Week 5 - Cardiovascular System PDF

Summary

This document provides an overview of the cardiovascular system, detailing its components (blood, blood vessels, and heart) and their functions. It covers topics such as blood components, blood functions, blood characteristics, and the heart's structure and function.

Full Transcript

Week 5

Human Anatomy & Physiology - 1 (HMG380)

CARDIOVASCULAR SYSTEM

Dr. Merin Thomas
[email protected]
Office hours : Monday & Wednesday, 3:00pm to 5:00pm
Tuesday & Thursday 1:00pm to 3:00pm
 Learning Objectives

BLOOD
BLOOD VESSELS
HEART
 OVERVIEW OF THE CARDIOVASCULAR SYSTEM
The cardiovascular system consists of three interrelated components
1. Blood
2. Blood vessels
3. Heart
 Levels of Structural Organization - LEVEL 3 - TISSUE LEVEL

Epithelial Tissue Connective Tissue Muscular Tissue Nervous Tissue
Covers body surfaces, Contracts to make body
lines hollow organs & Connects, supports, and protects Carries information
parts move & in the from one part of the
cavities, and forms body organs while distributing
process generates heat body to another
glands. blood vessels to other
Loose tissues
Connective
Smooth Muscle through nerve
Based on shape of Tissue
impulses
the cell 2 types of cells

Dense Connective
Tissue Skeletal Muscle

Based on number Cardiac Muscle

of layers of cells Special Connective
Tissue
Three parts:
CNS, PNS, ANS
 CARDIOVASCULAR SYSTEM - BLOOD

Blood is a liquid connective tissue that consists of cells surrounded
by a liquid extracellular matrix.

The extracellular matrix is called blood plasma, and it suspends
various cells and cell fragments.
 CARDIOVASCULAR SYSTEM - BLOOD - FUNCTIONS

1. Transports oxygen, carbon dioxide, nutrients, hormones, heat, and
wastes.

2. Regulates pH, body temperature, and water content of cells.

3. Protects against blood loss through clotting, and against disease
through phagocytic white blood cells and proteins such as antibodies,
interferons, and complement.
 BLOOD - PHYSICAL CHARACTERISTICS

Blood is denser and more viscous than water.

The temperature of blood is 38°C, about 1°C higher than oral or rectal
body temperature

Slightly alkaline pH ranging from 7.35 to 7.45 (average = 7.4).

The color of blood varies with its oxygen content.

Blood constitutes about 20% of extracellular fluid, amounting to 8% of
the total body mass.

The blood volume is 5 to 6 liters in an average-sized adult male and 4 to
5 liters in an average-sized adult female.
 CARDIOVASCULAR SYSTEM - BLOOD - COMPONENTS

WHOLE BLOOD BLOOD PLASMA PROTEINS
ALBUMINS 54 %
BLOOD 8% PLASMA 7%
GLOBULINS 38%
55%
FIBRINOGEN 7%
ALL OTHERS 1%

WATER 91.5%

- ELECTROLYTES
- NUTRIENTS
- GASES
- REGULATORY SUBSTANCES
OTHER OTHER SOLUTES 1.5% - WASTE PRODUCTS

FLUIDS &
TISSUES PLATELETS
92% FORMED 1,50,000-4,00,000
ELEMENTS NEUTROPHILS 60-70%
45%
WHITE BLOOD CELLS 5,000- LYMPHOCYTES 20-25%
10,000
MONOCYTES 3-8%

EOSINOPHILS 2-4%

RBCs (44%), BASOPHILS 0.5-1%
WBCs & RED BLOOD CELLS 4.8-
PLATELETS 5.4MILLION
(1%)

BODY WEIGHT VOLUME FORMED ELEMENTS; No/μL
 BLOOD - FORMATION OF BLOOD CELLS
Hemopoiesis (hematopoiesis) is the process that produces the
formed elements of the blood.
Hemopoiesis takes place in the red bone marrow found in the
epiphyses of long bones, flat bones, vertebrae, and the pelvis.
Within the red bone marrow, hemopoietic stem cells
( hemocytoblasts) divide to produce various “blast” cells.
Each of these cells matures and becomes a particular formed
element.
Erythropoiesis: the process of making erythrocytes
Leukopoiesis: the process of making leukocytes
Thrombopoiesis: the process of making platelets
Pluripotent Stem Cells
 BLOOD
CHARACTERISTICS & FUNCTIONS OF FORMED ELEMENTS
 Name CHARACTERISTICS FUNCTIONS

Size: 7-8μm diameter,
Red Blood Cells
Shape: biconcave discs Hemoglobin within RBCs transports
(RBCS) Or
Nuclei: no nuclei, Oxygen and part of CO2 in blood
Erythrocytes
Life - ~120days
White Blood
Life: Most live for a few hours to a few Combat pathogens and other foreign
Cells (WBCS) Or
days. substances that enter body.
Leucocytes
Size: 10-12μm diameter,
Phagocytosis. Destruction of bacteria
Nucleus: has 2-5lobes; granulated
Neutrophils with lysozyme, defensins, and strong
nucleus,
oxidants
Cytoplasm: pale lilac granules

Size: 10–12 μm diameter; Combat effects of histamine in
Eosinophils Nucleus: usually has 2 lobes; allergic reactions, phagocytize
Cytoplasm: large, red-orange granules fill antigen–antibody complexes

Size: 8-10μm diameter Liberate heparin, histamine, and
Nucleus: has 2 lobes, serotonin in allergic reactions that
Basophils
Cytoplasm: large granules, deep blue intensify overall inflammatory
purple response.
 NAME CHARACTERISTICS FUNCTIONS

Mediate immune responses,
Size: Small lymphocytes are 6–9 μm in including antigen–antibody reactions.
B cells develop into plasmocytes,
Lymphocytes (T diameter; large lymphocytes are 10–14
which secrete antibodies.
cells, B cells, and μm in diameter;
T cells attack invading viruses, cancer
natural killer Nucleus: is round or slightly indented;
cells, and transplanted tissue cells.
cells) Cytoplasm: forms rim around nucleus Natural killer cells attack wide variety
that looks sky blue; of infectious microbes and certain
spontaneously arising tumor cells.

Size: 12–20 μm diameter;
Nucleus: is kidney or
Phagocytosis (after transforming into
Monocytes Horseshoe shaped; fixed or wandering macrophages).
Cytoplasm: blue-gray and appears
foamy.
Size: 2–4 μm diameter cell fragments
Life: live for 5–9 days Form platelet plug in hemostasis;
release chemicals that promote
PLATELETS Cytoplasm: contain many vascular spasm and blood clotting.
vesicles
Nucleus: no nucleus.
 BLOOD -
BLOOD GROUPS AND TYPES

The surfaces of erythrocytes contain antigens composed of
glycoproteins and glycolipids called agglutinogens

Based on the presence or absence of various antigens, blood is
categorized into different blood groups.

Within a given blood group, there may be two or more different blood
type.

There are at least 24 blood groups and more than 100 antigens that can be
detected on the surface of red blood cells.

Two major blood groups—ABO and Rh.
 CARDIOVASCULAR SYSTEM - BLOOD -
ABO BLOOD GROUP
The ABO blood group is based on two glycolipid antigens called A and
B.

People whose RBCs display only antigen A have type A blood.
Those who have only antigen B are type B.
Individuals who have both A and B antigens are type AB
Those who have neither antigen A nor B are type O.
Blood plasma usually contains antibodies called agglutinins that react
with the A or B antigens if the two are mixed.

Anti-A antibody, which reacts with antigen A

Anti-B antibody, which reacts with antigen B
RED BLOOD
CELLS

BLOOD
PLASMA

TYPE TYPE TYPE TYPE
BLOOD TYPE
A B AB O
 CARDIOVASCULAR SYSTEM - BLOOD -
ABO BLOOD GROUP - TRANSFUSIONS

A transfusion is the transfer of whole blood or blood components into
the bloodstream.
Most often given to alleviate anemia, to increase blood volume or to
improve immunity.
The normal components of one person’s RBC plasma membrane can
trigger damaging antigen–antibody responses in a transfusion
recipient.
In an incompatible blood transfusion, antibodies in the recipient’s blood
plasma bind to the antigens on the donated RBCs, which causes
agglutination or clumping, of the RBCs.
Hemolysis
 To be completed in class..

BLOOD TYPE

CHARACTERISTIC A B AB O

Agglutinogen (antigen) on RBCs A B BOTH A & B NEITHER A NOR B

Agglutinin (antibody) in blood
NEITHER ANTI-A BOTH ANTI-A AND
plasma ANTI-B ANTI-A
NOR ANTI-B ANTI-B

Compatible donor blood types
(no hemolysis) A,O B,O A,B,AB,O O

Incompatible donor blood
types (hemolysis) B,AB A,AB - A,B,AB
People with type AB blood do not have anti-A or anti-B antibodies in their
blood plasma. They are sometimes called universal recipients because
theoretically they can receive blood from donors of all four blood types

People with type O blood have neither A nor B antigens on their RBCs and
are sometimes called universal donors because theoretically they can
donate blood to all four ABO blood types. Type O persons requiring blood
may receive only type O blood
 CARDIOVASCULAR SYSTEM - BLOOD -
RH BLOOD GROUP
The Rh blood group so named because the antigen was discovered in
the blood of the Rhesus monkey.
+
People whose RBCs have Rh antigens are designated Rh (Rh positive);
−
those who lack Rh antigens are designated Rh (Rh negative).
Normally, blood plasma does not contain anti-Rh antibodies.
If an Rh− person receives an Rh+ blood transfusion, however, the
immune system starts to make anti-Rh antibodies that remain in the
blood.
If a second transfusion of Rh+ blood is given later, the previously
formed anti-Rh antibodies cause agglutination and hemolysis of
the RBCs in the donated blood, and a severe reaction may occur.
CARDIOVASCULAR SYSTEM - BLOOD -
RH BLOOD GROUP
 CARDIOVASCULAR SYSTEM - HEART

Heart is a hollow, somewhat conical, muscular organ
Situated in the middle mediastinum, between the two lungs, posterior to
the sternum and anterior to the vertebral column.
 CARDIOVASCULAR SYSTEM - HEART

Covered by Pericardium : Membrane
covering the heart.

Made up of two layers

Pericardial cavity; capillary layer of
pericardial fluid
 CARDIOVASCULAR SYSTEM - HEART

Layers of the Heart - 3 layers

Epicardium

Myocardium

Endocardium
 CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART

Consists of FOUR chambers
Two are RECEIVING chambers
Right Atrium & Left Atrium

Two are PUMPING chambers

Right Ventricle & Left Ventricle

29
 CHAMBERS OF THE HEART

11. Right Atrium 12. Left Atrium

13. Right Ventricle 14. Left Ventricle

30
CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART

Right Atrium

Receives deoxygenated blood (Venous blood) from whole body
through large veins – Superior Vena Cava (SVC) Inferior Vena
Cava (IVC)

Right Ventricle
Deoxygenated blood (venous blood) from right atrium enters
through an opening guarded by the tricuspid valve and pumps it to
the lungs via the pulmonary trunk

31
 CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART

Left Atrium
Receives oxygenated blood from the lungs via the pulmonary veins

Left Ventricle
Oxygenated blood from left atrium enters through an opening
guarded by the bicuspid valve and it pumps it to the rest of the body
via the aorta

32
33
 CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART - INTERIOR
Right Atrium: Openings of SVC, IVC,
Cornary Sinus;
Tricuspid Valve
Right Ventricle: Opening of pulmonary
trunk; guarded by pulmonary valve.
Valve complex
Left Atrium: Opening of pulmonary
veins
Bicuspid Valve
Left Ventricle: Wall much thicker than
right ventricle; Valve complex ; Opening
of aorta, guarded by aortic valve 34
CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART - INTERIOR

ARCH OF AORTA

SVC
PULMONARY
TRUNK

LEFT
PULMONARY
ATRIUM
VALVE
RIGHT AORTIC
ATRIUM VALVE BICUSPID
VALVE

TRICUSPID
VALVE
LEFT
VENTRICLE
RIGHT
VENTRICLE

IVC

35
 CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART - VALVES
Tricuspid valve

36
 CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART
Tricuspid valve

37
 CARDIOVASCULAR SYSTEM - HEART - CHAMBERS OF
THE HEART
Bicuspid valve/ Mitral Valve

38
CHAMBERS OF THE HEART - Valves

39
CARDIOVASCULAR SYSTEM - HEART - EXTERNAL
FEATURES OF THE HEART

Grooves separating chambers
Crux
LEFT
ATRIUM
Interatrial groove

RIGHT
ATRIUM RIGHT
VENTRICLE
LEFT
VENTRICLE

Atrioventricular
groove

CRUX

Posterior interventricular
groove 40
 CVS- HEART - EXTERNAL FEATURES OF THE HEART
Within the grooves are present the blood vessels that supply the heart
Heart gets its main blood supply from the right and left coronary artery
and their branches
Right coronary, originates in the arch of aorta and is in the right
atrioventricular groove
Left coronary, originates in the arch of aorta and its largest branch Left
anterior descending artery; Br. Of left coronary – anterior
interventricular groove
Posterior descending artery; Br. Of right coronary – posterior
interventricular groove
Coronary Sinus – Posterior atrioventricular groove
ARTERIES AND VEINS WITHIN THE GROOVES 42
 CARDIOVASCULAR SYSTEM - HEART - Great Vessels of
the heart

The great vessels of the heart are several vessels associated directly
with the heart.
These are the
ascending aorta,
the pulmonary trunk,
the pulmonary veins,
the superior vena cava,
and the inferior vena cava

The branches from the arch of aorta supply the upper limb, head &
neck
CARDIOVASCULAR SYSTEM - HEART - CONDUCTING
SYSTEM OF THE HEART

Bundle of His

46
Purkinje Fibers
 CARDIOVASCULAR SYSTEM - HEART -
ELECTROCARDIOGRAM - ECG

As action potentials propagate through the heart, they generate electrical
currents that can be detected at the surface of the body.

An electrocardiogram abbreviated either ECG or EKG, is a recording of
these electrical signals.

The ECG is a composite record of action potentials produced by all the
heart muscle fibers during each heartbeat.

The instrument used to record the changes is an electrocardiograph.
 CARDIOVASCULAR SYSTEM - HEART -
SYSTEMIC CIRCULATION AND PULMONARY
CIRCULATION
system of blood
vessels that forms a
closed circuit
between the heart
and the lungs

/ trunk

system of blood vessels
that forms a closed
circuit between the
heart and the rest of the
body
 CARDIOVASCULAR SYSTEM - HEART -
SYSTEMIC CIRCULATION AND PULMONARY CIRCULATION
 CARDIOVASCULAR SYSTEM - HEART -
CARDIAC CYCLE

A single cardiac cycle includes all the events associated with one
heartbeat.
A cardiac cycle consists of systole and diastole of the atria plus systole
and diastole of the ventricles.
systole refers to the phase of contraction
diastole refers to the phase of relaxation (dilation or expansion)
 0.4 sec

0.3 sec
0.1 sec
ATRIAL
VENTRICULAR SYSTOLE RELAXATION PERIOD
SYSTOLE
 CARDIOVASCULAR SYSTEM - HEART -
HEART SOUNDS

Auscultation the act of listening to sounds within the body, is usually
done with a stethoscope.
The sound of the heartbeat comes primarily from blood turbulence
caused by the closing of the heart valves.
Smoothly flowing blood is silent.
During each cardiac cycle, there are four heart sounds, but in a normal
heart only the first and second heart sounds (S1 and S2) are loud
enough to be heard through a stethoscope
 CARDIOVASCULAR SYSTEM - HEART -
HEART SOUNDS

The first sound (S1), which can be described as a lubb sound, is louder
and a bit longer than the second sound.
S1 is caused by blood turbulence associated with closure of the AV
valves soon after ventricular systole begins.
The second sound (S2), which is shorter and not as loud as the first, can
be described as a dupp sound.
S2 is caused by blood turbulence associated with closure of the SL
valves at the beginning of ventricular diastole.
Although S1 and S2 are due to blood turbulence associated with the
closure of valves, they are best heard at the surface of the chest in
locations that are slightly different from the locations of the valves
USE THIS AS A GUIDE FOR YOUR PRACTICALS
 CARDIOVASCULAR SYSTEM - HEART -
CARDIAC OUTPUT

Cardiac output (CO) is the volume of blood ejected from the left
ventricle (or the right ventricle) into the aorta (or pulmonary trunk) each
minute.
Cardiac output equals the stroke volume (SV), the volume of blood
ejected by the ventricle during each contraction, multiplied by the heart
rate (HR), the number of heartbeats per minute:
CO = SV × HR
(mL/min) (mL/beat) (beats/min)
 CARDIOVASCULAR SYSTEM - HEART -
CARDIAC OUTPUT

CALCULATE CO IN A TYPICAL RESTING ADULT where stroke
volume averages 70 mL/ beat, and heart rate is about 75 beats/min. Thus,
average cardiac output is
Will× 75
CO = 70 mL/beat bebeats/min
calculated in class..
= 5250 mL/min = 5.25 L/min

This volume is close to the total blood volume, which is about 5 liters in
a typical adult male
 CARDIOVASCULAR SYSTEM - BLOOD VESSELS
Arteries carry oxygenated blood
Veins carry deoxygenated/ venous blood
Exception to this rule..
STRUCTURE OF BLOOD VESSEL
 Tunica media more thicker
in arteries than in veins
Arteries have thick walls
with muscles
Veins have thin walls
 CARDIOVASCULAR SYSTEM - BLOOD VESSELS

Blood pressure is the
pressure of blood
pushing against the
walls of your arteries
 CARDIOVASCULAR SYSTEM - BLOOD VESSELS

Systolic blood pressure (SBP) is the highest pressure attained in arteries
during systole
Diastolic blood pressure (DBP) is the lowest arterial pressure during
diastole
 Hypertension is classified into two
different categories:
1.Primary Hypertension: Also called
essential hypertension, where there
is no known cause. This type of
hypertension develops slowly due
to lifestyle, environment, or age.
2.Secondary Hypertension: This
type of hypertension is secondary
due to health problem or medicine.
 CARDIOVASCULAR SYSTEM – HEART RATE

Heart rate or pulse, is the number of times the heart beats per minute.
Resting heart rate is the heart pumping the lowest amount of blood
needed - heart rate is normally between 60 and 100 beats per minute
TACHYCARDIA - heart rate over 100 beats a minute
BRADYCARDIA - a slower than normal heart rate
USE THIS AS A GUIDE FOR YOUR PRACTICALS
CARDIOVASCULAR SYSTEM – Arterial Pulse Points
CARDIOVASCULAR SYSTEM - BLOOD VESSELS -
MAJOR ARTERIES

Descending thoracic aorta
CARDIOVASCULAR SYSTEM - BLOOD VESSELS -
MAJOR VEINS
 TOPICS FOR ILLUSTRATION

DRAW A NEAT LABELLED DIAGRAM OF THE GIVEN TOPICS ON PLAIN A4 SIZE PAPER – FOLLOW
RUBRICS
COMPLETED DIAGRAMS TO BE SUBMITTED FOR CORRECTION ON
30.09.2024 – sections 22/66 & 33/77 (Mon/Wed)
08.10.2024 – sections 44/88 (Tue/Thurs)

Internal features of heart
 REFERENCES

Tortora, Gerard J. And Bryan H Derrickson. Principles of Anatomy and Physiology.
John Wiley & Sons, 2020

Standring, Susan. Gray’s Anatomy E-Book. Elsevier Health Sciences, 2015.