The Circulatory System Veterinary Medical Applications c 6 A
Anatomy of the Circulatory System Heart Veins Capillaries Arteries Lymph vessels Lymph glands
Anatomy of the Circulatory System Each of its components work together to supply the body tissues with nutrients and to collect waste.
Functions Distribute nutrients Transport and exchange oxygen an CO2 Remove waste Distribute secretions of the endocrine glands Prevent infection Assist in the regulation of body temperature
The Heart Hollow, muscular organ that pumps blood to all parts of the body Located in the thoracic cavity Contained in a pericardial sac
The Heart The pointed end, called the apex, is directed toward the abdomen
The Heart The Heart wall has three layers – Epicardium – Endocardium – Myocardium
The Heart Mammals and birds have a 4 chambered heart that contains: – Right atrium – Left atrium – Right ventricle – Left ventricle The two sides are separated by a ventricular septum
The Heart The atrioventricular valves (AV) separate the atrium and ventricle on each side They have flaps of tissue called cusps which open and close to allow blood to flow in only one direction, preventing backflow Right AV is called tricuspid Left AV is called bicuspid
The Heart Pulmonary Valve and aortic valve prevent blood from flowing back into the ventricles
The Heart AV Valves Pulmonary and Aortic Valves
Sinoatrial Node Controls the beat of the heart Sends electrical signals to make the heart pump
Vascular System Made up of 3 types of Blood Vessels: – Arteries – Capillaries – Veins
Vascular System Arteries – Blood vessels that carry oxygen rich blood from the heart to the body – Thick walls enable them to withstand the pressure of the beating heart – They branch out into arterioles – Arterioles branch into small vessels called capillaries
Vascular System Capillaries – Tiny, thin walled vessels that connect arteries to veins – Located in all bodily tissues – Allow nutrients, oxygen, and water to diffuse to the tissues – Waste products, like CO2, diffuse from the tissues into the blood
Vascular System Veins – Blood vessels that return blood to the heart from all parts of the body – Capillaries come together to create small veins called venules – Venules join together to form larger veins – For every artery, there is a larger vein counterpart
Vascular System Veins – Have valves that aid in the prevention of backflow – Assist in the return flower of blood to the heard with pressure is low
Circulation Two Types – Pulmonary – Systemic
Pulmonary Circulation Takes the blood from the heart to the lungs to get oxygen Oxygenated blood returns to the heart
Systemic Circulation The flow of oxygenated blood from the heart to all of the tissues of he body And the return of the un-oxygenated blood back to the heart
Circulation
Using your textbook or computer, trace both the systemic and pulmonary circulation of blood
Blood Blood is connective tissue 50-65% Plasma 35-50% Non-Plasma (cellular)
Blood Plasma – Straw colored liquid containing 90% water and 10% solids (salts, antibodies, hormones, vitamins, glucose, proteins)
Blood Non-Plasma – Cellular portion of the blood is made up of: White blood cells Red blood cells Platelets
Blood Red Blood Cells (Erythrocytes) – Carry oxygen from the lungs to various organs – Contain hemoglobin which provides for the red color – Biconcave shape provides for oxygen exchange – Produced in the marrow
Blood White Blood Cells (leukocytes) – Two types Granulocytes – Neutrophils- produced by marrow, fight infection – Eosinophils-combat infection by parasites and allergens, contain histamines – Basophils- rarest of the granulocytes, responsible for inflammation Agranulocytes- produced by lymph nodes, spleen, thymus, and other lymph tissues – Lymphocytes-produce and release antibodies – Monocytes- absorb diseases like bacteria through phagocytosis
Blood Platelets – Also called thrombocytes – Formed in the bone marrow – Help prevent blood loss by forming clots
Blood