1. The Human Circulatory System

2. Introduction
Humans and other vertebrates have a closed circulatory system:
This means that circulating blood is pumped through a system of vessels
This system consists of the heart (pump), series of blood vessels and the blood that flows through them.

3. Circulatory System Function
Move circulatory fluid (blood) around body
Gas Transport
Nutrient Transport
Excretory Product Transport
Cell Signal Transport
Distribute secretions of endocrine glands,
Production/Synthesis
Hydraulic Force
Heat Conductance
Immunity

4. The Truth About Your Heart

5. The Heart Located near the center of your chest Hollow structure
Composed almost entirely of muscle
About the size of your clenched fist

6. The Heart
Enclosed in a protective sac called the pericardium

7. The Heart
In the walls of the heart, two layers of tissue form a sandwich around a thick layer of muscle called the myocardium.
Contractions of the myocardium pump blood through the circulatory system.

8. The Heart The heart contracts about 72 times per minute
Pumps about 70mL of blood with each contraction.

9. The Heart
The right and left sides of the heart are separated by a septum, or wall.
The septum prevents the mixing of oxygen rich and oxygen poor blood.

10. The Heart On each side of the septum are two chambers.
The upper chamber (receives blood) is the atrium.
The lower chamber (pumps blood out of heart) is the ventricle.

11. Functional Anatomy of the Heart Chambers
2 Atria
2 Ventricles
2 systems
Pulmonary
Systemic

12. Functional Anatomy of the Heart Cardiac Muscle
Characteristics
Striated
Short branched cells
Uninucleate
Intercalated discs
T-tubules larger and over z-discs

13. The Conduction System of the Heart
Conduction pathways
Depolarization spreads throughout the heart very rapidly facilitating a coordinated contraction pattern
Intercalated disks
Form junctions between adjacent cardiac muscle fibers
Contain a high concentration of gap junctions for rapid transmission of the action potential

14. Pathway of Blood
Deoxygenated blood passes from the right atrium into the right ventricle and then goes to the lungs.
From the lungs, blood moves back toward the heart into the left atrium to the left ventricle and then passes into the aorta to go to the rest of the body

15. Path of Blood Pulmonary Circuit Blood flow between the lungs and heart
Supplied by the Right side of the heart
Systemic Circuit
Blood flow between the rest of the body and heart
Supplied by the Left side of the heart

16. Pulmonary circulation

17. Systemic circulation /greater circulation / peripheral circulation.

19. Valves
As the heart contracts, blood flows into the ventricles and then out through the ventricles.
Flaps of connective tissue, called valves, are located between the atria and ventricles.
Blood moving keeps the valves open.
When the ventricles contract, the valves close which prevent blood from flowing back into the atria.

20. Functional Anatomy of the Heart Valves
Function is to prevent backflow
Atrioventricular Valves
Prevent backflow to the atria
Prolapse is prevented by the chordae tendinae
Tensioned by the papillary muscles
Semilunar Valves
Prevent backflow into ventricles

22. Valves
There are also valves that stop blood from re-entering the ventricles after the blood has left.
This system of valves keeps blood moving in one direction which increases the pumping efficiency of the heart.

23. Heart Beat Heart muscles are composed of individual fibers
Each atrium and ventricle contracts as a unit.
Each contraction begins with a group of cardiac muscle cells in the right atrium known as the sinoatrial node (SA node)

24. Heart Beat
Because the SA node paces the heart it is known as the pacemaker.
The impulse spreads from the pacemaker to the rest of the atria.
From the atria, a signal is sent to the atrioventricular node and then to a bundle of fibers in the ventricle.
When the ventricle contracts, blood flows out.

25. Blood Vessels
As blood moves through the circulatory system it moves through 3 types of blood vessels:
Arteries
Capillaries
Veins

26. Physiological- anatomy Structure of Blood Vessel Walls
except the smallest consist of three layers:
1.Tunica intima reduces friction between the vessel walls and blood;
2. Tunica media controls vasoconstriction and vasodilation of the vessel;
3. Tunica externa protects, reinforces, and anchors the vessel to surrounding structures

27. Arteries Large vessels Carry blood from heart to tissues of body
Carry oxygen rich blood, with the exception of pulmonary arteries.
Thick walls-need to withstand pressure produced when heart pushes blood into them.

28. Capillaries Smallest blood vessels
Walls are only one cell thick and very narrow.
Important for bringing nutrients and oxygen to tissues and absorbing CO2 and other waste products.

29. Veins
Once blood has passed through the capillary systems it must be returned to the heart.
Done by veins
Walls contains connective tissue and smooth muscle.
Largest veins contain one way valves that keep blood flowing toward heart.
Many found near skeletal muscles. When muscles contract, blood is forced through veins.

30. Blood Pressure The heart produces pressure
The force of blood on the wall of the arteries is known as blood pressure.
Blood pressure decreases as the heart relaxes, but the rest of the circulatory system is still under pressure.

31. Blood Pressure
When blood pressure is taken, the cuff is wrapped around the upper portion of the arm and pumped with air until blood flow in the artery is blocked.
As the pressure in the cuff is relaxed, 2 numbers are recorded.
Systolic pressure- the first number taken, is the force felt in the arteries when the ventricles contract.
Diastolic pressure- the second number taken, is the force of the blood on the arteries when the ventricles relax.

32. Disorders of Circulatory System
Atherosclerosis
Fatty deposits (plaque) in walls of arteries
Deposits can obstruct flow of blood which can raise blood pressure
Increases risk of blood clots
If clot breaks free it can obstruct blood flow to tissues.

33. Disorders of Circulatory System
Heart Attack
Due to atherosclerosis, coronary arteries may become blocked (blood can’t get to heart muscle)
Heart muscle begins to die due to lack of O2

34. Disorders of Circulatory System
Stroke
Blood clot may break free and block a vessel leading to the brain.
Brain cells are starved of oxygen and nutrients
Loss of function may occur
Can cause paralysis, loss of ability to speak or death.