1. Circulatory System Biology 11

2. Video PBS: Mysterious Human Heart

3. Open vs. Closed Open Circulatory System: Blood is not contained in vessels, bathes tissues and organs directly. Example: Arthropods and most mollusks Closed Circulatory System: Blood is contained in vessels. Example: Vertebrates and earthworms

4. Human Circulatory System 3 main parts: Heart Blood Vessels

5. Function of Circulatory System The circulatory system transports oxygen and carbon dioxide, nutrients, wastes and hormones throughout the body.

6. Blood Normally, 7-8% of human body weight is from blood. This essential fluid carries out the critical functions of transporting oxygen and nutrients to our cells and getting rid of carbon dioxide and other waste products. In addition, it plays a vital role in our immune system and in maintaining a relatively constant body temperature.

7. Whole Blood Sample Sample Placed in Centrifuge Plasma Platelets White blood cells Red blood cell Blood Sample That Has Been Centrifuged Blood Composition

8. Components of Blood 4 Main components: Red blood cells White blood cells Platelets Plasma

9. Red Blood Cells Red blood cells, or erythrocytes, are relatively large microscopic cells without nuclei. They transport oxygen from the lungs to all of the living tissues of the body and carry away carbon dioxide. Hemoglobin is the gas transporting protein molecule that makes up 95% of a red cell. *FYI: Each red cell has about 270,000,000 iron-rich hemoglobin molecules.

10. White Blood Cells White blood cells, or leukocytes, exist in variable numbers and types but make up a very small part of blood's volume-normally only about 1%. White cells are a major part of the immune system. They also have the function of getting rid of invaders (such as viruses and bacteria), old unneeded blood cells as well as foreign matter such as dust and asbestos.

11. Platelets Platelets, or thrombocytes, are cell fragments that clot blood at the site of wounds.

12. Plasma Plasma is the relatively clear liquid protein and salt solution which carries the red cells, white cells, and platelets. About 95% of plasma consists of water.

13. Blood Type

14. Q: What causes a bruised bone? A: Two types… Sub-periosteal Hematoma: Collection of blood located underneath the protective membranous layer on bones called the periosteum. Tends to occur as a result of direct force trauma against a bone, usually in a leg. Inter-osseus: Occurs from compressive forces being applied to a bone that cause internal injury to the bone marrow. Professional athletes, such as football and basketball players as well as runners, are at higher risk for these injuries.

15. Anatomy of the Human Heart PBS: Nova interactive

16. The Heart Large vein that brings oxygen-poor blood from the upper part of the body to the right atrium Right Atrium Superior Vena Cava:

17. The Heart Bring oxygen-rich blood from each of the lungs to the left atrium Left Atrium Pulmonary Veins:

18. The Heart Prevents blood from flowing back into the right ventricle after it has entered the pulmonary artery. Right Atrium Pulmonary Arteries Pulmonary Valve:

19. The Heart Prevents blood from flowing back into the right atrium after it has entered the right ventricle Right Atrium Tricuspid Valve:

20. The Heart Vein that brings oxygen-poor blood from the lower part of the body to the right atrium. Right Atrium Inferior Vena Cava:

21. The Heart Mitral Valve: Prevents blood from flowing back into the left atrium after it has entered the left ventricle Left Atrium Left Ventricle

22. The Heart Aortic Valve: Prevents blood from flowing back into the left ventricle after it has entered the aorta Left Atrium Left Ventricle Aorta

23. The Heart Bring oxygen- poor blood to the right or left lung Pulmonary Arteries:

24. The Heart Brings oxygen-rich blood from the left ventricle to the body Aorta:

25. Septum The septum divides the right side of the heart from the left. It prevents the mixing of oxygen-poor and oxygen-rich blood.

26. Blood Flow Pulmonary Circulation: Circulates blood between the heart and the lungs. In the lungs, carbon dioxide leaves the blood and oxygen is absorbed. The oxygen-rich blood returns to the heart.

27. Blood Flow Systemic Circulation: Circulates blood between the heart and the rest of the body. After returning from the lungs, the oxygen-rich blood is pumped to the rest of the body.

29. 3 Types of Blood Vessels Arteries: Carry blood away from the heart Veins: Return blood back to the heart Capillaries: Tiny blood vessels that allow for gas exchange and diffusion.

30. Q: How / why does nitroglycerine work? A: It dilates blood vessels, therefore decreasing blood pressure during an angina attack (chest pain).

31. Blood flow…

32. The “rules” Left side of heart  oxygen rich blood Right side of heart  oxygen poor blood Atria receive blood Ventricles pump blood Arteries flow away from heart Veins flow towards heart Pulmonary = lungs

33. Trace a RBC… Right atrium  right ventricle  pulmonary arteries  arterioles  capillary bed (in lung)  venule  pulmonary veins  left atrium  left ventricle  aorta  arterioles  capillary bed (body / organs)  venule  inferior or superior vena cava  right atrium…

34. Exam Prep Study Skills

35. Textbook Review Read Pages 242-258 Questions 1-2 page 243 Questions 1-8 page 246 Questions 1-4 page 253 Question 1-2 page 258

36. What is this??? Crane video

37. PBS: Nova Science Now Growing Hearts?