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The Circulatory system is a "closed circulation”

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1 The Circulatory system is a "closed circulation”
Systemic Circuit Pulmonary Circuit Systemic Circuit

2 Blood

3 Blood = Plasma + Formed (Cellular) Elements
~ 55% blood volume ~ 92% of plasma is water High dissolved O2 content Dissolved proteins Cells ~ 45% blood volume RBCs (~ 99% of cells) WBCs (~ 1% of cells)

4 Proteins in Plasma Albumins
60% of plasma proteins (forms lipoproteins). Globulins 35% of plasma proteins – mostly immunoglobulins. Fibrinogen For clotting reaction, forms fibrin. * serum = plasma without clotting proteins

5 Cellular Components RBCs (erythrocytes) ~ 99% of all cells.
Hematocrit = % of blood occupied by cellular components. (packed RBC volume) Lacks: nuclei, ribosomes, and mitochondria. Anaerobic metabolism (glycolysis) Life span = ~120 days

6 Scanning Electron Micrograph (SEM)
of Erythrocytes or Red Blood Cells (RBCs) on the tip of a hypodermic needle.

7 Millions of Hb inside each RBC

8 Normal Red Blood Cells Anemia – reduction in O2 carrying capacity of blood. Sickle Cells - Sickle Cell Anemia

9 White Blood Cells Neutrophils 70% of circulating leukocytes
Highly mobile phagocytes. Eosinophils much less common Attracted to foreign compounds reacted with antibodies. Basophils relatively rare Migrate to damaged tissue, releases histamine.

10 Lymphocytes primary cell of lymphatic system
T-cells attack foreign cells directly. B-cells produce antibodies. Monocytes Migrate into tissues and differentiate into Macrophages - highly mobile phagocytes. Platelet cells (Thrombocytes) Fragments of cells (Megakaryocytes) for clotting.

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12 Never Let Monkeys Eat Bananas

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14 Blood Vessels

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18 Blood Vessels

19 MAP Type of Blood Vessel

20 Blood flows down a pressure gradient (P)
Highest at the heart (driving P), decreases over distance. Flow  P / R

21 Resistance Opposes Flow
3 Factors Influence Resistance of fluid flow in Tube: 1) Length of tube (vessel):  length =  Resistance  viscosity =  Resistance 2) Viscosity of fluid (blood): 3) Diameter (radius) of tube (vessel):  radius =  Resistance

22 3 Types of Capillary Beds
1. Continuous Capillary Bed - most common type in the body. - have tight junctions - ‘leaky’ capillaries

23 2. Fenestrated Capillary Bed
- have ‘pores’ or fenestrations. - more ‘leaky’ than continuous. - specific locations in body: e.g., kidney and synovial joints.

24 3. Sinusoidal Capillary Bed
- open ‘flaps’ in adjacent endothelial cells. - ‘leakiest’ capillary bed. - high degree of exchange. - highly convoluted (twisting). - least common in body: e.g., liver and spleen.

25 Capillaries Venule Ateriole

26 Anemia Hemolytic anemia Hemorrhagic anemia Inadequate erythropoiesis
Sickle cell anemia Hemorrhagic anemia Hemophilia, trauma, ruptured aneurysm Inadequate erythropoiesis Inadequate nutrition (e.g., iron deficiency)

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