Blood Physiology 1 PDF

Summary

This document is a chapter on blood physiology, likely part of a larger textbook or study guide. It covers topics like the components of blood, the function of red blood cells, hemoglobin, the process of blood clotting, and the role of different blood cells. It provides detailed information for students studying biology or medical science at the university level.

Full Transcript

Chapter 19
The Cardiovascular System:
The Blood

1
 About this Chapter
Composition of Blood
Various cell types, origin
and roles
Red blood cells,
hemoglobin, RBCs life cycle
How coagulation works

2
Blood composing
Components of Blood

4
The Origin of Blood Cells

process of blood cells
formation is known as:
hematopoiesis or
hemopoiesis

In the embryo
hemopoiesis occurs
in yolk sac, liver,
spleen, thymus,
lymph nodes & red
bone marrow.
In adult
occurs only in red
marrow of flat bones
like sternum, ribs,
skull & pelvis and
ends of long bones 5
Characteristics of Red Blood
Cells
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Top view

Red blood cells are: 7.5 micrometers

Erythrocytes
Biconcave discs
One-third hemoglobin or:
2.0 micrometers

Oxyhemoglobin (a)
Sectional view

Deoxyhemoglobin
Able to readily squeeze through
capillaries
Lack nuclei and mitochondria –
(Can they reproduce or
metabolize?)
(b)
b: © Bill Longcore/Photo Researchers, Inc.
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 Red Blood Cell Counts

RBC counts is the number of RBCs in a cubic
millimeter or microliter of blood
It may vary depending on age and health
Typical ranges include:
4,600,000 – 6,200,000 in males (Why so high?)
4,200,000 – 5,400,000 in adult females (Why so
low?)
4,500,000 – 5,100,000 in children (Why more
than women?)
RBC counts reflect blood’s oxygen carrying capacity

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 Hematocrit
Percentage of total blood volume occupied by
blood cells (RBCs).
female normal range

38 - 46% (average of 42%)

male normal range

40 - 54% (average of 46%)

Testosterone and erythropoietin (EPO)

Anemia
Drop in hematocrit value.

Polycythemia
too many RBCs (over 65%)

dehydration, tissue hypoxia, blood doping
in athletes or the use of EPO 8
 Hemoglobin

Globin protein consisting of 4 polypeptide chains
One heme pigment attached to each polypeptide
chain
each heme contains an iron ion (Fe+2) that can combine
reversibly with one oxygen molecule
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Transport of O2, CO2 and Nitric
Oxide

Each hemoglobin molecule can carry 4
oxygen molecules from lungs to tissue cells
Hemoglobin transports 23% of total CO2
waste from tissue cells to lungs for release
combines with amino acids in globin

portion of Hb
Hemoglobin transports nitric oxide & helping
in regulation of blood pressure and blood
flow 10
RBC Life Cycle

11
Red Blood Cell Production
and Its Control
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Low blood oxygen
Low blood oxygen Release into
bloodstream

causes the kidneys and Liver Kidney Stimulation

the liver to release Inhibition

erythropoietin (EPO)
which stimulates RBC –

production Erythropoietin

This is a negative
feedback mechanism Increased
oxygen-

(What does this mean?)
Bloodstream carrying
capacity

Within a few days many
new blood cells appear in Increased
number of

the circulating blood
red blood
+ cells

Red bone marrow 12
Types of White Blood Cells
White blood cells:
Are leukocytes
Protect against disease
WBC hormones are interleukins and colony-
stimulating factors which stimulate development
There are five types of WBCs in two categories:
Granulocytes
Neutrophils
Eosinophils
Basophils
Agranulocytes
Lymphocytes
Monocytes 13
 Neutrophils
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

First to arrive at infections
Phagocytic (What is this?)
54% - 62% of leukocytes

© Ed Reschke

14
 Eosinophils

Defend against parasitic
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

worm infestations
1% - 3% of leukocytes
Elevated in parasitic worm
infections and allergic
reactions

© Ed Reschke

15
Basophils
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Release histamine
(What does this do?)
Release heparin (What
does this do?)
Less than 1% of
leukocytes

© Ed Reschke

16
 Monocytes
Largest of all blood cells Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

May leave bloodstream
to become macrophages
3% - 9% of leukocytes
Phagocytize bacteria,
dead cells, and other
debris

© R. Kessel/Visuals Unlimited

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 Lymphocytes

T cells and B cells
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Both important in
immunity
B cells produce
antibodies
25% - 33% of leukocytes

© Ed Reschke

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White Blood Cell Counts

Typically 5,000 – 10,000 per cubic millimeter of
blood
Leukopenia:
Low WBC count (below 5,000)

Leukocytosis:
High WBC count (above 10,000)

Differential WBC count
Lists percentages of types of leukocytes
May change in particular diseases

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 Emigration
Emigration is the process by which
WBCs leave the blood stream, in
which WBCs roll along endothelium,
stick to it & squeeze between cells.

Neutrophils & macrophages
phagocytize bacteria & debris.
Phagocytosis is stimulated by
factors released from microbs
like toxin and kinins such process
is called chemotaxis
20
 Hemostasis
Sequence of responses that stops
bleeding in a quick & localized fashion
when blood vessels are damaged
Methods utilized to reduce bleeding:
vascular spasm
platelet plug formation
blood clotting (coagulation = formation
of fibrin threads)
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1-Blood Vessel Spasm
Blood vessel spasm
Triggered by pain receptors, platelet release, or
serotonin
Smooth muscle in blood vessel contracts (What
does this do?)

22
 2-Platelet Plug Formation

Platelet Adhesion Platelet Release Reaction

Platelet Aggregation
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3- Blood Clotting Pathways

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 Role of Vitamin K in Clotting
Normal clotting requires adequate vitamin K
fat soluble vitamin absorbed if lipids

absorption is normal.
absorption slowed if bile release is insufficient

Required for synthesis of 4 clotting factors by
hepatocytes
factors II (prothrombin), VII, IX and X

Produced by bacteria in large intestine

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 Fate of Blood Clots
Fibrinolysis is the system whereby the fibrin clot is
dissolved as the vessel heals in order to restore normal
blood flow.
Tissue Plasminogen Activators (t-PA), which convert
Plasminogen (inactive) to Plasmin (active) are released
from injured vessel walls.

once plasmin is formed it digests fibrin threads and
inactivates fibrinogen, prothrombin and factors V and
XII.

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 Intravascular Clotting
Thrombus
clot (thrombus) forming in an unbroken blood
vessel
forms on rough inner lining of BV

if blood flows too slowly (stasis) allowing

clotting factors to build up locally & cause
coagulation
Embolus
clot, air bubble or fat from broken bone in the blood

pulmonary embolus is found in lungs

Low dose aspirin blocks synthesis of thromboxane A2
& reduces inappropriate clot formation

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Blood Groups and Blood
Types

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 Hemolytic Disease of
Newborn

Rh negative mom and Rh+ fetus will have mixing of blood at birth
Mom's body creates Rh antibodies unless she receives a RhoGam
shot soon after first delivery, miscarriage or abortion
RhoGam binds to loose fetal blood and removes it from body
before she reacts
In 2nd child, hemolytic disease of the newborn may develop
causing hemolysis of the fetal RBCs

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Universal Donors and
Recipients
People with type AB blood called
“universal recipients” since have
no antibodies in plasma
People with type O blood cell
called “universal donors” since
have no antigens on their cells
theoretically can be given to
anyone

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