstream Larger lymph vessels transport the lymph into the great veins and then into the heart L y m p h v e s l Tissue fluid Body Cells Arteriole end of capillary Venule end Capillary lymphatic

10 Summary of Tissue Fluid Formation
At the arteriole end of the capillary, the outward hydrostatic pressure is Greater than the inward osmotic pull Water, ions and small molecules are filtered out of the blood into the spaces between the cells - this is tissue fluid The loss of fluid from the blood leads to a fall in hydrostatic pressure as the blood approaches the venule end of the capillary At the venule end of the capillary, the inward osmotic pull now exceeds the outward hydrostatic pressure and some of the water re-enters the capillary by osmosis Tissue fluid is drained away from the cells by the lymphatic system and returned to the circulation near the heart Capillary Tissue fluid Arteriole end of capillary Venule end Body Cells Hydrostatic pressure (kPa) 1.6 1.8 4.3

Download ppt "Tissue Fluid small artery small vein cells venule arteriole"

Similar presentations

Functions of the circulation

Functions of the circulation
Tutorial June 25 Bio 155. Blood Cellular component: 1)RBC 2)WBC 3)Platelet.

Tutorial June 25 Bio 155. Blood Cellular component: 1)RBC 2)WBC 3)Platelet.
The Microcirculation Figure 16-1; Guyton and Hall.

The Microcirculation Figure 16-1; Guyton and Hall.
Capillaries and Exchange of Materials. Learning Outcomes Capillaries allow exchange of substances with tissues. Pressure filtration of fluids through.

Capillaries and Exchange of Materials. Learning Outcomes Capillaries allow exchange of substances with tissues. Pressure filtration of fluids through.
Tissue Fluid.

Tissue Fluid.
Lung All other parts of the body The mammalian circulation plan Double circulation in mammals Heart Blood Blood vessels Circulatory system pulmonary circulation.

Lung All other parts of the body The mammalian circulation plan Double circulation in mammals Heart Blood Blood vessels Circulatory system pulmonary circulation.
Chpt. 28: The Lymphatic System. Study of the Lymphatic System will involve three main areas: 1.The Lymphatic System 2.The Formation of Lymph 3.The functions.

Chpt. 28: The Lymphatic System. Study of the Lymphatic System will involve three main areas: 1.The Lymphatic System 2.The Formation of Lymph 3.The functions.
Plasma, Tissue Fluid and Lymph

Plasma, Tissue Fluid and Lymph
Interstitial fluid and the lymph

Interstitial fluid and the lymph
13.6 Blood Vessels and their Functions. Questions What does a ‘double’ circulatory system mean? Blood passes twice through the heart for each circuit.

13.6 Blood Vessels and their Functions. Questions What does a ‘double’ circulatory system mean? Blood passes twice through the heart for each circuit.
Circulatory System of a Mammal

Circulatory System of a Mammal
Types of Blood Vessels 1.Arteries: Carry blood away from the heart Blood leaving heart starts off in large vessels called arteries Arteries become smaller.

Types of Blood Vessels 1.Arteries: Carry blood away from the heart Blood leaving heart starts off in large vessels called arteries Arteries become smaller.
© SSER Ltd..

© SSER Ltd..
ACCESS HE Human Biology.

ACCESS HE Human Biology.
Under Pressure!. Different sorts of pressure! The key concept in the Transport exam will be PRESSURE The SI unit of pressure = KPa ( although medical.

Under Pressure!. Different sorts of pressure! The key concept in the Transport exam will be PRESSURE The SI unit of pressure = KPa ( although medical.
30.4 Blood Vessels and Transport Arteries, veins, and capillaries transport blood to all parts of the body.

30.4 Blood Vessels and Transport Arteries, veins, and capillaries transport blood to all parts of the body.
CARDIOVASCULAR SYSTEM

CARDIOVASCULAR SYSTEM
Felicia Klarin Stephenie. Circulatory System Components of the Circulatory System 1. Heart 2. Arteries 3. Arterioles 4. Blood Capillaries 5. Venules.

Felicia Klarin Stephenie. Circulatory System Components of the Circulatory System 1. Heart 2. Arteries 3. Arterioles 4. Blood Capillaries 5. Venules.
 Arteries  Capillaries  Veins. Muscular Walls.

 Arteries  Capillaries  Veins. Muscular Walls.
Blood Vessels, Blood Flow and Capillary Exchange.

Blood Vessels, Blood Flow and Capillary Exchange.

Similar presentations

Ads by Google