Cardiovascular System PDF

Summary

This document is a chapter on the cardiovascular system, focusing on blood, the heart, circulation, and blood vessels. It describes the major functions, components, and different types of cells. The chapter also touches upon blood clotting, blood groups and heart diseases. It is suitable for undergraduate or higher-level studies in biology or related fields.

Full Transcript

CARDIOVASCULAR SYSTEM
A.Blood
B.Heart
C.Blood Circulation and Cardiac Conduction System
D.Blood Vessels
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

major function of
the cardiovascular
system =
transportation
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

BLOOD
v liquid connective tissue
Ø cells surrounded by a
liquid extracellular matrix
(blood plasma)

v transports:
Ø oxygen and nutrients
from the lungs and
gastrointestinal tract
Ø carbon dioxide and
other wastes from body
cells to lungs, kidneys,
and skin for excretion
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

BLOOD
v helps maintain homeostasis of all body fluids
Ø blood helps regulate pH (through the use of buffer)
Ø heat- absorbing and coolant properties of the water in blood plasma
helps adjust body temperature
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

BLOOD
v clotting= protects against its excessive loss after an injury
v white blood cells and blood proteins (e.g. antibodies)=
protect against disease
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

BLOOD
v physical characteristics:
Ø denser and more viscous (thicker) than water
Ø temperature= 38ºC
Ø pH= 7.35 to 7.45 (slightly alkaline)
Ø color with oxygen content:
ü saturated with oxygen= bright red
ü unsaturated with oxygen= dark red
Ø 8% of the total body mass
Ø blood volume
ü 5 to 6 liters (average- sized adult male)
ü 4 to 5 liters (average-sized adult female)
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

v components:
1. blood plasma
2. formed
elements
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2. formed elements
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2. formed elements
a. Red blood cells (RBCs) or erythrocytes
transport oxygen from the lungs to body cells
deliver carbon dioxide from body cells to the
lungs
diameter= 7- 8 µm
no nucleus= all internal space is available for
oxygen transport
no mitochondria= generate ATP anaerobically (without
oxygen
biconcave disc= much greater surface area for
gas diffusion
each contains about 280 million hemoglobin
molecules
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2. formed elements
a. Red blood cells (RBCs) or erythrocytes
each contains about 280 million hemoglobin molecules
§ hemoglobin= where O2 and CO2 bind
normal level: 100mL blood= contains 12–18g hemoglobin

Iron ion (Fe2+) can combine
reversibly with one O2
molecule. Each hemoglobin
molecule binds four O2
molecules.
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Hemoglobin also transports about 23% of the total carbon dioxide. The remaining
carbon dioxide is dissolved in plasma or carried as bicarbonate ions.
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Ø hematocrit= % total blood volume occupied by RBCs
ü normal: adult females= 38–46%; adult males= 40–54%
* testosterone stimulates synthesis of erythropoietin (EPO), the
hormone that stimulates production of RBCs
* excessive loss of blood during menstruation
ü significant drop in hematocrit= anemia
ü abnormally high hematocrit (65% or higher)= polycythemia
raises the viscosity of blood=> difficult for the heart to pump
contributes to high blood pressure and increased risk of stroke
caused by:
§ abnormal increases in RBC production, tissue hypoxia,
dehydration, and blood doping or the use of EPO by athletes
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Mechanism for regulating the rate of RBC production
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2. formed elements
b. White blood cells (WBCs) or leukocytes
ü helps defend the body against bacteria, viruses, parasites, and tumor
cells
ü have nuclei and other organelles
ü do not contain hemoglobin
ü less numerous than red blood cells (5,000-10,000 cells per mL of
blood
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

b. White blood cells (WBCs) or leukocytes
ü types:
Neutrophils= most numerous WBCs
§ respond most quickly to bacteria and fungi
Eosinophils= have a blue-red nucleus
§ number increases rapidly during infections by parasitic worms
Basophils= rarest of the WBCs
§ contains histamine (chemical that makes blood vessels leaky and attracts
other WBCs to the inflamed site)
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

b. White blood cells (WBCs) or leukocytes
ü types:
Lymphocytes
§ have a large, dark purple nucleus
§ reside in lymphatic tissues, such as the tonsils
Monocytes
§ largest of the WBCs
§ U- or kidney-shaped nucleus
§ change into macrophages (important in fighting chronic infections)
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2. formed elements
b. White blood cells (WBCs) or leukocytes
ü diapedesis/ emigration= when
WBCs slip into and out of the blood
vessels
circulatory system is their means of
transportation to areas of the body

ü chemotaxis= WBCs can locate areas
of tissue damage and infection in the
body

ü amoeboid motion= formation of
pseudopodia
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Ø leukocytosis= increase in WBC
ü generally indicates that a bacterial or viral infection

Ø leukopenia= abnormally low WBC
ü commonly caused by certain drugs, such as corticosteroids and
anti- cancer agents

Ø leukemia= cancer of bone marrow
ü huge numbers of WBCs are turned out rapidly
these WBCs are immature and incapable of carrying out their
normal protective functions
the body becomes easy prey for disease-causing bacteria and
viruses
because other blood cell lines are crowded out, severe anemia
and bleeding problems result
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2. formed elements
c. Platelets
ü not technically cells
fragments of multinucleate cells called megakaryocytes enclosed by a
piece of the plasma membrane
appear as darkly staining, irregularly shaped bodies scattered among the
other blood cells
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2. formed elements
c. Platelets
ü irregularly disc-shaped
ü 2–4 µm in diameter
ü has many vesicles but no nucleus.
ü needed for normal blood clotting
stops blood loss from broken blood vessels
ü normal platelet count= 150,000 and 400,000 per mL of blood
ü have a short life span (5 to 9 days)
aged/ dead platelets are removed by fixed macrophages in the spleen
and liver
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Platelet plug formation
A platelet plug can stop blood loss completely if the hole in a blood vessel is small enough.
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Blood Clotting
If blood is drawn from the body, it thickens
and forms a gel. The gel is called a blood
clot. It consists of a network of insoluble
protein fibers called fibrin in which the
formed elements of blood are trapped.
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Hematopoiesis or Blood Cell Formation
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Blood Groups and Blood Types
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Development of hemolytic disease of the newborn (HDN)

Rh Blood Group

Rh factor= an antigen occurring
on the red blood cells of many
humans (around 85 %) and some
other primates
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

HEART
v blood should reach body cells
Ø must be pumped continuously by the heart through
the blood vessels
ü heart beat= about 100,000 times every day
ü heart pumps more than about 14,000 liters of
blood in a day
v roughly same size (but not same shape) as your
closed fist
v average mass
Ø adult females= 250 g
Ø adult males= 300 g
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

HEART
v rests on the diaphragm,
near the midline of the
thoracic cavity
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

v pericardium= surrounds the heart
Ø confines the heart to its position in the mediastinum
Ø allows freedom of movement for contraction

2 main parts or
pericardium:
(1) fibrous
- tough, inelastic, dense
irregular connective tissue
- prevents overstretching
of the heart, provides
protection, and anchors
the heart in the
mediastinum
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

2 main parts or pericardium:
(2) Serous
- thinner, more delicate
membrane
- made up of visceral and
parietal layer
- pericardial cavity= space
between the 2 layers

pericardial fluid
- thin film of lubricating serous fluid
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

PERICARDITIS
- inflammation of the
pericardium
- usually linked to a viral
infection
- may lead to cardiac
tamponade
Ø life-threatening
condition because
the fluid
compresses the
heart
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

v Layers of the heart wall
Ø epicardium
ü external layer
ü contains blood vessels,
lymphatics, and vessels that
supply the myocardium
Ø myocardium
ü middle layer
ü composed of cardiac muscle
tissue
responsible for the pumping
action of the heart
Ø endocardium
ü inner layer
ü provides a smooth lining for
the chambers of the heart
ü covers the valves of the heart
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Chambers of the Heart
v right atrium
Ø receives blood from:
ü superior vena cava
ü inferior vena cava
ü coronary sinus
v right ventricle
Ø sends blood to lungs
through the pulmonary
artery
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Chambers of the Heart
v left atrium
Ø receives blood from the
lungs through the
pulmonary vein
v left ventricle
Ø sends blood to the aorta
Ø branches of the arch of
the aorta and
descending aorta carry
blood throughout the
body
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Heart Valves
Ø open and close in
response to pressure
changes as the heart
contracts and relaxes
Ø helps ensure the one-
way flow of blood by
opening to let blood
through and then closing
to prevent its backflow
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Coronary Arteries and Veins
The left and right coronary arteries deliver blood to the heart; the coronary veins drain blood
from the heart into the coronary sinus.
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

BLOOD VESSELS
v structures for the flow of blood to and from the heart
v play an important role in adjusting the velocity and volume
of blood flow

v William Harvey
Ø proved that blood move in an enclosed system (17th century)
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Structure of the Blood Vessels
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Arteries
v carry blood away from the heart
v classified as:
Ø (1) elastic arteries
ü recoil when stretched, which
prevents blood pressure from falling
rapidly
Ø (2) muscular arteries
ü regulate blood flow to different
regions of the body
Ø (3) arterioles
ü smallest arteries
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Major Arteries
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Arteries
v aorta
Ø where arteries are derived
from
Ø usually divided into :
(1) ascending aorta
(2) aortic arch
(3) descending aorta
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Veins
v have very thin walls relative to their
total diameter
v deoxygenated blood from the body
is returned to the right atrium
through three major veins:
Ø coronary sinus
Ø superior vena cava
Ø inferior vena cava
v many veins, especially those in the
limbs, contain valve
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Major Veins
 ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System

Capillaries
v smallest of blood
vessels
v have diameters of
5–10 µm
v form the U-turns
that connect the
arterial outflow to
the venous return
ANATOMY and PHYSIOLOGY. Chapter 3G– Circulatory System