1. Presentation title slide

2. UNIT B: Human Body Systems
Chapter 8: Human Organization
Chapter 9: Digestive System
Chapter 10: Circulatory System and Lymphatic System: Section 10.6
Chapter 11: Respiratory System
Chapter 12: Nervous System
Chapter 13: Urinary System
Chapter 14: Reproductive System

3. Chapter 10: Circulatory System and Lymphatic System
UNIT B
Chapter 10: Circulatory System and Lymphatic System
Chapter 10: Circulatory System and Lymphatic System
In this chapter, you will learn about the structure and function of the circulatory system and lymphatic system.
What is the composition of blood, including blood cells?
What organs and structures control the flow of blood throughout the body?
Chapter opener figure background:
There are three different blood doping techniques used.
One method involves the transfusion of blood from a donor or from a sample of an athlete’s own blood collected at an earlier date. This method boosts the quantity of red blood cells, which are also called erythrocytes, in the blood.
Another method involves the injection of erythropoietin (EPO), a hormone naturally produced by the kidneys, to increase the rate of maturation of red blood cells.
The third method involves the use of hemoglobin-based oxygen carriers (HBOCs), which are blood substitutes that can also carry oxygen. Each of these methods of blood doping has important medical uses aside from their illegal use in sports.
In 2013, Lance Armstrong confessed to long-term blood doping and the use of banned substances. Blood doping involves artificially boosting the blood’s ability to bring more oxygen to muscles. Aerobic capacity and endurance improve where there are additional red blood cells available to carry oxygen.
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4. 10.6 The Lymphatic System UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
10.6 The Lymphatic System
The lymphatic system consists of lymphatic vessels and the lymphoid organs. It is closely associated with the circulatory system.
The lymphatic system has three main functions:
Lymphatic capillaries absorb excess tissue fluid and return it to the bloodstream
Lymphatic capillaries absorb fats from the digestive tract and transport them to the bloodstream
Lymphoid organs defend the body against disease
lymphatic system: a type of organ system consisting of lymphatic vessels, lymph nodes, and other lymphatic organs; transports lymphs and lipids, and aids the immune system
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5. UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Figure Lymphatic system. Lymphatic vessels drain excess fluid from the tissues and return it to the circulatory system. Lymphatic vessels, like circulatory veins, have valves to prevent backward flow.
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6. Lymphatic Vessels UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Lymphatic Vessels
Lymphatic vessels form a one-way system that begins with the lymphatic capillaries.
Lymphatic capillaries (tiny, closed-ended vessels) absorb excess tissue fluid called lymph.
Tissue fluid contains water, solutes (nutrients, electrolytes, oxygen), and cellular products (hormones, enzymes, wastes)
lymphatic vessels: a one-way system that carries lymph
lymphatic capillaries: collect excess tissue fluid called lymph
lymph: tissue fluid contained within lymphatic vessels
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7. Movement of Lymph in Lymphatic Vessels
UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Movement of Lymph in Lymphatic Vessels
The lymphatic capillaries join to form lymphatic vessels that merge before entering one of two ducts:
Thoracic duct: returns lymph collected from the left side of the body into the left subclavian vein
Right lymphatic duct: returns lymph collected from the right side of the body into the right subclavian vein
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8. Movement of Lymph in Lymphatic Vessels
UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Movement of Lymph in Lymphatic Vessels
Lymph percolates through various lymph nodes, where foreign material can be recognized by the immune system
Movement of lymph in the lymphatic capillaries is dependent on skeletal muscle contraction
One-way valves in the vessels prevent lymph from flowing backward
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9. UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Edema
Edema is localized swelling caused by the accumulation of tissue fluid that has not been collected by the lymphatic system.
Occurs if too much tissue fluid is made and/or if not enough is drained away
Can lead to tissue damage and death
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10. UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Lymphoid Organs
Lymphoid organs contain large numbers of lymphocytes (white blood cells involved in adaptive immunity).
There are two types of lymphoid organs:
Primary lymphoid organs: red bone marrow and thymus, where lymphocytes develop and mature
Secondary lymphoid organs: lymph nodes and spleen, where lymphocytes become activated
lymphoid organs: organs that contain large number of lymphocytes; can be primary or secondary lymphoid organs
lymphocytes: have two major types: B lymphocytes produce antibodies, T lymphocytes can either regulate the responses of other cells or can kill other cells
primary lymphoid organs: organs where lymphocytes develop and mature; includes red bone marrow and thymus
secondary lymphoid organs: organs in which some lymphocytes become activated; includes lymph nodes and spleen
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11. UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Figure The lymphoid organs. The thymus (a) and red bone marrow (b) are the primary lymphoid organs. Blood cells, including lymphocytes, are produced in red bone marrow. B cells mature in the bone marrow. T cells mature in the thymus. The lymph nodes (c) and the spleen (d) are secondary lymphoid organs. Lymph is cleansed in the nodes, and blood is cleansed in the spleen.
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12. Primary Lymphoid Organs
UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Primary Lymphoid Organs
Red bone marrow
Contains a network of connective tissue fibres, along with stem cells that can divide and produce blood cells
Lymphocytes begin development in the bone marrow
B lymphocytes (B cells) begin in bone marrow and then migrate to secondary lymphoid organs to mature
T lymphocytes (T cells) begin in bone marrow and then migrate to the thymus, where they mature and differentiate
red bone marrow: a primary lymphoid organ where lymphocytes begin their development; contains a network of connective tissue fibres, along with stem cells that are able to divide and produce blood cells
B cells: lymphocytes that remain in bone marrow until mature; also called B lymphocytes
T cells: lymphocytes that migrate from bone marrow to the thymus where they mature and differentiate
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13. Primary Lymphoid Organs
UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Primary Lymphoid Organs
Thymus
Connective tissue divides the thymus into lobules, which are filled with T cells and supporting cells
Lobules are lined with epithelial cells that secrete hormones called thymosins, which are involved in the differentiation of T cells
T cells that react to the body’s own cells undergo apoptosis (programmed cell death)
T cells that leave the thymus can react to foreign molecules
thymus: a primary lymphoid organ that secretes the hormone thymosins, which aids in the differentiation of T cells
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14. Secondary Lymphoid Organs
UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Secondary Lymphoid Organs
Spleen
Consists of blood vessels and sinuses where macrophages remove old and defective blood cells
Also contains small areas of lymphoid tissue, where lymphocytes can react to foreign invaders in the blood
May be surgically removed due to trauma or disease, however the body becomes more susceptible to certain types of infections
spleen: a secondary lymphoid organ that removes old and defective blood cells, as well as reacts to foreign invaders
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15. Secondary Lymphoid Organs
UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Secondary Lymphoid Organs
Lymph nodes
Occur along lymphatic vessels
Connective tissue divides nodes into nodules, each of which contain B cells, T cells, and a sinus
As lymph passes through the sinuses, macrophages engulf pathogens in the lymph
Cancer cells can enter the lymph nodes and lymphatic vessels and move through to other regions of the body, where they produce secondary tumours (metastasis)
lymph nodes: masses of lymphatic tissue located along the course of a lymphatic vessel
pathogens: disease-causing agents such as viruses and bacteria
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16. Check Your Progress UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
Check Your Progress
Summarize the three functions of the lymphatic system.
Describe edema and its causes.
Identify and compare two primary and two secondary lymphoid organs.
ANSWERS
1. Excess tissue fluid moves into the lymph vessels and is returned to the blood stream. Fats from the small intestine move into the lymph vessels and are transported into the blood-stream. White blood cells in the lymph system function in protecting the body from disease.
2. Edema is the accumulation of excess tissue fluid, caused by too much fluid produced (i.e., by a tumour), or not enough drained away (i.e., because of low blood protein content or blockage in a lymphatic vessel).
3. In the red bone marrow and the thymus, which are primary lymphoid organs, lymphocytes develop and mature. In the lymph nodes and the spleen, lymphocytes become activated.
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17. UNIT B
Chapter 10: Circulatory System and Lymphatic System
Section 10.6
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