2. Composition, Formation and Function of Blood(3).ppt
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About This Presentation
Medical laboratory
Slide Content
CHAPTER 2
Composition, Formation and
Function of Blood
7/24/2024
Composition, Formation and Function of
Blood
Composition, Formation and
Function of Blood
7/24/2024
Composition, Formation and Function of
Blood
Objectives
Upon completion of this chapter the student will be able to:
Explain the composition of blood
Describe the morphology and functions of the formed
elements of blood
Discuss the functions of plasma
Define hemopoiesis and explain the process of blood cell
origin and development
Indicate the sites of hemopoiesis in infancy, childhood and
adulthood
List at least three hemopoietic growth factors
Name the cells in the development order that will mature
into erythrocytes, thrombocytes and the five leukocytes
7/24/2024
Composition, Formation and Function of
Blood 2
Upon completion of this chapter the student will be able to:
Explain the composition of blood
Describe the morphology and functions of the formed
elements of blood
Discuss the functions of plasma
Define hemopoiesis and explain the process of blood cell
origin and development
Indicate the sites of hemopoiesis in infancy, childhood and
adulthood
List at least three hemopoietic growth factors
Name the cells in the development order that will mature
into erythrocytes, thrombocytes and the five leukocytes
7/24/2024
Composition, Formation and Function of
Blood 2
Objectives cont’d
Discuss how hemopoiesis is regulated
Describe the morphology of the red blood cell, white
blood cell, and platelet precursors
Define extramedullary hemopoiesis
Differentiate between intramedulary and extramedulary
hemopoiesis
Define erythropoiesis
Explain how erythropiesis is regulated and list the effects
of the hormone erythropoietin on erythropoiesis
Define megaloblastic erythropoiesis
Define ineffective erythropoiesis
Define myeloid erythroid ratio
7/24/2024
Composition, Formation and Function of
Blood 3
Discuss how hemopoiesis is regulated
Describe the morphology of the red blood cell, white
blood cell, and platelet precursors
Define extramedullary hemopoiesis
Differentiate between intramedulary and extramedulary
hemopoiesis
Define erythropoiesis
Explain how erythropiesis is regulated and list the effects
of the hormone erythropoietin on erythropoiesis
Define megaloblastic erythropoiesis
Define ineffective erythropoiesis
Define myeloid erythroid ratio
7/24/2024
Composition, Formation and Function of
Blood 3
Outline
Composition of Blood
Characteristics of Blood
Formation of blood cells
Hemopoiesis
The Hemopoietic Microenvironment
Regulation of Hemopoiesis
Maturational characteristics of hemopoietic cells
7/24/2024
Composition, Formation and Function of
Blood 4
Composition of Blood
Characteristics of Blood
Formation of blood cells
Hemopoiesis
The Hemopoietic Microenvironment
Regulation of Hemopoiesis
Maturational characteristics of hemopoietic cells
7/24/2024
Composition, Formation and Function of
Blood 4
2.1 Composition of Blood
Blood
is the only fluid tissue
constitutes 6-8% of the total body weight
consists of cells suspended in a fluid called plasma.
about 45% cells; 55% plasma
7/24/2024
Composition, Formation and Function of
Blood 5
Blood
is the only fluid tissue
constitutes 6-8% of the total body weight
consists of cells suspended in a fluid called plasma.
about 45% cells; 55% plasma
7/24/2024
Composition, Formation and Function of
Blood 5
Composition of Blood cont’d
(WBC + platelets)
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Composition, Formation and Function of
Blood 6
(WBC + platelets)
7/24/2024
Composition, Formation and Function of
Blood 6
Composition cont’d
Plasma
part of the extracellular fluid
a complex solution of proteins, salts and numerous
metabolic substances
Consists of:
about 91.5% water
about 8.5% solutes of which about 7% are proteins
Out of the 7% protein:
54% albumin
38% globulins
7% fibrinogen
7/24/2024
Composition, Formation and Function of
Blood
7
Plasma
part of the extracellular fluid
a complex solution of proteins, salts and numerous
metabolic substances
Consists of:
about 91.5% water
about 8.5% solutes of which about 7% are proteins
Out of the 7% protein:
54% albumin
38% globulins
7% fibrinogen
7/24/2024
Composition, Formation and Function of
Blood
7
Formed Elements
The three main blood cells/formed elements are:
red blood cells (erythrocytes)
white blood cells (leucocytes)
platelets (thrombocytes)
7/24/2024
Composition, Formation and Function of
Blood 8
The three main blood cells/formed elements are:
red blood cells (erythrocytes)
white blood cells (leucocytes)
platelets (thrombocytes)
7/24/2024
Composition, Formation and Function of
Blood 8
Erythrocytes (Red Blood Cells)
Are the most numerous cells in the blood
The normal RBC count is approximately 4.5 to 6
million cells per microliter.
Their primary function is gas exchange.
carry oxygen from the lungs to the tissues
return carbon dioxide (CO
2), a waste product of
metabolism, from the tissues to the lungs to be
exhaled
are anucleated cells containing few organelles
a large proportion of their cytoplasm consists of the
iron containing oxygen transport molecule
hemoglobin.
7/24/2024
Composition, Formation and Function of
Blood 9
Are the most numerous cells in the blood
The normal RBC count is approximately 4.5 to 6
million cells per microliter.
Their primary function is gas exchange.
carry oxygen from the lungs to the tissues
return carbon dioxide (CO
2), a waste product of
metabolism, from the tissues to the lungs to be
exhaled
are anucleated cells containing few organelles
a large proportion of their cytoplasm consists of the
iron containing oxygen transport molecule
hemoglobin.
7/24/2024
Composition, Formation and Function of
Blood 9
Erythrocytes cont’d
Biconcave disks (the flexibility to squeeze their way
through capillaries and other small blood vessels).
7 to 8 m in diameter with a thickness of 1.7-2.4m
In stained smears, RBCs look like a circle with a central
hole, or central pallor, which is approximately one-third the
diameter of the cell
normally survives in the blood stream for 120 days.
after finishing its life span, it is removed by the phagocytic
cells of the reticuloendothelial system, broken down and
some of its constituents re utilized for the formation of new
cells.
7/24/2024
Composition, Formation and Function of
Blood 10
Biconcave disks (the flexibility to squeeze their way
through capillaries and other small blood vessels).
7 to 8 m in diameter with a thickness of 1.7-2.4m
In stained smears, RBCs look like a circle with a central
hole, or central pallor, which is approximately one-third the
diameter of the cell
normally survives in the blood stream for 120 days.
after finishing its life span, it is removed by the phagocytic
cells of the reticuloendothelial system, broken down and
some of its constituents re utilized for the formation of new
cells.
7/24/2024
Composition, Formation and Function of
Blood 10
Erythrocytes
Note that the size of the erythrocytes is about
the same as the nucleus of the small resting
lymphocyte.
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Composition, Formation and Function of
Blood 11
Note that the size of the erythrocytes is about
the same as the nucleus of the small resting
lymphocyte.
7/24/2024
Composition, Formation and Function of
Blood 11
Leukocytes (White Blood Cells)
Leukocytes are :
a heterogeneous group of nucleated cells
responsible for the body’s defenses
transported by the blood to the various tissues where
they exert their physiologic role, e.g. phagocytosis.
The normal WBC count is ~4,000 to 10,000/L (4.0–10.0 x
10
3
/L)
Leukocytes are usually divided into:
Granulocytes, which have specific granules, and
Agranulocytes, which lack specific granules
7/24/2024
Composition, Formation and Function of
Blood 12
Leukocytes are :
a heterogeneous group of nucleated cells
responsible for the body’s defenses
transported by the blood to the various tissues where
they exert their physiologic role, e.g. phagocytosis.
The normal WBC count is ~4,000 to 10,000/L (4.0–10.0 x
10
3
/L)
Leukocytes are usually divided into:
Granulocytes, which have specific granules, and
Agranulocytes, which lack specific granules
7/24/2024
Composition, Formation and Function of
Blood 12
Leukocytes (White Blood Cells)
Granulocytes/ Polymorphonuclear leukocytes are divided
into:
Neutrophils (with faintly staining granules),
Eosinophils (with large reddish or eosinophilic
granules), and
Basophils (with large dark blue or basophilic granules).
Agranulocytes/mononuclear leukocytes are divided into:
Lymphocytes and
Monocytes.
Although they are called white blood cells, leukocytes
predominantly function in tissues.
They are only in the blood transiently, while they travel to
their site of action.
7/24/2024
Composition, Formation and Function of
Blood 13
Granulocytes/ Polymorphonuclear leukocytes are divided
into:
Neutrophils (with faintly staining granules),
Eosinophils (with large reddish or eosinophilic
granules), and
Basophils (with large dark blue or basophilic granules).
Agranulocytes/mononuclear leukocytes are divided into:
Lymphocytes and
Monocytes.
Although they are called white blood cells, leukocytes
predominantly function in tissues.
They are only in the blood transiently, while they travel to
their site of action.
7/24/2024
Composition, Formation and Function of
Blood 13
Neutrophils
are the most common type of WBCs in adults
The segmented neutrophils “segs,” also called
polymorphonuclear neutrophil leukocytes
[PMNs or “polys”]
are the primary defense against bacterial
infection
Their size ranges from 10-12m in diameter.
They are capable of amoeboid movement.
There are 2-5 lobes to their nucleus that stain
purple violet.
The cytoplasm stains light pink with pinkish
dust like granules.
7/24/2024
Composition, Formation and Function of
Blood 14
are the most common type of WBCs in adults
The segmented neutrophils “segs,” also called
polymorphonuclear neutrophil leukocytes
[PMNs or “polys”]
are the primary defense against bacterial
infection
Their size ranges from 10-12m in diameter.
They are capable of amoeboid movement.
There are 2-5 lobes to their nucleus that stain
purple violet.
The cytoplasm stains light pink with pinkish
dust like granules.
7/24/2024
Composition, Formation and Function of
Blood 14
Neutrophils cont’d
Normal range: 2.0-7.5 x 10
3
/l.
Increased in acute bacterial infections.
Band Neutrphil
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Composition, Formation and Function of
Blood 15
Normal range: 2.0-7.5 x 10
3
/l.
Increased in acute bacterial infections.
Band Neutrphil
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Composition, Formation and Function of
Blood 15
Eosinophils
Have the same size as neutrophils or may be a
bit larger (12-14m).
The nucleus:
is often bilobed with a "spectacle"
arrangement.
stains a little paler than that of neutrophils.
Cytoplasm contains many, large, round/oval
orange pink granules.
They are involved in allergic reactions and in
combating helminthic infections.
Normal range: 40-400/l.
Increase in their number (eosinophilia) is
associated with allergic reactions and
helminthiasis.
7/24/2024
Composition, Formation and Function of
Blood 16
Have the same size as neutrophils or may be a
bit larger (12-14m).
The nucleus:
is often bilobed with a "spectacle"
arrangement.
stains a little paler than that of neutrophils.
Cytoplasm contains many, large, round/oval
orange pink granules.
They are involved in allergic reactions and in
combating helminthic infections.
Normal range: 40-400/l.
Increase in their number (eosinophilia) is
associated with allergic reactions and
helminthiasis.
7/24/2024
Composition, Formation and Function of
Blood 16
Basophils
Size: 10-12m in diameter.
are the least common type of leukocytes,
normally ≤1% of total WBCs.
Have a kidney shaped nucleus often obscured
by a mass of large deep purple/dark blue
staining (basophilic) granules.
The granules contain:
heparin (an anticoagulant),
histamine (a fast vasodilator),
the slow-reacting substance of anaphylaxis
(a slow vasodilator), and other compounds.
7/24/2024
Composition, Formation and Function of
Blood 17
Size: 10-12m in diameter.
are the least common type of leukocytes,
normally ≤1% of total WBCs.
Have a kidney shaped nucleus often obscured
by a mass of large deep purple/dark blue
staining (basophilic) granules.
The granules contain:
heparin (an anticoagulant),
histamine (a fast vasodilator),
the slow-reacting substance of anaphylaxis
(a slow vasodilator), and other compounds.
7/24/2024
Composition, Formation and Function of
Blood 17
Basophils cont’d
involved in immediate hypersensitivity reactions
related to immunoglobulin class E (IgE)
Normal range: 20-200/l. Basophilia is rare except in
cases of chronic myeloid leukemia.
7/24/2024
Composition, Formation and Function of
Blood 18
involved in immediate hypersensitivity reactions
related to immunoglobulin class E (IgE)
Normal range: 20-200/l. Basophilia is rare except in
cases of chronic myeloid leukemia.
7/24/2024
Composition, Formation and Function of
Blood 18
Lymphocytes
are the second most common type of leukocytes
in adults (~20–40% of WBC)
The average number of lymphocytes in the
peripheral blood is 2500/l.
The lymphocyte number is higher in children and
also increases with viral infections
7/24/2024
Composition, Formation and Function of
Blood 19
are the second most common type of leukocytes
in adults (~20–40% of WBC)
The average number of lymphocytes in the
peripheral blood is 2500/l.
The lymphocyte number is higher in children and
also increases with viral infections
7/24/2024
Composition, Formation and Function of
Blood 19
Lymphocytes cont’d
1.Small Lymphocytes/Resting
lymphocytes:
are usually small (7-10m in diameter)
has a dark round to oval nucleus, and
only a rim of pale blue staining cytoplasm
nucleus is about the same diameter as a
normal erythrocyte & occupies most of the
cell
are the predominant forms found in the blood.
7/24/2024
Composition, Formation and Function of
Blood 20
1.Small Lymphocytes/Resting
lymphocytes:
are usually small (7-10m in diameter)
has a dark round to oval nucleus, and
only a rim of pale blue staining cytoplasm
nucleus is about the same diameter as a
normal erythrocyte & occupies most of the
cell
are the predominant forms found in the blood.
7/24/2024
Composition, Formation and Function of
Blood 20
2. Large Lymphocyte
A small number of lymphocytes in the blood
Slightly larger than resting lymphocytes, with
reddish purple (azurophilic) granules. This
appearance generally corresponds to natural
killer (NK) cells
Size: 12-14m in diameter
Nucleus:
a little paler than small lymphocytes
is usually eccentrically placed in the cell
Cytoplasm:
Is more plentiful
stains pale blue and may contain a few
reddish (azurophilic) granules.
7/24/2024
Composition, Formation and Function of
Blood 21
A small number of lymphocytes in the blood
Slightly larger than resting lymphocytes, with
reddish purple (azurophilic) granules. This
appearance generally corresponds to natural
killer (NK) cells
Size: 12-14m in diameter
Nucleus:
a little paler than small lymphocytes
is usually eccentrically placed in the cell
Cytoplasm:
Is more plentiful
stains pale blue and may contain a few
reddish (azurophilic) granules.
7/24/2024
Composition, Formation and Function of
Blood 21
Monocytes
Are the largest white cells measuring 14-18m in
diameter.
Normally comprise ~2 to 8% of leukocytes
After 8 to 14 hours in the blood, they enter tissue to
become tissue macrophages (also called histiocytes)
Cytoplasm:
abundant staining light gray to light blue
finely granular
Nucleus has very finely granular chromatin and is often
folded, bean shaped, oval, or irregular
7/24/2024
Composition, Formation and Function of
Blood 22
Are the largest white cells measuring 14-18m in
diameter.
Normally comprise ~2 to 8% of leukocytes
After 8 to 14 hours in the blood, they enter tissue to
become tissue macrophages (also called histiocytes)
Cytoplasm:
abundant staining light gray to light blue
finely granular
Nucleus has very finely granular chromatin and is often
folded, bean shaped, oval, or irregular
7/24/2024
Composition, Formation and Function of
Blood 22
Monocytes cont’d
Monocytes have two functions:
Phagocytosis of microorganisms (particularly
fungi and mycobacteria) and debris
Antigen processing and presentation. In this role,
they are critical in initiation of immune reactions
Normal range: 700-1500/l.
Monocytosis is seen in bacterial infections (e.g.,
tuberculosis) and protozoan infections.
7/24/2024
Composition, Formation and Function of
Blood 23
Monocytes have two functions:
Phagocytosis of microorganisms (particularly
fungi and mycobacteria) and debris
Antigen processing and presentation. In this role,
they are critical in initiation of immune reactions
Normal range: 700-1500/l.
Monocytosis is seen in bacterial infections (e.g.,
tuberculosis) and protozoan infections.
7/24/2024
Composition, Formation and Function of
Blood 23
*Values given are for adults; children tend to have a
higher proportion of lymphocytes. The exact ranges will
vary slightly between different laboratories.
7/24/2024
Composition, Formation and Function of
Blood 24
higher proportion of lymphocytes. The exact ranges will
vary slightly between different laboratories.
7/24/2024
Composition, Formation and Function of
Blood 24
Platelets (Thrombocytes)
are small, non nucleated (anucleated), round/oval
cells/cell fragments
Their size ranges 1-4m in diameter
The cytoplasm stain pale blue and contain many pink
granules
They are produced in the bone marrow by
fragmentation of megakaryocytes, which are large and
multinucleated cells
Their primary function is preventing blood loss from
hemorrhage by forming a platelet plug
7/24/2024
Composition, Formation and Function of
Blood 25
are small, non nucleated (anucleated), round/oval
cells/cell fragments
Their size ranges 1-4m in diameter
The cytoplasm stain pale blue and contain many pink
granules
They are produced in the bone marrow by
fragmentation of megakaryocytes, which are large and
multinucleated cells
Their primary function is preventing blood loss from
hemorrhage by forming a platelet plug
7/24/2024
Composition, Formation and Function of
Blood 25
Platelets
Platelets have a life span of approximately 10 days.
Senescent platelets are removed by the spleen
Normal range: 150-400 x 10
3
/l.
7/24/2024
Composition, Formation and Function of
Blood 26
Platelets have a life span of approximately 10 days.
Senescent platelets are removed by the spleen
Normal range: 150-400 x 10
3
/l.
7/24/2024
Composition, Formation and Function of
Blood 26
2.2. Characteristics of Blood
1.Temperature
Roughly 38°C (100.4 °F)
2.Viscosity
Five times that of H
2O due to interactions among
dissolved proteins, formed elements, & surrounding
H
2O molecules
Sticky, cohesive, and resistant to flow
3.pH
Ranges from 7.35-7.45, averaging 7.4
7/24/2024
Composition, Formation and Function of
Blood 27
1.Temperature
Roughly 38°C (100.4 °F)
2.Viscosity
Five times that of H
2O due to interactions among
dissolved proteins, formed elements, & surrounding
H
2O molecules
Sticky, cohesive, and resistant to flow
3.pH
Ranges from 7.35-7.45, averaging 7.4
7/24/2024
Composition, Formation and Function of
Blood 27
Characteristics of Blood cont’d
4.Volume
5-6 liters in adult male
4-5 liters in adult female
differences between genders reflect differences in
body size
Blood volume (BV) can be estimated by calculating
7% of the body wt in Kg
E.g. 75 Kg individual would have a BV of
approximately 5.25 liters (~1.4 gallons)
Hypovolemic = below normal
Normovolemic = normal
Hypervolemic = above normal
Abnormally high BV can place severe stress on
the heart7/24/2024
Composition, Formation and Function of
Blood 28
4.Volume
5-6 liters in adult male
4-5 liters in adult female
differences between genders reflect differences in
body size
Blood volume (BV) can be estimated by calculating
7% of the body wt in Kg
E.g. 75 Kg individual would have a BV of
approximately 5.25 liters (~1.4 gallons)
Hypovolemic = below normal
Normovolemic = normal
Hypervolemic = above normal
Abnormally high BV can place severe stress on
the heart7/24/2024
Composition, Formation and Function of
Blood 28
2.3. Function of Blood
Transportation
O
2to tissues & CO
2from tissues to lung
Nutrients from GIT to cells
Heat and waste products from cells for excretion
Hormones from endocrine glands to other body cells
Regulation
pH
Temperature
Osmotic pressure (influence water and ion content of
cells)
7/24/2024
Composition, Formation and Function of
Blood 29
Transportation
O
2to tissues & CO
2from tissues to lung
Nutrients from GIT to cells
Heat and waste products from cells for excretion
Hormones from endocrine glands to other body cells
Regulation
pH
Temperature
Osmotic pressure (influence water and ion content of
cells)
7/24/2024
Composition, Formation and Function of
Blood 29
Function of Blood cont’d
Protection
From bleeding (by the clotting mechanism)
Immunity (phagocytes, lymphocytes, antibodies)
7/24/2024
Composition, Formation and Function of
Blood 30
Protection
From bleeding (by the clotting mechanism)
Immunity (phagocytes, lymphocytes, antibodies)
7/24/2024
Composition, Formation and Function of
Blood 30
2.4. Formation and Regulation of Blood
Cells production
Hematopoiesis / Hemopoiesis
is the process of blood cell formation, differentiation
and development
Origin of Blood cells
There have been two theories
Monophyletic theory –all blood cells originate from
a single mother cell
Polyphyletic theory –several mother cells give rise
to the different cell lineages
monophyletic theory is accepted by many
hematologists
7/24/2024
Composition, Formation and Function of
Blood 31
Cells production
Hematopoiesis / Hemopoiesis
is the process of blood cell formation, differentiation
and development
Origin of Blood cells
There have been two theories
Monophyletic theory –all blood cells originate from
a single mother cell
Polyphyletic theory –several mother cells give rise
to the different cell lineages
monophyletic theory is accepted by many
hematologists
7/24/2024
Composition, Formation and Function of
Blood 31
Hematopoiesis cont’d
According to this theory:
all blood cells (RBC, WBC, PLT) originated from a
Pluripotent stem cell (PSC)
PSC is the first in a sequence of regular and orderly
steps of cell growth and maturation
Depending on the conditioning stimuli and mediators
(colony-stimulating factors, erythropoietin, interleukin,
etc.), PSCs mature along morphologically and
functionally diverse lines
7/24/2024
Composition, Formation and Function of
Blood 32
According to this theory:
all blood cells (RBC, WBC, PLT) originated from a
Pluripotent stem cell (PSC)
PSC is the first in a sequence of regular and orderly
steps of cell growth and maturation
Depending on the conditioning stimuli and mediators
(colony-stimulating factors, erythropoietin, interleukin,
etc.), PSCs mature along morphologically and
functionally diverse lines
7/24/2024
Composition, Formation and Function of
Blood 32
Hematopoiesis cont’d
PSCs:
Produce other stem cells and self-regenerate
maintaining their original numbers (self renewal), or
Differentiate into:
Lymphoid cell line for lymphopoiesis
Myeloid cell line for myelopoiesis
is a multipotent stem cell (MSC) capable of
granulopoiesis, erythropoiesis and
thrombopoiesis.
The MSC will first give rise to CFU-GEMM
7/24/2024
Composition, Formation and Function of
Blood 33
PSCs:
Produce other stem cells and self-regenerate
maintaining their original numbers (self renewal), or
Differentiate into:
Lymphoid cell line for lymphopoiesis
Myeloid cell line for myelopoiesis
is a multipotent stem cell (MSC) capable of
granulopoiesis, erythropoiesis and
thrombopoiesis.
The MSC will first give rise to CFU-GEMM
7/24/2024
Composition, Formation and Function of
Blood 33
Hemopoiesis cont’d
In response to specific cytokines, CFU-GEMM produces
erythroid, granulocytic(Eos, Baso, Neut),
Monocyte/macrophageand megakaryoticcells.
The Lymphoid stem cell (LSC) differentiates into a
committed pre-B and Pre-T cells that from B & T
lymphocytes
7/24/2024
Composition, Formation and Function of
Blood 34
In response to specific cytokines, CFU-GEMM produces
erythroid, granulocytic(Eos, Baso, Neut),
Monocyte/macrophageand megakaryoticcells.
The Lymphoid stem cell (LSC) differentiates into a
committed pre-B and Pre-T cells that from B & T
lymphocytes
7/24/2024
Composition, Formation and Function of
Blood 34
7/24/2024
Composition, Formation and Function of
Blood 35
Composition, Formation and Function of
Blood 35
Stages in hemopoietic cell development
7/24/2024
Composition, Formation and Function of
Blood 36
7/24/2024
Composition, Formation and Function of
Blood 36
2.4.1. Sites of Hemopoiesis
The sites of blood cell development follow a definite
sequence from embryonic life to fetal life, to childhood, and
to adult life.
Fetus:
1.Embryonic Yolk sac
Is the site where mesoblastic phase of hemopoiesis
occurs
Dominates during the first 2-8 weeks of life
the earliest hemopoietic cells to be produced are the
primitive erythroid precursors (in 2 weeks old
embryo)
Stops at 8 -10 weeks of gestation
7/24/2024
Composition, Formation and Function of
Blood 37
The sites of blood cell development follow a definite
sequence from embryonic life to fetal life, to childhood, and
to adult life.
Fetus:
1.Embryonic Yolk sac
Is the site where mesoblastic phase of hemopoiesis
occurs
Dominates during the first 2-8 weeks of life
the earliest hemopoietic cells to be produced are the
primitive erythroid precursors (in 2 weeks old
embryo)
Stops at 8 -10 weeks of gestation
7/24/2024
Composition, Formation and Function of
Blood 37
Sites of Hemopoiesis cont’d
2.Liver and spleen:
gradually replace yolk sac
are the sites where the hepatic phase of
hemopoiesis takes place
Liver is major site by the 2
nd
month
appearance of granulocytes and megakaryocytes.
Liver and spleen predominate 2-5 months
Production in the liver tails off within 1-2 weeks of
delivery
3.Bone marrow:
begins in the 4
th
month
After 5
th
month, it is the primary site of hemopoiesis
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Composition, Formation and Function of
Blood 38
2.Liver and spleen:
gradually replace yolk sac
are the sites where the hepatic phase of
hemopoiesis takes place
Liver is major site by the 2
nd
month
appearance of granulocytes and megakaryocytes.
Liver and spleen predominate 2-5 months
Production in the liver tails off within 1-2 weeks of
delivery
3.Bone marrow:
begins in the 4
th
month
After 5
th
month, it is the primary site of hemopoiesis
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Composition, Formation and Function of
Blood 38
Site of hemopoiesis
7/24/2024
Composition, Formation and Function of
Blood 39
7/24/2024
Composition, Formation and Function of
Blood 39
Stages/Phases of hemopoiesis in the
embryo and fetus
Stages of hemopoiesis in the embryo and fetus, indicating the
comparative participation of the chief centers of hematopoiesis and
the approximate times at which the different types of cells make their
appearance
Months
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Composition, Formation and Function of
Blood 40
embryo and fetus
Stages of hemopoiesis in the embryo and fetus, indicating the
comparative participation of the chief centers of hematopoiesis and
the approximate times at which the different types of cells make their
appearance
Months
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Composition, Formation and Function of
Blood 40
The Bone marrow during infancy,
childhood and adulthood
In infancy
Red & hematopoietic (active)
During childhood
Replacement of red marrow with fatty tissue
During Adulthood
The marrow of the central skeleton (vertebrae,
sternum) & proximal ends of long bones (femurus,
humurus) consist of 50% fatty space
BM cavities in body contain non-hematopoietic fatty
marrow
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Composition, Formation and Function of
Blood 41
childhood and adulthood
In infancy
Red & hematopoietic (active)
During childhood
Replacement of red marrow with fatty tissue
During Adulthood
The marrow of the central skeleton (vertebrae,
sternum) & proximal ends of long bones (femurus,
humurus) consist of 50% fatty space
BM cavities in body contain non-hematopoietic fatty
marrow
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Composition, Formation and Function of
Blood 41
Medullary hemopoiesis
Blood cell production within the bone
marrow (medulla)
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Composition, Formation and Function of
Blood 42
Blood cell production within the bone
marrow (medulla)
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Composition, Formation and Function of
Blood 42
Extramedulary hemopoiesis
Formation of apparently normal blood cells outside the
confines of the bone marrow mainly in the liver and
spleen in post fetal life is known as Extramedullary
Hemopoiesis.
Occurs when the bone marrow becomes
dysfunctional e.g., aplastic anemia, infiltration by
malignant cells, or over proliferation of a certain cell
(e.g. leukemia)
When the bone marrow is unable to meet increased
demand for cells, e.g., hemolytic anemia
If extramedulary hemopoiesis develops, the liver
and spleen are enlarged (hepatosplenomegaly)
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Composition, Formation and Function of
Blood 43
Formation of apparently normal blood cells outside the
confines of the bone marrow mainly in the liver and
spleen in post fetal life is known as Extramedullary
Hemopoiesis.
Occurs when the bone marrow becomes
dysfunctional e.g., aplastic anemia, infiltration by
malignant cells, or over proliferation of a certain cell
(e.g. leukemia)
When the bone marrow is unable to meet increased
demand for cells, e.g., hemolytic anemia
If extramedulary hemopoiesis develops, the liver
and spleen are enlarged (hepatosplenomegaly)
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Composition, Formation and Function of
Blood 43
Extramedulary hemopoiesis
7/24/2024
Composition, Formation and Function of
Blood 44
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Composition, Formation and Function of
Blood 44
2.4.2. The Hemopoietic Microenvironment
Hemopoiesis occurs in a microenvironment in the bone
marrow:
in the presence of fat cells, fibroblasts and
macrophages
on a bed of endothelial cells
The medullary cavities contain:
vascular spaces (sinuses)
hematopoietic cells , and
specialized stromal cells of various types.
All the cells form a complex microenvironment, with
numerous intricate and interdependent relationships
between stromal cells and hematopoietic cells (see
fig).
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Composition, Formation and Function of
Blood 45
Hemopoiesis occurs in a microenvironment in the bone
marrow:
in the presence of fat cells, fibroblasts and
macrophages
on a bed of endothelial cells
The medullary cavities contain:
vascular spaces (sinuses)
hematopoietic cells , and
specialized stromal cells of various types.
All the cells form a complex microenvironment, with
numerous intricate and interdependent relationships
between stromal cells and hematopoietic cells (see
fig).
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Composition, Formation and Function of
Blood 45
Hemopoietic Microenvironment cont’d
an extracellular matrix of fibronectin, collagen and
laminin combines with these cells to provide a setting in
which stem cells can grow and divide.
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Composition, Formation and Function of
Blood 46
an extracellular matrix of fibronectin, collagen and
laminin combines with these cells to provide a setting in
which stem cells can grow and divide.
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Composition, Formation and Function of
Blood 46
Bone marrow biopsy
The clear space is an adipocyte
the large cells with abundant pink cytoplasm and folded
nuclei are megakaryocytes;
the small cells with opaque dark nuclei are late-stage
erythroid precursors;
the cells with folded or bent nuclei are granulocytes.
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Composition, Formation and Function of
Blood 47
The clear space is an adipocyte
the large cells with abundant pink cytoplasm and folded
nuclei are megakaryocytes;
the small cells with opaque dark nuclei are late-stage
erythroid precursors;
the cells with folded or bent nuclei are granulocytes.
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Composition, Formation and Function of
Blood 47
Bone Marrow Microenvironment cont’d
Hemopoietic Cords (parenchyma) are the
extravascular portions of the bone marrow and the site of
blood cell production
Sinuses (vascular spaces) of the marrow are lined
with specialized endothelial cells, which prevent the
premature escape of immature cells into the peripheral
blood.
The basal lamina is incomplete, allowing mature cells to
pass through the wall of the sinuses.
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Composition, Formation and Function of
Blood 48
Hemopoietic Cords (parenchyma) are the
extravascular portions of the bone marrow and the site of
blood cell production
Sinuses (vascular spaces) of the marrow are lined
with specialized endothelial cells, which prevent the
premature escape of immature cells into the peripheral
blood.
The basal lamina is incomplete, allowing mature cells to
pass through the wall of the sinuses.
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Composition, Formation and Function of
Blood 48
Bone Marrow Microenvironment cont’d
Stromal Cells compose the supportive tissues of the
bone marrow. Some of these cells produce hemopoietic
growth factors. Examples include:
Adventitial (reticular) cells:
Are modified fibroblasts that produce the reticulin
framework of the bone marrow
Macrophages:
Produce hemopoietic growth factors
store iron for hemoglobin production, and
carry out phagocytosis of debris
Adipocytes: Store energy in the form of fat
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Composition, Formation and Function of
Blood 49
Stromal Cells compose the supportive tissues of the
bone marrow. Some of these cells produce hemopoietic
growth factors. Examples include:
Adventitial (reticular) cells:
Are modified fibroblasts that produce the reticulin
framework of the bone marrow
Macrophages:
Produce hemopoietic growth factors
store iron for hemoglobin production, and
carry out phagocytosis of debris
Adipocytes: Store energy in the form of fat
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Composition, Formation and Function of
Blood 49
2.4.3. Regulation of Hemopoiesis
hemopoiesis is maintained in a steady state in
which production of mature cells equals cell loss
Increased demands for cells as a consequence
of disease or physiologic change are met by
increased cell production.
system subject to some form of feedback control
which could be exerted by humoral factors, e.g.,
erythropoietin
colony-stimulating factors
growth factors
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Composition, Formation and Function of
Blood 50
hemopoiesis is maintained in a steady state in
which production of mature cells equals cell loss
Increased demands for cells as a consequence
of disease or physiologic change are met by
increased cell production.
system subject to some form of feedback control
which could be exerted by humoral factors, e.g.,
erythropoietin
colony-stimulating factors
growth factors
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Composition, Formation and Function of
Blood 50
Feed back control e.g.
Increased destruction of red blood cells
(as in hemolytic anemia)
Low blood hemoglobin level
Tissue hypoxia
stimulation of increased erythropoietin
production by the kidneys
Increase in the rate at which committed
progenitor cells divide and differentiate
Hemoglobin level brought to normal7/24/2024
Composition, Formation and Function of
Blood 51
Increased destruction of red blood cells
(as in hemolytic anemia)
Low blood hemoglobin level
Tissue hypoxia
stimulation of increased erythropoietin
production by the kidneys
Increase in the rate at which committed
progenitor cells divide and differentiate
Hemoglobin level brought to normal7/24/2024
Composition, Formation and Function of
Blood 51
Hemopoietic Growth Factors
Factor Function
StemCellGrowth
Factor(Steelfactor)
Stimulatespluripotenthematopoieticstemcells(hemocytoblasts)
Interleukin-3
(multi-CSF*)
Stimulatespluripotenthematopoieticstemcellsandprogenitors
ofeosinophils,neutrophils,basophils,monocytes,andplatelets
Granulocyte-
MacrophageCSF
(GM-CSF)
Stimulatesdevelopmentoferythrocytes,platelets,granulocytes
(eosinophils,neutrophils,andbasophiles,),andmonocytes.
MacrophageCSF
(M-CSF)
Stimulatesdevelopmentofmonocytesandmacrophages
GranulocyteCSF
(G-CSF)
Stimulatesdevelopmentofneutrophils
Interleukin-5 Stimulatesdevelopmentofeosinophils
Interleukin-7 StimulatesdevelopmentofBlymphocytes
*CSF=Colonystimulatingfactor
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Composition, Formation and Function of
Blood 52
Factor Function
StemCellGrowth
Factor(Steelfactor)
Stimulatespluripotenthematopoieticstemcells(hemocytoblasts)
Interleukin-3
(multi-CSF*)
Stimulatespluripotenthematopoieticstemcellsandprogenitors
ofeosinophils,neutrophils,basophils,monocytes,andplatelets
Granulocyte-
MacrophageCSF
(GM-CSF)
Stimulatesdevelopmentoferythrocytes,platelets,granulocytes
(eosinophils,neutrophils,andbasophiles,),andmonocytes.
MacrophageCSF
(M-CSF)
Stimulatesdevelopmentofmonocytesandmacrophages
GranulocyteCSF
(G-CSF)
Stimulatesdevelopmentofneutrophils
Interleukin-5 Stimulatesdevelopmentofeosinophils
Interleukin-7 StimulatesdevelopmentofBlymphocytes
*CSF=Colonystimulatingfactor
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Composition, Formation and Function of
Blood 52
Hemopoietic Growth Factors and site
of action
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Composition, Formation and Function of
Blood 53
of action
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Composition, Formation and Function of
Blood 53
Summary of Hematopoiesis showing site of action of
growth factors
GEMM=
Granulocyte/erythroid/m
onocyte/megakaryocyte
precursor
GM=
Granulocyte/monocyte
precursor
GM-CSF= Granulocyte-
macrophage colony-
stimulating factor
G-CSF= Granulocyte
colony stimulating factor
IL-2= Interleukin 2
IL-3= Interleukin 3
IL-5= Interleukin 5
IL-6= Interleukin 6
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Composition, Formation and Function of
Blood 54
growth factors
GEMM=
Granulocyte/erythroid/m
onocyte/megakaryocyte
precursor
GM=
Granulocyte/monocyte
precursor
GM-CSF= Granulocyte-
macrophage colony-
stimulating factor
G-CSF= Granulocyte
colony stimulating factor
IL-2= Interleukin 2
IL-3= Interleukin 3
IL-5= Interleukin 5
IL-6= Interleukin 6
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Composition, Formation and Function of
Blood 54
2.4.4. Maturation Characteristics
Blood cells go through maturation stages in the bone
marrow and are released into the blood at maturity to
perform their function
In any cell series, a progression of cells exists between
the most immature ‘blast’ cell and the mature cells
Sometimes, it is difficult to know what stage is
represented by a particular cell
The general rule is to identify the cell as themost
mature form.
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Composition, Formation and Function of
Blood 55
Blood cells go through maturation stages in the bone
marrow and are released into the blood at maturity to
perform their function
In any cell series, a progression of cells exists between
the most immature ‘blast’ cell and the mature cells
Sometimes, it is difficult to know what stage is
represented by a particular cell
The general rule is to identify the cell as themost
mature form.
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Composition, Formation and Function of
Blood 55
Identification of cells
Main features to identify cells on a Wright’s-stained
smear are:
Size of the cell
Nuclear-cytoplasmic ratio
Nuclear characteristics
Chromatin pattern
Nuclear shape
Presence of nucleoli
Cytoplasmic characteristics
Color
Granulation
Vacuoles
Shape
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Composition, Formation and Function of
Blood 56
Main features to identify cells on a Wright’s-stained
smear are:
Size of the cell
Nuclear-cytoplasmic ratio
Nuclear characteristics
Chromatin pattern
Nuclear shape
Presence of nucleoli
Cytoplasmic characteristics
Color
Granulation
Vacuoles
Shape
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Composition, Formation and Function of
Blood 56
Identification of cells cont’d
Changes With maturation:
Sizeof the cell decreases
Nuclear:cytoplasmic ratio decreases from 4:1 or 3:1 to
2:1 or 1:1 in most cases
Exceptions:
erythrocytes and thrombocytes have no nuclei
Small lymphocytes frequently retain the original
ratio
Nuclear characteristics
Chromatinpattern becomes more coarse and dense
Nuclear shapechanges to many lobes or segments
(in Granulocytes)
Nucleolidisappear
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Composition, Formation and Function of
Blood 57
Changes With maturation:
Sizeof the cell decreases
Nuclear:cytoplasmic ratio decreases from 4:1 or 3:1 to
2:1 or 1:1 in most cases
Exceptions:
erythrocytes and thrombocytes have no nuclei
Small lymphocytes frequently retain the original
ratio
Nuclear characteristics
Chromatinpattern becomes more coarse and dense
Nuclear shapechanges to many lobes or segments
(in Granulocytes)
Nucleolidisappear
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Composition, Formation and Function of
Blood 57
Changes With maturation cont’d
Cytoplasmic characteristics
Colorchanges from deep blue color in the blast
stage to:
lighter blue (e.g. lymphocytes)
blue-gray (e.g. moncytes) or
pink (e.g. RBC)
Granulation: in the granulocytic series changes
from no granules in the blast stage to non-specific
granules then to specific granules
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Composition, Formation and Function of
Blood 58
Cytoplasmic characteristics
Colorchanges from deep blue color in the blast
stage to:
lighter blue (e.g. lymphocytes)
blue-gray (e.g. moncytes) or
pink (e.g. RBC)
Granulation: in the granulocytic series changes
from no granules in the blast stage to non-specific
granules then to specific granules
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Composition, Formation and Function of
Blood 58
Changes With maturation cont’d
Cytoplasmic characteristics cont’d
Vacuoles: vacuolation increases as the white cells
age (except for monocytes which frequently have
vacuoles throughout their life cycle)
Shape: change of shape seen in the
megakaryocyte. It has more irregular outline
In identifying of cells, examinemore systematically
by assessing various maturational features
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Composition, Formation and Function of
Blood 59
Cytoplasmic characteristics cont’d
Vacuoles: vacuolation increases as the white cells
age (except for monocytes which frequently have
vacuoles throughout their life cycle)
Shape: change of shape seen in the
megakaryocyte. It has more irregular outline
In identifying of cells, examinemore systematically
by assessing various maturational features
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Composition, Formation and Function of
Blood 59
Blast Cell Characteristics
In blood cells developmental stages, the earliest
morphologically identifiable precursor is the blast cell
Blast cell:
is a large cell
has round nucleus with fine chromatin and nucleoli,
has small amount of dark blue (Wright’s stain)
cytoplasm,
is10-20 μm in diameter with high nuclear/cytoplasmic
(N/C) ratio
Additional tests are needed to identify blasts in malignant
situations, such as the leukemias.
The number of nucleoli varies depending on the cell type,
as in the following examples:
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Composition, Formation and Function of
Blood 60
In blood cells developmental stages, the earliest
morphologically identifiable precursor is the blast cell
Blast cell:
is a large cell
has round nucleus with fine chromatin and nucleoli,
has small amount of dark blue (Wright’s stain)
cytoplasm,
is10-20 μm in diameter with high nuclear/cytoplasmic
(N/C) ratio
Additional tests are needed to identify blasts in malignant
situations, such as the leukemias.
The number of nucleoli varies depending on the cell type,
as in the following examples:
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Composition, Formation and Function of
Blood 60
Blast Cell Characteristics cont’d
Myeloblast: contains 1-5 nucleoli
Lymphoblast: 1-2 nucleoli
Monoblast: 1-2 nucleoli, but occasionally 3-4
Erythroblast may have up to 2 that may stain darker
than other types of blast cells
Megakaryoblast: has 1-5 nucleoli
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Composition, Formation and Function of
Blood 61
Myeloblast: contains 1-5 nucleoli
Lymphoblast: 1-2 nucleoli
Monoblast: 1-2 nucleoli, but occasionally 3-4
Erythroblast may have up to 2 that may stain darker
than other types of blast cells
Megakaryoblast: has 1-5 nucleoli
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Composition, Formation and Function of
Blood 61
Production Of Specific Cell Lines:
Erythrocyte Production (Erythropoiesis)
Erythropoiesis is the production of red cells
Begins with the development of primitive erythrocytes in
the embryonic yolk sac
Basic substances needed: are amino acids (proteins),
iron, Vit B12, Vit B6, folic acid and the trace minerals
cobalt and nickel
Regulated by erythropoietin, a glycoprotein primarily
produced by the kidneys in response to tissue hypoxia.
(10-15% production of erythropoietin occurs in the liver)
Androgen and thyroid hormones can also stimulate
erythropoiesis
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Composition, Formation and Function of
Blood 62
Erythrocyte Production (Erythropoiesis)
Erythropoiesis is the production of red cells
Begins with the development of primitive erythrocytes in
the embryonic yolk sac
Basic substances needed: are amino acids (proteins),
iron, Vit B12, Vit B6, folic acid and the trace minerals
cobalt and nickel
Regulated by erythropoietin, a glycoprotein primarily
produced by the kidneys in response to tissue hypoxia.
(10-15% production of erythropoietin occurs in the liver)
Androgen and thyroid hormones can also stimulate
erythropoiesis
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Composition, Formation and Function of
Blood 62
Erythropoiesis cont’d
Erythroid precursors are derived from the CFU-GEMM
The earliest progenitor committed exclusively to
erythroid lineage is the burst-forming unit–erythroid
(BFU-E)
This stage is followed by the colony-forming unit–
erythroid(CFU-E)
The earliest recognizable RBC precursor is the
proerythroblast, which is characterized by fine
nuclear chromatin and intensely blue cytoplasm
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Composition, Formation and Function of
Blood 63
Erythroid precursors are derived from the CFU-GEMM
The earliest progenitor committed exclusively to
erythroid lineage is the burst-forming unit–erythroid
(BFU-E)
This stage is followed by the colony-forming unit–
erythroid(CFU-E)
The earliest recognizable RBC precursor is the
proerythroblast, which is characterized by fine
nuclear chromatin and intensely blue cytoplasm
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Blood 63
Pronormoblast/Proerythroblast
(Rubriblast)
Pronormoblast is the earliest morphologically
recognizable red cell precursor.
Size: 20-25m in diameter.
Nucleus:
large, round to oval
contains 0-2 light bluish, indistinct nucleoli
The chromatin forms a delicate network giving the
nucleus a reticular appearance.
Cytoplasm:
there is a narrow (about 2m) rim of dark marine blue
cytoplasm
There may be a perinuclear halo
The N:C ratio is about 4:1
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Composition, Formation and Function of
Blood 64
(Rubriblast)
Pronormoblast is the earliest morphologically
recognizable red cell precursor.
Size: 20-25m in diameter.
Nucleus:
large, round to oval
contains 0-2 light bluish, indistinct nucleoli
The chromatin forms a delicate network giving the
nucleus a reticular appearance.
Cytoplasm:
there is a narrow (about 2m) rim of dark marine blue
cytoplasm
There may be a perinuclear halo
The N:C ratio is about 4:1
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Composition, Formation and Function of
Blood 64
Basophilic Normoblast/prorubricyte
Size:16-18m in diameter.
Nucleus:
Round or oval and smaller than in the previous stage
The chromatin forms delicate clumps so that its
pattern appears to be denser and coarser than that
seen in the pronormoblast.
No nucleoli are seen.
Cytoplasm:
Slightly wider ring of deep blue cytoplasm than in the
pronormoblast
There may be a perinuclear halo
The N:C ratio is about 4:1
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Composition, Formation and Function of
Blood 65
Size:16-18m in diameter.
Nucleus:
Round or oval and smaller than in the previous stage
The chromatin forms delicate clumps so that its
pattern appears to be denser and coarser than that
seen in the pronormoblast.
No nucleoli are seen.
Cytoplasm:
Slightly wider ring of deep blue cytoplasm than in the
pronormoblast
There may be a perinuclear halo
The N:C ratio is about 4:1
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Composition, Formation and Function of
Blood 65
Polychromatophilic Normoblast/
Rubricyte
Size:12-14m in diameter
Nucleus:
smaller than in the previous cell
has a thick membrane
contains coarse chromatin masses
Cytoplasm:
as the nucleus is shrinking the band of cytoplasm is
widening
It has a lilac (polychromatic) tint because of beginning
of hemoglobinization (blue layered with tinges of
orange red
The N:C ratio varies from 2:1 to 4:1.
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Composition, Formation and Function of
Blood 66
Rubricyte
Size:12-14m in diameter
Nucleus:
smaller than in the previous cell
has a thick membrane
contains coarse chromatin masses
Cytoplasm:
as the nucleus is shrinking the band of cytoplasm is
widening
It has a lilac (polychromatic) tint because of beginning
of hemoglobinization (blue layered with tinges of
orange red
The N:C ratio varies from 2:1 to 4:1.
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Blood 66
Orthochromatic Normoblast
Size:10-12m in diameter.
Nucleus:
small and central or eccentric with condensed homogeneous
structureless chromatin.
It is ultimately lost by extrusion.
Cytoplasm:
a wide rim of pink cytoplasm surrounds the shrinking nucleus
The entire cell is somewhat smaller than the polychromatophilic
normoblast
The N:Cratio varies from 1:2-1:3.
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Blood 67
Size:10-12m in diameter.
Nucleus:
small and central or eccentric with condensed homogeneous
structureless chromatin.
It is ultimately lost by extrusion.
Cytoplasm:
a wide rim of pink cytoplasm surrounds the shrinking nucleus
The entire cell is somewhat smaller than the polychromatophilic
normoblast
The N:Cratio varies from 1:2-1:3.
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Blood 67
Reticulocyte
Is a large somewhat basophilic anuclear cell formed
after the expulsion of the nucleus
Remnants of RNA visualized as reticulum,
filamentous structure, in chains or as a single dotted
structure when stained with new methylene blue
In Wright’s stain seen as large bluish-red cell,
Polychromatophilic macrocytes
This network is responsible for the name of the cell
and consists of precipitated ribosomes.
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Composition, Formation and Function of
Blood 68
Is a large somewhat basophilic anuclear cell formed
after the expulsion of the nucleus
Remnants of RNA visualized as reticulum,
filamentous structure, in chains or as a single dotted
structure when stained with new methylene blue
In Wright’s stain seen as large bluish-red cell,
Polychromatophilic macrocytes
This network is responsible for the name of the cell
and consists of precipitated ribosomes.
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Composition, Formation and Function of
Blood 68
Reticulocyte cont’d
As the bone marrow reticulocyte matures the
network becomes smaller, finer, thinner, and finally
within 3 days disappears
About 1% of reticulocytes enter the peripheral
circulation
Size:8-10m in diameter
Nucleus:the reticulocyte does not contain a
nucleus.
Cytoplasm:faintly basophilic (blue)
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Composition, Formation and Function of
Blood 69
As the bone marrow reticulocyte matures the
network becomes smaller, finer, thinner, and finally
within 3 days disappears
About 1% of reticulocytes enter the peripheral
circulation
Size:8-10m in diameter
Nucleus:the reticulocyte does not contain a
nucleus.
Cytoplasm:faintly basophilic (blue)
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Blood 69
Mature erythrocyte
Size:7-8m in diameter
Cytoplasm:
Biconcave disc-shaped cell filled with hemoglobin
orange-pink with a pale staining center occupying
one-third of the cell area (central pallor)
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Size:7-8m in diameter
Cytoplasm:
Biconcave disc-shaped cell filled with hemoglobin
orange-pink with a pale staining center occupying
one-third of the cell area (central pallor)
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Composition, Formation and Function of
Blood 70
Erythropoiesis cont’d
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Composition, Formation and Function of
Blood 71
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Composition, Formation and Function of
Blood 71
Regulation of Erythropoiesis
Erythropoietic activity is regulated by the hormone
erythropoietin which in turn is regulated by the level of
tissue oxygen
Erythropoietin:
a heavily glycosylated hormone (40% carbohydrate)
with a polypeptide of 165 amino acids
Normally, 90% of the hormone is produced in the
peritubular (juxtaglomerular) complex of the kidneys
10% in the liver and elsewhere
There are no preformed stores of erythropoietin
the stimulus to the production of the hormone is the
oxygen tension in the tissues (including the kidneys)
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Erythropoietic activity is regulated by the hormone
erythropoietin which in turn is regulated by the level of
tissue oxygen
Erythropoietin:
a heavily glycosylated hormone (40% carbohydrate)
with a polypeptide of 165 amino acids
Normally, 90% of the hormone is produced in the
peritubular (juxtaglomerular) complex of the kidneys
10% in the liver and elsewhere
There are no preformed stores of erythropoietin
the stimulus to the production of the hormone is the
oxygen tension in the tissues (including the kidneys)
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Composition, Formation and Function of
Blood 72
Regulation cont’d
Erythropoietin production increases when there is tissue
hypoxia due to:
Low blood hemoglobin levels (e.g., anemia)
Impaired oxygen release from hemoglobin for some
structural or metabolic defects (e.g., the
hemoglobinopathies)
Poor blood flow as in severe circulatory defects
Low atmospheric oxygen (e.g., high altitude)
The produced erythropoietin stimulates erythropoiesis
by increasing the number of progenitor cells committed
to erythropoiesis
7/24/2024
Composition, Formation and Function of
Blood 73
Erythropoietin production increases when there is tissue
hypoxia due to:
Low blood hemoglobin levels (e.g., anemia)
Impaired oxygen release from hemoglobin for some
structural or metabolic defects (e.g., the
hemoglobinopathies)
Poor blood flow as in severe circulatory defects
Low atmospheric oxygen (e.g., high altitude)
The produced erythropoietin stimulates erythropoiesis
by increasing the number of progenitor cells committed
to erythropoiesis
7/24/2024
Composition, Formation and Function of
Blood 73
Regulation cont’d
Erythropoietin accelerates nearly every stage of red cell
production:
It increases the rate at which the committed stem cells
divide and differentiate
It increases the rate of cell division
It speeds up the incorporation of iron into the
developing red cells
It shortens the time cell maturation, and
It hastens the entry of reticulocytes into the peripheral
circulation
7/24/2024
Composition, Formation and Function of
Blood 74
Erythropoietin accelerates nearly every stage of red cell
production:
It increases the rate at which the committed stem cells
divide and differentiate
It increases the rate of cell division
It speeds up the incorporation of iron into the
developing red cells
It shortens the time cell maturation, and
It hastens the entry of reticulocytes into the peripheral
circulation
7/24/2024
Composition, Formation and Function of
Blood 74
Regulation cont’d
On the other hand, reduced erythropoietin activity is due
to increased oxygen supply to the tissues resulted from:
Increased red cell mass (e.g., polycythemia)
Ability of hemoglobin to release oxygen to the tissues
more readily than normal
7/24/2024
Composition, Formation and Function of
Blood 75
On the other hand, reduced erythropoietin activity is due
to increased oxygen supply to the tissues resulted from:
Increased red cell mass (e.g., polycythemia)
Ability of hemoglobin to release oxygen to the tissues
more readily than normal
7/24/2024
Composition, Formation and Function of
Blood 75
Ineffective erythropoiesis/Intramedullary
hemolysis
Erythropoiesis is not entirely efficient since 10-15% of
eryhtropoiesis in a normal bone marrow is ineffective,
the developing erythroblasts die within the marrow
without producing mature cells
Together with their hemoglobin, they are ingested by
macrophages
This process is substantially increased in a number of
anemias.
7/24/2024
Composition, Formation and Function of
Blood 76
hemolysis
Erythropoiesis is not entirely efficient since 10-15% of
eryhtropoiesis in a normal bone marrow is ineffective,
the developing erythroblasts die within the marrow
without producing mature cells
Together with their hemoglobin, they are ingested by
macrophages
This process is substantially increased in a number of
anemias.
7/24/2024
Composition, Formation and Function of
Blood 76
Megaloblastic Erythropoiesis
Megaloblasts are pathologic cells that are not present
in the normal adult bone marrow
their appearance is caused by a deficiency in vitamin
B
12or folic acid or both
Deficiency of these vitamins leads to defective DNA
synthesis
In megaloblastic erythropoiesis, the nucleus and
cytoplasm do not mature at the same rate
Thus nuclear maturation lags behind cytoplasmic
hemoglobinization
7/24/2024
Composition, Formation and Function of
Blood 77
Megaloblasts are pathologic cells that are not present
in the normal adult bone marrow
their appearance is caused by a deficiency in vitamin
B
12or folic acid or both
Deficiency of these vitamins leads to defective DNA
synthesis
In megaloblastic erythropoiesis, the nucleus and
cytoplasm do not mature at the same rate
Thus nuclear maturation lags behind cytoplasmic
hemoglobinization
7/24/2024
Composition, Formation and Function of
Blood 77
Megaloblastic Erythropoiesis cont’d
This nuclear lag appears to be caused by
interference with DNA synthesis while RNA and
protein synthesis continue at a normal rate
The end stage of megaloblastic maturation is the
megalocyte which is abnormally large in size (9-
12m in diameter).
7/24/2024
Composition, Formation and Function of
Blood 78
This nuclear lag appears to be caused by
interference with DNA synthesis while RNA and
protein synthesis continue at a normal rate
The end stage of megaloblastic maturation is the
megalocyte which is abnormally large in size (9-
12m in diameter).
7/24/2024
Composition, Formation and Function of
Blood 78
Formation of white blood cells
(Leukopoiesis)
Granulopoiesis and Monocytopoiesis
Neutrophils and monocytes arise form a common
committed progenitor
The myeloblast is the earliest recognizable precursor
in the granulocytic series
on division the myeloblast gives rise to promyelocyte
The promyelocyte contain abundant dark “azurophilic”
primary granules that overlie both nucleus and
cytoplasm
with subsequent cell divisions these primary granules
become progressively diluted by the secondary, less
conspicuous “neutrophilic” granules that are
characteristic of the mature cells. 7/24/2024
Composition, Formation and Function of
Blood 79
(Leukopoiesis)
Granulopoiesis and Monocytopoiesis
Neutrophils and monocytes arise form a common
committed progenitor
The myeloblast is the earliest recognizable precursor
in the granulocytic series
on division the myeloblast gives rise to promyelocyte
The promyelocyte contain abundant dark “azurophilic”
primary granules that overlie both nucleus and
cytoplasm
with subsequent cell divisions these primary granules
become progressively diluted by the secondary, less
conspicuous “neutrophilic” granules that are
characteristic of the mature cells. 7/24/2024
Composition, Formation and Function of
Blood 79
Granulopoiesis cont’d
This concomitant cell division and maturation
sequence continues form promyelocytes to early
myelocytes, late myelocytes, and then
metamyelocytes
As the metamyelocyte matures the nucleus becomes
more attenuated and the cell is then called a “band” or
“stab” form
Subsequent segmentation of the nucleus gives rise to
the mature neutrophil or polymorphonuclear leucocyte.
7/24/2024
Composition, Formation and Function of
Blood 80
This concomitant cell division and maturation
sequence continues form promyelocytes to early
myelocytes, late myelocytes, and then
metamyelocytes
As the metamyelocyte matures the nucleus becomes
more attenuated and the cell is then called a “band” or
“stab” form
Subsequent segmentation of the nucleus gives rise to
the mature neutrophil or polymorphonuclear leucocyte.
7/24/2024
Composition, Formation and Function of
Blood 80
Granulopoiesis cont’d
The average interval from the initiation of
granulopoiesis to the entry of the mature neutrophil
into the circulation is 10 to 13 days.
The mature neutrophil remains in the circulation for
only about 10 to 14 hours before entering the tissue,
where it soon dies after performing its phagocytic
function.
7/24/2024
Composition, Formation and Function of
Blood 81
The average interval from the initiation of
granulopoiesis to the entry of the mature neutrophil
into the circulation is 10 to 13 days.
The mature neutrophil remains in the circulation for
only about 10 to 14 hours before entering the tissue,
where it soon dies after performing its phagocytic
function.
7/24/2024
Composition, Formation and Function of
Blood 81
Myeloblast
is the earliest recognizable precursor in the granulocytic
series
Size and shape:
12-20 m in diameter
round or oval in shape.
Nucleus:
large, oval or round, and eccentric.
has a thin nuclear membrane
has finely dispersed, granular, purplish, pale chromatin
with well-demarcated, pink, evenly distributed
parachromatin
2-5 light blue-gray nucleoli surrounded by dense
chromatin are seen
7/24/2024
Composition, Formation and Function of
Blood 82
is the earliest recognizable precursor in the granulocytic
series
Size and shape:
12-20 m in diameter
round or oval in shape.
Nucleus:
large, oval or round, and eccentric.
has a thin nuclear membrane
has finely dispersed, granular, purplish, pale chromatin
with well-demarcated, pink, evenly distributed
parachromatin
2-5 light blue-gray nucleoli surrounded by dense
chromatin are seen
7/24/2024
Composition, Formation and Function of
Blood 82
Myeloblast cont’d
Cytoplasm:
is small in comparison to the nucleus
High N:C ratio of 7:1
stains basophilic (bluish) and shows a small indistinct,
paranuclear, lighter staining halo (golgi apparatus)
the cytoplasm lacks granules.
7/24/2024
Composition, Formation and Function of
Blood 83
Cytoplasm:
is small in comparison to the nucleus
High N:C ratio of 7:1
stains basophilic (bluish) and shows a small indistinct,
paranuclear, lighter staining halo (golgi apparatus)
the cytoplasm lacks granules.
7/24/2024
Composition, Formation and Function of
Blood 83
Promyelocyte
larger than the myeloblast
Size and Shape:
15-20m in diameter and round or oval in shape.
Nucleus:
still large but is beginning to shrink
round or oval, eccentric, possibly slightly indented,
and surrounded by a thin membrane
1-3 nucleoli may be faintly visible within the finely of
granular purplish pale chromatin,
7/24/2024
Composition, Formation and Function of
Blood 84
larger than the myeloblast
Size and Shape:
15-20m in diameter and round or oval in shape.
Nucleus:
still large but is beginning to shrink
round or oval, eccentric, possibly slightly indented,
and surrounded by a thin membrane
1-3 nucleoli may be faintly visible within the finely of
granular purplish pale chromatin,
7/24/2024
Composition, Formation and Function of
Blood 84
Promyelocyte cont’d
Cytoplasm:
pale blue
some what larger than in myeloblast, so the
nuclear/cytoplasmic ratio is 4:1 or 5:1
the basophilia is not quite as intense as in
myeloblasts
contain abundant dark “azurophilic” primary granules
that overlie both nucleus and cytoplasm
these non-specific, peroxidase-containing azurophilic
granules are characteristic of the promyelocyte stage
of development
7/24/2024
Composition, Formation and Function of
Blood 85
Cytoplasm:
pale blue
some what larger than in myeloblast, so the
nuclear/cytoplasmic ratio is 4:1 or 5:1
the basophilia is not quite as intense as in
myeloblasts
contain abundant dark “azurophilic” primary granules
that overlie both nucleus and cytoplasm
these non-specific, peroxidase-containing azurophilic
granules are characteristic of the promyelocyte stage
of development
7/24/2024
Composition, Formation and Function of
Blood 85
Myelocyte
Is the last stage capable of cell division
Size and shape:
10-18m in diameter and round.
Nucleus:
Condensed, oval, slightly indented, and eccentric
The chromatin is coarse
Nucleoli are absent.
Cytoplasm:
Light pink and contains neutrophilic granules
(brownish)
Granules that may cover the nucleus and are
coarse in the younger cells but become finer as the
cell matures.
The N:C ratio is about 2:1 or 1.5:17/24/2024
Composition, Formation and Function of
Blood 86
Is the last stage capable of cell division
Size and shape:
10-18m in diameter and round.
Nucleus:
Condensed, oval, slightly indented, and eccentric
The chromatin is coarse
Nucleoli are absent.
Cytoplasm:
Light pink and contains neutrophilic granules
(brownish)
Granules that may cover the nucleus and are
coarse in the younger cells but become finer as the
cell matures.
The N:C ratio is about 2:1 or 1.5:17/24/2024
Composition, Formation and Function of
Blood 86
Metamyelocyte (Juvenile cell)
Size and shape:
10-15m in diameter and round.
Nucleus:
Eccentric, condensed, and indented or kidney-shaped
The nuclear membrane is thick and heavy, and the
chromatin is concentrated into irregular thick and thin
areas.
Cytoplasm:
abundant and pale or pink
contains both specific and non-specific (few) granules
that in the neutrophilic metamylocytes vary in size,
whereas the basophilic and eosinophilic granules are
large and equal in size.
The NC ratio is 1:17/24/2024
Composition, Formation and Function of
Blood 87
Size and shape:
10-15m in diameter and round.
Nucleus:
Eccentric, condensed, and indented or kidney-shaped
The nuclear membrane is thick and heavy, and the
chromatin is concentrated into irregular thick and thin
areas.
Cytoplasm:
abundant and pale or pink
contains both specific and non-specific (few) granules
that in the neutrophilic metamylocytes vary in size,
whereas the basophilic and eosinophilic granules are
large and equal in size.
The NC ratio is 1:17/24/2024
Composition, Formation and Function of
Blood 87
Band Granulocyte (Stab Cell)
The juvenile cell or the band cell are the youngest
granulocytes normally found in the peripheral blood.
Size:9-15m in diameter
Nucleus:
elongated, curved and usually U shaped, but it may be
twisted
It is not segmented but may be slightly indented at one
two points
The chromatin is continuous thick and coarse, and
parachromatin is scanty.
Cytoplasm:
contains specific and a few non-specific granules
is pink or colorless.
The N:C ratio is 1:2
7/24/2024
Composition, Formation and Function of
Blood 88
The juvenile cell or the band cell are the youngest
granulocytes normally found in the peripheral blood.
Size:9-15m in diameter
Nucleus:
elongated, curved and usually U shaped, but it may be
twisted
It is not segmented but may be slightly indented at one
two points
The chromatin is continuous thick and coarse, and
parachromatin is scanty.
Cytoplasm:
contains specific and a few non-specific granules
is pink or colorless.
The N:C ratio is 1:2
7/24/2024
Composition, Formation and Function of
Blood 88
Segmented granulocyte
Size:
0-12m in diameter.
Nucleus:
eccentric with heavy, thick chromatin masses
It is divided into 2-5 lobes connected to each other by thin
bridges of chromatin membrane
The ratio of segmented to band forms is of clinical significance
and is normally about 10:1.
Cytoplasm:
abundant and slightly eosinophilic (pinkish) or colorless, and
contains specific granules
The neutrophilic granules are very fine in texture and do not
overlay the nucleus
The N:C is 1:2
7/24/2024
Composition, Formation and Function of
Blood 89
Size:
0-12m in diameter.
Nucleus:
eccentric with heavy, thick chromatin masses
It is divided into 2-5 lobes connected to each other by thin
bridges of chromatin membrane
The ratio of segmented to band forms is of clinical significance
and is normally about 10:1.
Cytoplasm:
abundant and slightly eosinophilic (pinkish) or colorless, and
contains specific granules
The neutrophilic granules are very fine in texture and do not
overlay the nucleus
The N:C is 1:2
7/24/2024
Composition, Formation and Function of
Blood 89
Eosinophilic Granulocyte and
Precursors
Eosinophils mature in the same manner as neutrophils.
The eosinophlic myeloblast is not recognizable as such.
In the eosinophilic promyelocyte stained preparation the
granule are at first bluish and later mature into orange
granules
The mature eosinophilic granules are
larger than neutrophilic granules
round or ovoid
prominent in the eosinophilic myelocyte.
7/24/2024
Composition, Formation and Function of
Blood 90
Precursors
Eosinophils mature in the same manner as neutrophils.
The eosinophlic myeloblast is not recognizable as such.
In the eosinophilic promyelocyte stained preparation the
granule are at first bluish and later mature into orange
granules
The mature eosinophilic granules are
larger than neutrophilic granules
round or ovoid
prominent in the eosinophilic myelocyte.
7/24/2024
Composition, Formation and Function of
Blood 90
Mature Eosinophil
Size and shape:
10-16m in diameter, slightly larger than a
segmented polymorphonuclear granulocyte.
Nucleus:
Eccentric
usually bilobed
rarely single-or tri-lobed and contains dense
chromatin masses.
Eosinophils with more than two nuclear lobes are
seen in
vitamin B
12and folic acid deficiency and
in allergic disorders.
7/24/2024
Composition, Formation and Function of
Blood 91
Size and shape:
10-16m in diameter, slightly larger than a
segmented polymorphonuclear granulocyte.
Nucleus:
Eccentric
usually bilobed
rarely single-or tri-lobed and contains dense
chromatin masses.
Eosinophils with more than two nuclear lobes are
seen in
vitamin B
12and folic acid deficiency and
in allergic disorders.
7/24/2024
Composition, Formation and Function of
Blood 91
Eosinophil cont’d
Cytoplasm:
densely filled with orange-pink specific granules.
The granules are
uniform in size
Large and individualized
do not cover the nucleus
Highly metabolic and contain histamine and other
substances
7/24/2024
Composition, Formation and Function of
Blood 92
Cytoplasm:
densely filled with orange-pink specific granules.
The granules are
uniform in size
Large and individualized
do not cover the nucleus
Highly metabolic and contain histamine and other
substances
7/24/2024
Composition, Formation and Function of
Blood 92
Basophilic Granulocyte and Precursors
The early maturation of the basophilic granulocyte is
similar to that of the neutrophlic granulocyte.
Mature Basophil
Size:
Somewhat smaller than eosiniphils
measuring 10-14m in diameter
Nucleus:
Indented giving rise to an S pattern.
It is difficult to see the nucleus because it contains less
chromatin and is masked by the cytoplasmic granules.
7/24/2024
Composition, Formation and Function of
Blood 93
The early maturation of the basophilic granulocyte is
similar to that of the neutrophlic granulocyte.
Mature Basophil
Size:
Somewhat smaller than eosiniphils
measuring 10-14m in diameter
Nucleus:
Indented giving rise to an S pattern.
It is difficult to see the nucleus because it contains less
chromatin and is masked by the cytoplasmic granules.
7/24/2024
Composition, Formation and Function of
Blood 93
Basophils cont’d
Cytoplasm:
Pale blue to pale pink
contains granules that often overlie the nucleus but
do not fill the cytoplasm as completely as the
eosinophilis granules do
7/24/2024
Composition, Formation and Function of
Blood 94
Cytoplasm:
Pale blue to pale pink
contains granules that often overlie the nucleus but
do not fill the cytoplasm as completely as the
eosinophilis granules do
7/24/2024
Composition, Formation and Function of
Blood 94
Monocytes and their Precursors
Monoblast
Since the monoblast cannot be differentiated from the
myeloblast on morphologic or histochemical criteria, one
may assume that the myeloblast can give rise to myeloid
and monocytic cells.
Size:15-20m in diameter.
Nucleus:
Round or oval and at times notched and indented
The chromatin is delicate blue to purple stippling with
small regular, pink, pale or blue parachromatin areas
The nucleoli (3-5 in number) are pale blue, large and
round
7/24/2024
Composition, Formation and Function of
Blood 95
Monoblast
Since the monoblast cannot be differentiated from the
myeloblast on morphologic or histochemical criteria, one
may assume that the myeloblast can give rise to myeloid
and monocytic cells.
Size:15-20m in diameter.
Nucleus:
Round or oval and at times notched and indented
The chromatin is delicate blue to purple stippling with
small regular, pink, pale or blue parachromatin areas
The nucleoli (3-5 in number) are pale blue, large and
round
7/24/2024
Composition, Formation and Function of
Blood 95
Monoblast cont’d
Cytoplasm:
Relatively large in amount
May contains a few azurophilic granules (rare)
Stains pale blue or gray
The cytoplasm filling the nucleus indentation is lighter
in color than the surrounding cytoplasm
The surrounding cytoplasm may contain Auer bodies.
7/24/2024
Composition, Formation and Function of
Blood 96
Cytoplasm:
Relatively large in amount
May contains a few azurophilic granules (rare)
Stains pale blue or gray
The cytoplasm filling the nucleus indentation is lighter
in color than the surrounding cytoplasm
The surrounding cytoplasm may contain Auer bodies.
7/24/2024
Composition, Formation and Function of
Blood 96
Promonocyte
Is the earliest monocytic cell recognizable as
belonging to the monocytic series
is capable of mitotic division
Its product, the mature monocyte, is only capable of
maturation into a macrophage
Size:
12-20m in diameter.
7/24/2024
Composition, Formation and Function of
Blood 97
Is the earliest monocytic cell recognizable as
belonging to the monocytic series
is capable of mitotic division
Its product, the mature monocyte, is only capable of
maturation into a macrophage
Size:
12-20m in diameter.
7/24/2024
Composition, Formation and Function of
Blood 97
Promonocyte cont’d
Nucleus:
Large
ovoid to round, convoluted, grooved, and indented
The chromatin forms a loose open network containing
a few larger clumps
there may be two or more nucleoli.
Cytoplasm:
sparse, gray-blue, contains fine azurophilic granules
N:C ratio is about 3:1
7/24/2024
Composition, Formation and Function of
Blood 98
Nucleus:
Large
ovoid to round, convoluted, grooved, and indented
The chromatin forms a loose open network containing
a few larger clumps
there may be two or more nucleoli.
Cytoplasm:
sparse, gray-blue, contains fine azurophilic granules
N:C ratio is about 3:1
7/24/2024
Composition, Formation and Function of
Blood 98
Monocyte
Size:
12-20m in diameter.
Nucleus:
Eccentric or central
Takes different shapes from brainy convolutions to
lobulated and S shaped (often lobulated)
The chromatin network consists of fine, pale, loose,
linear threads producing small areas of thickening
at their junctions
No nucleolus is seen
The overall impression is that of a pale nucleus
quite variable in shape.
7/24/2024
Composition, Formation and Function of
Blood 99
Size:
12-20m in diameter.
Nucleus:
Eccentric or central
Takes different shapes from brainy convolutions to
lobulated and S shaped (often lobulated)
The chromatin network consists of fine, pale, loose,
linear threads producing small areas of thickening
at their junctions
No nucleolus is seen
The overall impression is that of a pale nucleus
quite variable in shape.
7/24/2024
Composition, Formation and Function of
Blood 99
Monocyte cont’d
Cytoplasm:
Abundant, opaque, gray-blue with moderate
granules
unevenly stained and may be vacuolated
N:C ratio 1:1
7/24/2024
Composition, Formation and Function of
Blood 100
Cytoplasm:
Abundant, opaque, gray-blue with moderate
granules
unevenly stained and may be vacuolated
N:C ratio 1:1
7/24/2024
Composition, Formation and Function of
Blood 100
Lymphopoiesis
The precursor of the lymphocyte is believed to be the
primitive mulipotential stem cell that also gives rise to the
pluirpotenital myeloid stem cell for the granulocytic,
erythyroid, and megakaryocytic cell lines
Lymphoid precursor cells travel to specific sites
There, they differentiate into cells capable of either
expressing cell-mediated immune responses or
secreting immunoglobulins
The influence for the former type of differentiation in
humans is the thymus gland;
the resulting cells are defined as thymus-dependent
lymphocytes, or T cells.
7/24/2024
Composition, Formation and Function of
Blood 101
The precursor of the lymphocyte is believed to be the
primitive mulipotential stem cell that also gives rise to the
pluirpotenital myeloid stem cell for the granulocytic,
erythyroid, and megakaryocytic cell lines
Lymphoid precursor cells travel to specific sites
There, they differentiate into cells capable of either
expressing cell-mediated immune responses or
secreting immunoglobulins
The influence for the former type of differentiation in
humans is the thymus gland;
the resulting cells are defined as thymus-dependent
lymphocytes, or T cells.
7/24/2024
Composition, Formation and Function of
Blood 101
Lymphopoiesis cont’d
The site of the formation of lymphocytes with the
potential to differentiate into antibody-producing cells
has not been identified in humans, although it may be
the tonsils or bone marrow
In chickens it is the bursa of Fabricius, and for this
reason these bursa-dependent lymphocytes are called
B cells
B cells ultimately differentiate into morphologically
distinct, antibody-producing cells called plasma cells.
7/24/2024
Composition, Formation and Function of
Blood 102
The site of the formation of lymphocytes with the
potential to differentiate into antibody-producing cells
has not been identified in humans, although it may be
the tonsils or bone marrow
In chickens it is the bursa of Fabricius, and for this
reason these bursa-dependent lymphocytes are called
B cells
B cells ultimately differentiate into morphologically
distinct, antibody-producing cells called plasma cells.
7/24/2024
Composition, Formation and Function of
Blood 102
Lymphocytes and Precursors
Lymphoblast
Size:
10-20m in diameter.
Nucleus:
Central, round or oval
the chromatin has a stippled pattern
The nuclear membrane is distinct and one or two pink
nucleoli are present and are usually well outlined
Cytoplasm:
Non-granular and sky blue
may have a deep blue border
It forms a thin perinuclear ring.
N:C ratio 4:1
7/24/2024
Composition, Formation and Function of
Blood 103
Lymphoblast
Size:
10-20m in diameter.
Nucleus:
Central, round or oval
the chromatin has a stippled pattern
The nuclear membrane is distinct and one or two pink
nucleoli are present and are usually well outlined
Cytoplasm:
Non-granular and sky blue
may have a deep blue border
It forms a thin perinuclear ring.
N:C ratio 4:1
7/24/2024
Composition, Formation and Function of
Blood 103
Prolymphocyte
Size:
9-18m in diameter.
Nucleus:
Oval but slightly indented
may show a faint nucleolus
The chromatin is slightly condensed into a mosaic
pattern.
Cytoplasm:
Gray blue, mostly blue at the edges
may show a few azurophilic granules and vacuoles
7/24/2024
Composition, Formation and Function of
Blood 104
Size:
9-18m in diameter.
Nucleus:
Oval but slightly indented
may show a faint nucleolus
The chromatin is slightly condensed into a mosaic
pattern.
Cytoplasm:
Gray blue, mostly blue at the edges
may show a few azurophilic granules and vacuoles
7/24/2024
Composition, Formation and Function of
Blood 104
Lymphocytes
There are two varieties
the morphologic difference lies mainly in the amount of
cytoplasm
Small Lymphocyte
Size:
7-18m in diameter.
Nucleus:
round or oval to kidney shaped
occupies nine tenths of the cell diameter
The chromatin is dense and clumped
A poorly defined nucleolus may be seen.
7/24/2024
Composition, Formation and Function of
Blood 105
There are two varieties
the morphologic difference lies mainly in the amount of
cytoplasm
Small Lymphocyte
Size:
7-18m in diameter.
Nucleus:
round or oval to kidney shaped
occupies nine tenths of the cell diameter
The chromatin is dense and clumped
A poorly defined nucleolus may be seen.
7/24/2024
Composition, Formation and Function of
Blood 105
Lymphocytes cont’d
Cytoplasm:
It is basophilic and forms a narrow rim around the
nucleus or at times a thin blue line only with few
azurophilic red granules
N:C ratio is 4:1
Distinguishing characteristics of a small lymphocyte:
clumping of chromatin around the nuclear membrane
may help to distinguish this from a nucleated red cell
7/24/2024
Composition, Formation and Function of
Blood 106
Cytoplasm:
It is basophilic and forms a narrow rim around the
nucleus or at times a thin blue line only with few
azurophilic red granules
N:C ratio is 4:1
Distinguishing characteristics of a small lymphocyte:
clumping of chromatin around the nuclear membrane
may help to distinguish this from a nucleated red cell
7/24/2024
Composition, Formation and Function of
Blood 106
Large Lymphocyte
Size:
9-12m in diameter
Nucleus:
the dense, oval, or slightly indented nucleus is
centrally or eccentricity located
Its chromatin is dense and clumped.
Cytoplasm:
Abundant
gray to pale blue, unevenly stained, and streaked at
times
A few azurophilic granules are contained in 30-60% of
the cells.
These are large granular lymphocytes (LGLs).
7/24/2024
Composition, Formation and Function of
Blood 107
Size:
9-12m in diameter
Nucleus:
the dense, oval, or slightly indented nucleus is
centrally or eccentricity located
Its chromatin is dense and clumped.
Cytoplasm:
Abundant
gray to pale blue, unevenly stained, and streaked at
times
A few azurophilic granules are contained in 30-60% of
the cells.
These are large granular lymphocytes (LGLs).
7/24/2024
Composition, Formation and Function of
Blood 107
Large Lymphocyte cont’d
N:C ratio is 4:1
Distinguishing characteristics: Cytoplasm is mor
abundant with tendency for azurophilic granules
7/24/2024
Composition, Formation and Function of
Blood 108
N:C ratio is 4:1
Distinguishing characteristics: Cytoplasm is mor
abundant with tendency for azurophilic granules
7/24/2024
Composition, Formation and Function of
Blood 108
Formation of platelets (Thrombopoiesis)
Platelets are produced in the bone marrow by
fragmentation of the cytoplasm of megakaryocytes
The precursor of the megakaryocyte-the
megakaryoblast-arises by a process of differentiation for
the hemopoietic stem cell
The megakaryoblast produces megakaryocytes,
distinctive large cell that are the source of circulating
platelets.
Megakaryocyte development takes place in a unique
manner.
The nuclear DNA of megakaryoblasts and early
megakaryocytes reduplicates without cell division, a
process known as endomitosis.
7/24/2024
Composition, Formation and Function of
Blood 109
Platelets are produced in the bone marrow by
fragmentation of the cytoplasm of megakaryocytes
The precursor of the megakaryocyte-the
megakaryoblast-arises by a process of differentiation for
the hemopoietic stem cell
The megakaryoblast produces megakaryocytes,
distinctive large cell that are the source of circulating
platelets.
Megakaryocyte development takes place in a unique
manner.
The nuclear DNA of megakaryoblasts and early
megakaryocytes reduplicates without cell division, a
process known as endomitosis.
7/24/2024
Composition, Formation and Function of
Blood 109
Thrombopoiesis cont’d
As a result, a mature megakaryocytes has a polyploidy
nucleus, that is, multiple nuclei each containing a full
complement of DNA and originating from the same
locust within the cell.
Mature megakaryocytes are 8 n to 36 n.
The final stage of platelet production occurs when the
mature megakaryocyte sends cytoplasmic projections
into the marrow sinusoids and sheds platelets into the
circulation.
7/24/2024
Composition, Formation and Function of
Blood 110
As a result, a mature megakaryocytes has a polyploidy
nucleus, that is, multiple nuclei each containing a full
complement of DNA and originating from the same
locust within the cell.
Mature megakaryocytes are 8 n to 36 n.
The final stage of platelet production occurs when the
mature megakaryocyte sends cytoplasmic projections
into the marrow sinusoids and sheds platelets into the
circulation.
7/24/2024
Composition, Formation and Function of
Blood 110
Thrombopoiesis cont’d
It takes approximately 5 days from a megakaryoblast to
become a mature megakaryocyte.
Each megakaryocyte produces from 1000 to 8000
platelets.
The platelet normally survives form 7 to 10 days in the
peripheral blood.
7/24/2024
Composition, Formation and Function of
Blood 111
It takes approximately 5 days from a megakaryoblast to
become a mature megakaryocyte.
Each megakaryocyte produces from 1000 to 8000
platelets.
The platelet normally survives form 7 to 10 days in the
peripheral blood.
7/24/2024
Composition, Formation and Function of
Blood 111
Morphology of the Platelets and their
Precursors
Megakaryoblast
Size:
ranges from 10-30m in diameter.
The cell is smaller than its mature forms but larger
than all other blast cells.
Nucleus:
the single, large, oval or indented nucleus has a loose
chromatin structure and a delicate nuclear membrane
Multi-lobulated nuclei also occur representing a
polyploid stage.
Several pale blue nucleoli are difficult to see
The parachromatin is pink.
7/24/2024
Composition, Formation and Function of
Blood 112
Precursors
Megakaryoblast
Size:
ranges from 10-30m in diameter.
The cell is smaller than its mature forms but larger
than all other blast cells.
Nucleus:
the single, large, oval or indented nucleus has a loose
chromatin structure and a delicate nuclear membrane
Multi-lobulated nuclei also occur representing a
polyploid stage.
Several pale blue nucleoli are difficult to see
The parachromatin is pink.
7/24/2024
Composition, Formation and Function of
Blood 112
Megakaryoblast cont’d
Cytoplasm:
the cytoplasm forms a scanty, bluish, patchy, irregular
ring around the nucleus
The periphery shows cytoplasmic projections and
pseudopodia like structures.
The immediate perinuclear zone is lighter than the
periphery.
7/24/2024
Composition, Formation and Function of
Blood 113
Cytoplasm:
the cytoplasm forms a scanty, bluish, patchy, irregular
ring around the nucleus
The periphery shows cytoplasmic projections and
pseudopodia like structures.
The immediate perinuclear zone is lighter than the
periphery.
7/24/2024
Composition, Formation and Function of
Blood 113
Promegakaryocyte
Size:
ranges from 20-50m in diameter.
It is larger than the megakaryoblast
in the process of maturation it reaches the size of the
stage III cell.
Nucleus:
large, indented and poly-lobulated.
the chromatin appears to have coarse heavily
stained strands and may show clumping
The total number of nucleoli is decreased and they
are more difficult to see than in the blast cell.
The chromatin is thin and fine.
7/24/2024
Composition, Formation and Function of
Blood 114
Size:
ranges from 20-50m in diameter.
It is larger than the megakaryoblast
in the process of maturation it reaches the size of the
stage III cell.
Nucleus:
large, indented and poly-lobulated.
the chromatin appears to have coarse heavily
stained strands and may show clumping
The total number of nucleoli is decreased and they
are more difficult to see than in the blast cell.
The chromatin is thin and fine.
7/24/2024
Composition, Formation and Function of
Blood 114
Promegakaryocyte cont’d
Cytoplasm:
intensely basophilic
filled with increasing numbers of azurophilic
granules radiating from the golgi apparatus toward
the periphery sparing a thin peripheral ring that
remains blue in color.
7/24/2024
Composition, Formation and Function of
Blood 115
Cytoplasm:
intensely basophilic
filled with increasing numbers of azurophilic
granules radiating from the golgi apparatus toward
the periphery sparing a thin peripheral ring that
remains blue in color.
7/24/2024
Composition, Formation and Function of
Blood 115
Granular Megakaryocyte
The majority of the megakaryocytes of a bone marrow
aspirate are in stage III which is characterized by
progressive nuclear condensation and indentation and the
beginning of platelet formation within the cytoplasm.
Size:
ranges from 30-100m in diameter
is the largest cell found in the bone marrow.
Cytoplasm:
a large amount of polychromatic cytoplasm produces
blunt, smooth, pseudopodia-like projections that contain
aggregates of azurophilic granules surrounded by pale
halos
These structures give rise to platelets at the periphery of
the megakaryocytes.
7/24/2024
Composition, Formation and Function of
Blood 116
The majority of the megakaryocytes of a bone marrow
aspirate are in stage III which is characterized by
progressive nuclear condensation and indentation and the
beginning of platelet formation within the cytoplasm.
Size:
ranges from 30-100m in diameter
is the largest cell found in the bone marrow.
Cytoplasm:
a large amount of polychromatic cytoplasm produces
blunt, smooth, pseudopodia-like projections that contain
aggregates of azurophilic granules surrounded by pale
halos
These structures give rise to platelets at the periphery of
the megakaryocytes.
7/24/2024
Composition, Formation and Function of
Blood 116
Platelets
Size:
varies from 1-4m in diameter.
Nucleus:
no nucleus is present.
In Wright -Giemsa stained films, platelets appear as
small, bright azure, rounded or elongated bodies with
a delicately granular structure.
7/24/2024
Composition, Formation and Function of
Blood 117
Size:
varies from 1-4m in diameter.
Nucleus:
no nucleus is present.
In Wright -Giemsa stained films, platelets appear as
small, bright azure, rounded or elongated bodies with
a delicately granular structure.
7/24/2024
Composition, Formation and Function of
Blood 117
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