Post on 07-Jun-2020
CIRCULATORY SYSTEM
Jhia Anjela D. Rivera1
1BS Biology Graduate, Department of Biology, College of Science, Polytechnic University of the Philippines
CIRCULATORY SYSTEM
•Composed of CARDIOVASCULARand LYMPHATIC SYSTEM
CIRCULATORY SYSTEM
•Comprised of the heart, veins,capillaries, arteries, lymph vessels,and lymph glands, which worktogether to supply the bodytissues with nourishment andcollect waste materials
FUNCTIONS OF THE CIRCULATORY SYSTEM•Distribute nutrients• Transport and exchange oxygen andcarbon dioxide,•Remove waste materials•Distribute secretions of endocrine glands•Prevent excessive bleeding•Prevent infection•Regulate body temperature
CARDIOVASCULAR SYSTEM
•The Heart•Blood Vessels•Blood
CARDIOVASCULAR SYSTEM FUNCTIONS•Regulates blood supply•Generates blood pressure•Routes blood•Ensures 1 way blood flow
BLOOD
•Connective tissue•Sticky•Heavier than water•Temperature slightly higher thanrest of body•Males (5-6 L), females (4-5 L)
BLOOD
•Connective tissue•Sticky•Heavier than water•Temperature slightly higher thanrest of body•Males (5-6 L), females (4-5 L)
FUNCTIONS OF BLOOD
• Transport of gases, nutrients and wasteproducts• Transport of processed molecules• Transport of regulatory molecules•Regulation of pH and osmosis•Maintenance of body temperature•Protection against foreign substances•Clot formation
FUNCTIONS OF BLOOD
• Transport of gases, nutrients and wasteproducts• Transport of processed molecules• Transport of regulatory molecules•Regulation of pH and osmosis•Maintenance of body temperature•Protection against foreign substances•Clot formation
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Percentage by
body weight
Percentage by
volume
Plasma
(percentage by weight) Albumins
58%
Globulins
38%
Fibrinogen
4%
Ions
Nutrients
Waste products
Gases
Regulatory
substances
White blood cells
Neutrophils
60%–70%
Lymphocytes
20%–25%
Monocytes
3%–8%
Eosinophils
2%–4%
Basophils
0.5%–1%
Red blood cells
4.2–6.2million
Formed
elements
45%
Buffy
coat
Plasma
55%
Proteins 7%
Water
91%
Other solutes 2%
Formed elements
(number per cubic mm)
Platelets
250–400 thousand
White blood cells
5–10 thousand
(left): © liquidlibrary/PictureQuest RF
COMPOSITION OF BLOOD
•Plasma:• 55% of total blood•pale, yellow liquid that surrounds cells• 91% water, 7% proteins, and 2% other
•Formed Elements:• 45% of total blood•cells and cell fragments•erythrocytes, leukocytes, thrombocytes
COMPOSITION OF PLASMA
•Albumin:• 58% of plasma proteins•helps maintain water balance
•Globulins:• 38% of plasma proteins•helps immune system
•Fibrinogen:• 4% of plasma proteins•aids in clot formation
CHARACTERISTICS OF RBC
• Shape: biconcave disc• Size: 7.5 µm in diameter• 2 µm at thickest point• 1 µm in the center• Ideal volume – surface ratio
• Easy diffusion of gases• Provides deformability (passage through capillaries ofblood vessels)
ERYTHROCYTES
•Red blood cells (RBC)•Disk-shaped with thick edges•Nucleus is lost during development•Live for 120 days•Function:• Transport O2 to tissues
LEUKOCYTES (WBC)
•White blood cells (WBC)•Lack hemoglobin•Larger than erythrocytes•Contain a nucleus•Functions:
- fight infections- remove dead cells and debris by
phagocytosis
TYPES OF LEUKOCYTES
•Granulocytes-contain granules
1. Neutrophils:- most common - remain in blood for 10-12 hours
then move to tissues phagocytes
TYPES OF LEUKOCYTES
2. Eosinophils:- reduce inflammation
3. Basophils:- least common- release histamine and heparin
TYPES OF LEUKOCYTESAgranulocytes
- no granules1. Monocytes :
- largest - produce macrophages
2. Lymphocytes:- immune response- several different types (T cells and B cells)- lead to production of antibodies
TYPES OF LEUKOCYTES
PLATELETS
- blood clotting cells- produced in red bone
marrow
HEARTCopyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Carotid artery
Jugular vein
Aorta
Pulmonary trunk
Heart
Brachial artery
Inferior
vena cava
Femoral
artery
and vein
HEART CHARACTERISTICS
Size:size of a fist and weighs less than
1 lb.Location:
between lungs in thoracic cavityOrientation:
apex (bottom) towards left side
Larynx
Trachea
Superior vena cava
Right lung
Right atrium
Right ventricle
RibVisceral pleuraPleural cavityParietal pleura
Diaphragm
Aortic arch
Pulmonary trunk
Midclavicular
line2nd intercostal
spaceSternum
Apex of heart5th intercostal
space(b)
Anterior view(a)
Left atriumLeft lung
Left ventricle
Apex of heart
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
HEART COVERINGS• Pericardium:
double-layered sac that anchors and protects heart
• Parietal pericardium:membrane around heart’s cavity
• Visceral pericardium:membrane on heart’s surface
• Pericardial cavity:space around heart
HEART LAYERS• Epicardium:surface of heart (outside)
• Myocardium:thick, middle layer composed of cardiac muscle
• Endocardium:smooth, inner surface
CHAMBERS AND BLOOD VESSELS
4 Chambers:- left atrium (LA)- right atrium (RA)- left ventricle (LV)- right ventricle (RV)
Coronary sulcus:separates atria from ventricles
ATRIA
•Upper portion •Holding chambers •Small, thin walled •Contract minimally to push blood into ventricles• Interatrial septum:
separates right and left atria
VENTRICLES
•Lower portion •Pumping chambers•Thick, strong walled •Contract forcefully to propel blood out of heart •Interventricular septum:• separates right and left ventricles
THE HEART
VALVES
• structures that ensure 1 way blood flow
•Atrioventricular valves (AV):-between atria and ventricles
• Tricuspid valve:- AV valve between RA and RV- 3 cusps
VALVES
•Bicuspid valve (mitral):- AV valve between LA and LV- 2 cusps
•Chordae tendineae:- attached to AV valve flaps - support valves
VALVES
•Semilunar valves:- Pulmonary: base of
pulmonary trunk
- Aortic: base of aorta
VALVES
RIGHT SIDE OF THE HEART
•Pulmonary circuit:- carries blood from heart to
lungs- blood is O2 poor, CO2 rich
RIGHT SIDE OF THE HEART• Right Atrium:• - receives blood from 3 places: superior and• inferior vena cava and coronary sinus• - Superior vena cava:• drains blood above diaphragm (head, neck, thorax,• upper limbs)• - Inferior vena cava:• drains blood below diaphragm (abdominopelvic• cavity and lower limbs)• - coronary sinus:• drains blood from myocardium
RIGHT SIDE OF THE HEART•Right Ventricle:
- opens into pulmonary trunk
- Pulmonary trunk:- splits into right and left pulmonary arteries
- Pulmonary arteries:- carry blood away from heart to lungs
LEFT SIDE OF THE HEART
•Systemic circuit:- carries blood from heart to
body- blood is O2 rich, CO2 poor
LEFT SIDE OF THE HEART• Left Atrium:• 4 openings (pulmonary veins) that receive blood from
lungs
• Left Ventricle: - opens into aorta- thicker, contracts more forcefully, higher blood pressure
than right ventricle has to get to body
• Aorta:- carries blood from LV to body
THE HEART
THE HEART
THE HEART
BLOOD FLOW
BLOOD VESSELS
Functions•1. Carry blood•2. Exchange nutrients, waste products, gases within tissues•3. Transport substances•4. Regulate blood pressure•5. Direct blood flow to tissues
VESSEL STRUCTURESArterties:
- carry blood away from heart- thick with a lot of elastic
Veins:- carry blood toward heart- think with less elastic
Capillaries:exchange occurs between blood and tissue
fluids
BLOOD FLOWBlood flows from arteries into arterioles
Arterioles into capillaries
Capillaries into venules
Venules to small veins
Veins return to heart
TYPES OF ARTERIESElastic arteries:
- largest in diameter- thickest walls- Ex. Aorta and pulmonary trunk
Muscular arteries:- medium to small size- thick in diameter- contain smooth muscle cells- can control blood flow to body regions
TYPES OF ARTERIES
CAPILLARIES
•Blood flows from arterioles into capillaries
•Capillaries branch to form networks
•Blood flow is regulated by smooth muscle cells, precapillary sphincters
CAPILLARIES
TYPE OF VEINS• Blood flows from capillaries into venules
• Blood flows from venules into small veins
• All 3 tunics are present in small veins
• Medium sized veins: collect blood from small veins and deliver to large veins
• Large veins:• contain valves
VEINS
BLOOD VESSELS OF PULMONARY CIRCULATION• Pulmonary circulation:
- blood vessels that carry blood from right ventricle to lungs and back from left atrium of heart• Pulmonary trunk:
- blood pump from right ventricle towards lung• Pulmonary veins:
-exit lungs and carry O2 rich blood to left atrium
BLOOD FLOW THROUGH THE CIRCULATORY SYSTEM
PARTS OF AORTA• Ascending:
- passes superiorly from left ventricle
• Aortic Arch:- 3 major arteries which carry blood to head
and upper limbs
• Descending:- extends through thorax and abdomen to
pelvis
PARTS OF AORTA
• Thoracic:- part of descending aorta that extends
through thorax to diaphragm
•Abdominal:- descending aorta that extends from
diaphragm where it divides at common iliac arteries
PARTS OF AORTA
ARTERIES OF HEAD AND NECK• Branches of aortic arch:
- brachiocephalic artery- left common carotid artery- left subclavian
• Brachiocephalic artery:- first branch off aortic arch- supplies blood to right side of head and
neck
ARTERIES OF HEAD AND NECK
• Left common carotid artery:- 2nd branch off aortic arch- supplies blood to the left side of head andneck
• Left subclavian artery:- 3rd branch off aortic arch- supplies blood to left upper limbs
ARTERIES OF HEAD AND NECK
• Right common carotid artery:- branches off brachiocephalic artery- supplies blood to right side of head andneck
• Right subclavian artery:- branches off brachiocephalic artery- supplies blood to right upper limbs
ARTERIES OF HEAD AND NECK
ARTERIES OF THE UPPER LIMBS
•Axillary arteries:- continuation of subclavian- supply blood deep in clavicle
• Brachial arteries:- continuation of axillary- where blood pressure measurements aretaken
ARTERIES OF THE UPPER LIMBS
•Ulnar arteries:- branch of brachial artery- near elbow
• Radial arteries:- branch of brachial artery- supply blood to forearm and hand- pulse taken here
ARTERIES OF HEAD AND NECK
ARTERIES OF ABDOMINAL AORTA
•Celiac trunk arteries:- supply blood to stomach, pancreas,
spleen, liver, upper duodenum• Superior mesenteric arteries:
- supply blood to small intestines and upper portion of colon• Inferior mesenteric arteries:
- supply blood to colon
ARTERIES OF ABDOMINAL AORTA• Renal arteries:
- supply blood to kidneys
• Hepatic arteries:- supply blood to liver
• Testicular arteries:- supply blood to testes
• Ovarian arteries:- supply blood to ovaries
ARTERIES OF ABDOMINAL AORTA
• Inferior phrenic arteries:- supply blood to diaphragm
• Lumbar arteries:- supply blood to lumbar vertebra and
back muscles
ARTERIES OF ABDOMINAL AORTA
ARTERIES OF PELVIS•Common iliac arteries:
- branches from abdominal aorta- divides into internal iliac arteries
• External iliac arteries:- division of common iliac artery- supply blood to lower limbs
• Internal iliac arteries:- division of common iliac- supply blood to pelvic area
ARTERIES OF LOWER LIMBS
• Femoral arteries:- supply to thigh
• Popliteal arteries :- supply blood to knee
•Anterior and posterior arteries:- supply blood to leg and foot
• Fibular arteries:- supply blood to lateral leg and foot
ARTERIES OF LOWER LIMBS
MAJOR ARTERIES
VEINS
• Superior vena cava:- returns blood from head, neck, thorax, and
right upper limbs- empties into right atrium of heart
• Inferior vena cava:- returns blood from abdomen, pelvis, lower
limbs- empties into right atrium of heart
VEINS OF HEAD AND NECK
•External jugular vein:- drain blood from head and neck - empties into subclavian veins
• Internal jugular vein:- drain blood from brain, face, neck- empty into subclavian veins
VEINS OF HEAD AND NECK
• Subclavian veins:- forms brachiocephalic veins
•Brachiocephalic veins:- join to form superior vena cava
VEINS OF THE HEAD AND NECK
VEINS OF UPPER LIMBS• Brachial veins:
- empty into axillary vein
•Cephalic veins:- empty into axillary vein and basilic vein
•Median cubital veins:- connects to cephalic vein - near elbow
VEINS OF THE UPPER LIMB
VEINS OF THORAX• Right and left brachiocephalic veins:
- drain blood from thorax into superior vena cava
• Azygos veins:- drain blood from thorax into superior vena
cava
• Internal thoracic veins:- empty into brachiocephalic veins
VEINS OF THORAX
•Posterior intercostal veins:- drain blood from posterior thoracic wall- drains into azygos vein on right side
•Hemiazygos vein:- receives blood from azygos vein of left
side
VEINS OF THE UPPER LIMB
VEINS OF ABDOMEN AND PELVIS
•Common iliac vein:- formed from external and internal iliacs- empty into inferior vena cava
•External iliac vein:- drains blood from lower limbs- empty into common iliac vein
VEINS OF ABDOMEN AND PELVIS
• Internal iliac vein:- drains blood from pelvic region- empties into common iliac vein
•Renal vein:- drains blood from kidneys
HEPATIC PORTAL SYSTEM
• Liver is a major processing center for substances absorbed by intestinal tract.•Portal system:
- vascular system that begins with capillaries in viscera and ends with capillaries in liver
- uses splenic vein and superior mesenteric vein
VEINS OF THE HEPATIC PORTAL SYSTEM
VEINS OF THE LOWER LIMBS
• Femoral veins:- drain blood from thigh and empty into
external iliac vein•Great saphenous veins:
- drain from foot and empty into femoral vein• Popliteal veins:
- drain blood from knee and empty into femoral vein
VEINS OF THE LOWER LIMBS
VEINS OF THE LOWER LIMBS
LYMPHATIC SYSTEMS
• includes lymph, lymphatic vessels, lymphatic tissue, lymphatic nodules, lymph nodes, tonsils, the spleen, and the thymus•body’s defense systems against threats arising from inside and outside the body
FUNCTIONS OF THE LYMPHATIC SYSTEMS1. Fluid balance
2. Fat Absorption
3. Defense
LYMPHATIC SYSTEM
COMPONENTS OF THE LYMPHATIC SYSTEMS• Lymph - fluid that enters lymphatic capillaries composed of water and some solutes
• Lymphocytes• Lymphatic vessels• Lymph nodes• Tonsils• Spleen• Thymus gland
LYMPHATIC CAPILLARIES AND VESSELS•Carries fluid in one direction from tissues to circulatory system
• Fluid moves from blood capillaries into tissue spaces
• Lymphatic capillaries: - tiny, closed-ended vessels - fluid moves easily into - in most tissues- join to form lymphatic vessels
LYMPHATIC CAPILLARIES AND VESSELS
• Lymphatic vessels:- resemble small veins- where lymphatic capillaries join- one way valves
• Right lymphatic duct:- where lymphatic vessels from right upperlimb and right head, neck, chest empty- empties into right subclavian vein
LYMPHATIC CAPILLARIES AND VESSELS
• Thoracic duct:- rest of body empties from lymphatic vessels- empties into left subclavian vein
LYMPHATIC SYSTEM
LYMPHATIC ORGANS• Tonsils:
- palatine tonsils on each side of oral cavity- pharyngeal tonsils near internal openingof nasal cavity (adenoid)- lingual tonsils posterior surface of tongue- form a protective ring of lymphatic tissue around nasal and oral cavities
TONSILS
LYMPH NODES• Lymph nodes:
- rounded structures that vary in size- located near lymphatic vessels- groin, armpit, neck- lymph passes through lymph nodes before
entering blood- lymph moves through and immune system
is activated (lymphocytes produced) ifforeign substances are detected- removal of microbes by macrophages
LYMPH NODES
SPLEEN• Spleen:
- size of clenched fist- located in abdomen- filters blood - detect and respond to foreign substances- destroy old red blood cells- blood reservoir- white pulp: lymphatic tissue surrounding
arteries- red pulp: contains macrophages and red
blood cells that connect to veins
SPLEEN
THYMUS GLAND
• Thymus gland:- bilobed gland- located in mediastinum behind the
sternum- stops growing at age 1- at age 60 decreases in size- produces and matures lymphocytes