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Exercise 34
Blood
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Composition of Blood
Blood is sticky
Color varies from scarlet to dark red
The pH of blood is 7.35–7.45
Temperature is 38C
Average volume: 5–6 L for males, and
4–5 L for females
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Composition of Blood
It is composed of liquid plasma and formed
elements
Formed elements include:
Erythrocytes, or red blood cells (RBCs)
Leukocytes, or white blood cells (WBCs)
Platelets
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Blood Plasma - Matrix
Blood plasma contains over 100
solutes, including:
Water – 90%
Proteins – albumin, globulins, clotting
proteins, and others
Organic nutrients – glucose,
carbohydrates, amino acids
Electrolytes – sodium, potassium,
calcium, chloride, bicarbonate
Respiratory gases – oxygen and
carbon dioxide
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Components of Whole Blood
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Figure 17.1
Erythrocytes (RBCs)
Biconcave discs, anucleate,
essentially no organelles
Filled with hemoglobin (Hb), a protein
that functions in gas transport
Red or pink
4.5million to 5.0 million cells/mm3
Life span – 100 to 120 days
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Erythrocytes (RBCs)
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Figure 17.3
Components of Whole Blood
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Figure 17.2
Leukocytes (WBCs)
4000-11000 cells/mm3
Nucleated
Diapedesis
Divided into 2 groups:
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Granulocytes and agranulocytes
Granulocytes
Granulocytes – neutrophils,
eosinophils, and basophils
Contain cytoplasmic granules that
stain specifically (acidic, basic, or
both) with Wright’s stain
Are larger and usually shorter-lived
than RBCs
Have lobed nuclei
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Neutrophils
Neutrophils have two types of
granules that:
Take up both acidic and basic dyes
Give the cytoplasm a lilac color
Neutrophils are our first body’s
defense
Increase in bacterial infections
40% - 70% of all WBCs
Nucleus with 3 to 7 lobes
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Eosinophils
Eosinophils account for 1–4% of WBCs
Have red-staining, bilobed nuclei
connected via a broad band of nuclear
material
Have red to crimson (acidophilic) large,
coarse, lysosome-like granules
Lead the body’s counterattack against
parasitic worms. Increased in allergic
patients
Lessen the severity of allergies by
phagocytizing
immune
complexes
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Basophils
Account for 0.5% of WBCs and:
Have U- or S-shaped nuclei with two
or three conspicuous constrictions
Are functionally similar to mast cells
Have large, purplish-black (basophilic)
granules that contain histamine.
Mediates inflammatory reactions
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Agranulocytes
Agranulocytes – lymphocytes and
monocytes:
Lack visible cytoplasmic granules
Are similar structurally, but are
functionally distinct and unrelated cell
types
Have spherical (lymphocytes) or
kidney-shaped (monocytes) nuclei
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Lymphocytes
Account for 25% or more of WBCs and:
Have large, dark-purple, circular nuclei with a
thin rim of blue cytoplasm
Responsible for immunologic responses
Smallest type of leukocytes
There are two types of lymphocytes: T cells
and B cells
T cells function in the immune response
B cells produce antibodies
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Monocytes
Monocytes account for 4–8% of leukocytes
They are the largest leukocytes
They have abundant pale-blue cytoplasms
They have purple-staining, U- or kidneyshaped nuclei
They leave the circulation, enter tissue, and
differentiate into macrophages
Increases in chronic infections
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Leukocytes
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Figure 17.10
Platelets
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Platelets are fragments of megakaryocytes
with a blue-purple color
Irregular shape
250,000 - 500,000/mm3
Platelets function in the clotting mechanism
by forming a temporary plug that helps seal
breaks in blood vessels
Hematologic Tests
Total WBCs count
Leukocytosis
Leukopenia
Leukemia
Total RBCs count
Polycythemia
Anemia
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Hematologic Tests
Differential WBCs count
Hematocrit or packed cell volume (PVC)
Obtained by centrifuging the whole
blood
Normal male: 47
Normal female: 42
Hemoglobin concentration
Male normal value: 13-18g/100ml of
blood
Female normal value: 12-16g/100ml of
20 blood
Hematologic Tests
Sedimentation rate
It is the speed at which RBCs settle to
the bottom of a vertical tube
Adult normal value: 0 to 6 mm/hr
It is increased in anemia, infections,
tissue necrosis, pregnancy
It is decreased in polycythemia
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Hematologic Tests
Bleeding time
Measurement of how long a bleeding
lasts
It tests the health of the platelets
Normal rate: 0 to 5 minutes (or 2 to 7)
depending on the method used
Coagulation time
Normal value:2 to 6 minutes
It tests the coagulation factors
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Hematologic Tests – blood
typing
RBC membranes have glycoprotein antigens
on their external surfaces
These antigens are:
Unique to the individual
Recognized as foreign if transfused into
another individual
Promoters of agglutination and are referred to
as agglutinogens
Presence or absence of these antigens is
used to classify blood groups
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Blood Groups
The antigens of the ABO and Rh blood
groups cause vigorous transfusion
reactions when they are improperly
transfused
Other blood groups (M, N, Dufy, Kell, and
Lewis) are mainly used for legalities
Antibodies are also called agglutinins
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ABO Blood Groups
The ABO blood groups consists of:
Type A blood:
Has antigens A on the surface of their
RBCs
Has antibodies anti-B in their plasma
Type B blood:
Has antigens B on the surface of their
RBCs
Has antibodies anti-A in their plasma
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ABO Blood Groups
Type AB blood:
Has both A and B antigens on the
surface of their RBCs
Has no antibodies in their plasma
Type O blood:
Has no antigens on the surface of their
RBCs
Has anti-A and anti-B in their plasma
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ABO Blood Groups
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Table 17.4
Rh Blood Groups
There are eight different Rh agglutinogens,
three of which (C, D, and E) are common
Presence of the Rh agglutinogens on RBCs is
indicated as Rh+
Anti-Rh antibodies are not spontaneously
formed in Rh– individuals
However, if an Rh– individual receives Rh+
blood, anti-Rh antibodies form
A second exposure to Rh+ blood will result in
a typical transfusion reaction
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Blood Typing
When serum containing anti-A or anti-B
agglutinins is added to blood,
agglutination will occur between the
agglutinin and the corresponding
agglutinogens
Positive reactions indicate agglutination
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Blood Typing
Blood type being
tested
RBC agglutinogens
Serum Reaction
Anti-A
Anti-B
AB
A and B
+
+
B
B
–
+
A
A
+
–
O
None
–
–
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