Blood (2020) - Histology Lecture Notes PDF

Summary

These lecture notes from Manchester University describe the composition, structure, functions, and adaptation of blood components in the human body. The document covers different types of blood cells, including red blood cells (RBCs), white blood cells (WBCs), and platelets.

Full Transcript

MSc, Manchester University, UK
Department of Histology
Faculty of Medicine
Tripoli University
Dr. Hana Abusaida 1
2020
BLOOD ( specialized C.T.)
Definition: specialized C.T. (viscous fluid).
Site: in blood vessels and bone marrow.
Origin: Mesenchyme
Volume: 5 liters in healthy adult human.
Mesurment: A cubic millimeter of blood is equivalent to a microliter (L).

Functions
Transport of: Gases, nutrients, waste products
Regulation of pH and osmosis
Maintenance of body temperature
Protection against foreign substances
Clot formation
 Blood transporting O2 & CO2, metabolites, hormones, and other substances to
cells throughout the body.
 O2 is bound to hemoglobin in erythrocytes, while CO2 is carried in solution as
CO2 or HCO3– Dr. Hana Abusaida 2
Blood Composition
plasma (55%) + cells (45%).

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 Composition of whole
blood
Hematocrit
Is the volume percentage of RBCs in the blood.

 A tube of blood after centrifugation:
has about 43% of its volume is erythrocytes in the
bottom half of the tube, a volume called the
hematocrit.

 It is normally 47% ±5% for men
 42% ±5% for women.

buffy coat
 Between the erythrocytes and the upper light-
colored plasma is a thin layer of leukocytes and
platelets called the buffy coat.
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 Blood film to study cells
1. Clean 7- Leishman stain: ( mixture of ):
2. Prick.  Eosin (acidic or eosinophilic) ( red ).
3. Put drop on clean dry slide.  Methylene blue (basophilic).
4. Put another slide on 45o  azures (purple) for cytoplasmic granules.
5. Move backward to touch drop
6. Move forward to spread drop.

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Blood
Platelets
film

RBC Lymphocyte

Neutro
phil

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 1- Plasma
 Comprising 55% at the top half of the centrifugation tube
 Yellowish fluid.
 is an aqueous solution, pH 7.4
Composition:
1- Water (92%).
2- Plasma proteins (7%):
 Albumin for osmotic pressure
 Globulin for antibodies
 Fibrinogen for coagulation

3- Organic and inorganic substances (1%)

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 2- Blood cells (formed
elements )
1- Red blood cells (RBCs) or Erythrocytes.
2- White blood cells (WBCs) or Leukocytes.
3- Platelets or Thrombocytes.

8
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 Red blood cells

Names :
Red blood corpuscles.
ERYTHROCYTES.
RBCs
Characters:
Rounded, biconcave discs,
7.5 µm diameter, 2.6 µm thick at the rim, 0.75 µm thick in the center
Non nucleated,
No organells ( non true cell).
Non motile.
Suspended in an isotonic medium plasma.
Soft and plastic → change shape in capillaries.
In small vessels they are aggregated and called Rouleaux.
Life span about 120 days.
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 Red blood cells
Poikilocytosis (Abnormal shapes)
 As in Sickle cell anaemia.
Number of RBCs:
 Sickle cell anemia is an inheritid
1- Normal:
disease in which production of male (5-5.5 millions/mm3).
abnormally shaped red blood cells female (4.5-5 millions/mm3).
( sickle shape). 2- Increase: Polycythaemia
(Erythrocytosis)
a- Physiological: in individuals who live at
high altitudes (where O2 tension is low).
b- Pathological: congenital heart &
hypoxic lung.
3- Decrease: Anemia

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 Structure of RBCs
Cell membrane,
Consists of :
40% lipid,
10% carbohydrate,
50% protein
Cytoskeletons for maintained shape.
Aantigens on the surface determine blood group (A, B, O and Rh).

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 Relations of RBCs size to osmotic
pressure

1- In isotonic solution (plasma)
osmotic pressure of plasma = in
RBCs.
2- In Hypertonic solution water flow
from low solute in the cell to high
out the cell ),
(water leaves cells → shrink, (crenation).
3- In Hypotonic solution
(water accumulate in cells → swelling
(haemolysis).

Size of RBCs
Normocyte: 6-9 um (7.5).
Macrocyte: larger than 9um.
Microcyte: smaller than 6um.
Anisocytosis: high % erythrocytes & great variations in size 12
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 Hemoglobin (Hb)
Hemoglobin:
Is a protein in the cytoplasm of red blood cells
( Haem 4% + Globin 96% )

Normal:
15.5 gm/L in males.
14 gm/L in females.

 Hb normal: normochromic.
 less than normal: hypochromic.
 Hb more than normal: hyperchromic.

Hemoglobin is: O2 carrying protein from lungs to tissues of the body.
The heme is pigments contain iron.

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 Anemia
Adaptation to
function
Causes of anemia: 1-Biconcave discs → increase
1- Decreased number of RBCs: surface area to facilitate gas
 A plastic anemia: bone
marrow defect, infants are born
exchange.
without the ability to make 2- Plastic → compress in narrow
enough red blood cells.
 capillaries.
Haemorrhagic: blood loss.
3- No nuclei or organelles → space
2- Decreased HB. for Hb.
3- Decreased hemopoietic factors 5- Glucose metabolism enzymes →
(iron & vitamin B12).
4- Haemolysis ( breakdown of
energy.
RBCs ).

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 Leucocytes, WBCs
Names
 Leucocytes.
 White blood cells.
 WBCs.
Characters:
 True cells ( with nucleus + organelles),
 Originate in bone marrow.
 Spherical while suspended in blood
plasma,
 become amoeboid and motile after leaving
the blood vessels and invading the tissues.

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 Types of
leucocytes
1- Agranulocytes. ( mononuclear )
Contains non-specific granules only.
– Lymphocytes.
– Monocytes.

2- Granulocytes ( polymorphonuclear )
Contains specific and non-specific granules
– Neutrophils.
– Eosinophils.
– Basophils.

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Dr. Hana Abusaida 17
 Granular leucocytes

Two types of granules:
Non-specific (azurophilic ) i.e, lysosomes, M
stain darkly, present in all leukocytes. B
Specific, that bind neutral, basic, or acidic L
stains and have specific functions.
N
Three types according to stain of specific
granules:
Neutrophils: neutral.
Eosinophils: acidophilic. N
Basophils: basophilic. E
Differential leucocytic count (DLC)
(Percentage of each type of leucocytes).
1. Granular leucocytes: 2. Non-granular leucocytes:
– Neutrophils, 60-70%  Lymphocytes, 20-40%
– Eosinophils, 1-4%  Monocytes, 2-8%
– Basophils, 0-0.5% Dr. Hana Abusaida 18
 E

N M

N
M
L

L
B

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 1- Neutrophils

Nucleus :, 2-5 lobes
granules:
1-Specific granules,
Neutral, Small, numerous.
2-Non-specific granules
( azurophilic granules):
Large, few, lysosomes.

Immature neutrophil with horse-shoe nucleus
(band forms).

Neutrophils are short-lived cells with life span
of 6–7 hours in blood ,
and a life span of 1–4 days in connective tissues
before dying by apoptosis.

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 Neutrophils

Functions of neutrophils:

Engulf bacteria by phagocytosis:
They are Inactive , spherical while
circulating in the blood but become
actively amoeboid during diapedesis.
Diapedesis,
passage of neutrophils, through blood
vessel walls to the tissues.
The process of the first leukocytes to
arrive at sites of infection is named
chemotaxis.

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 2- EOSINOPHILS

2–4% of leukocytes.
Nucleus: bilobed horse-shoe.
abundance of large, red specific
granules stained by eosin.

EM: Cytoplasm: 2 types of granules.
1. Specific: Oval with central crystalline dense
core contain major basic protein (MBP) ,
peroxidase enzyme → cytotoxic effects on
parasites (chemical attack), control mechanisms
associated with allergy and asthma.
2. Non-specific: lysosomes.

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 MEDICAL APPLICATION

Eosinophilia
Is an increase in the number of eosinophils,
Often indicates a parasitic infection, an allergic reaction or
cancer.
eosinophils are found in the C.T. underlying epithelia of the
bronchi, gastrointestinal tract, uterus, and vagina, and
surrounding any parasitic worms present.
In addition, these cells produce substances that modulate
inflammation by inactivating the leukotrienes and histamine
produced by other cells.

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 3-
BASOPHILS
less than 1% of WBCs.
Nucleus is U or S shape.
largest specific granules (0.5 m in
diameter) (basophilic).
Azurophilic non-specific granules stain
dark blue or metachromatically
The metachromasia is due to the presence
of heparin and glycosaminoglycans
(GAGs) in the granules.

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Comparison of basophil and eosinophil in a blood smear

Eosinophil

Basophil

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 4-
LYMPHOCYTES
Types:
1. T-lymphocytes.
2. B-lymphocytes.
3. Natural-killer (NK)
cells.
Types of T-
lymphocytes:
a. Large : only in lymphatic tissues.
b. Medium: 8% in blood.
c. Small 6-8um size: 90% predominate in blood.

Small
lymphocyte

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 Origin of lymphocytes
In bone marrow:
cells staying in bone marrow differentiate into B lymphocytes.
cells migrating to thymus differentiate into T-lymphocytes.
– B-lymphocytes (B-cells): When stimulated by specific antigen
differentiate into plasma cells which produce antibodies.
– Some B-cells become memory cells.
– T-lymphocytes (T-cells): cytotoxic T cells and helper T cells.

B-lymphocytes:
 Life span: 3 month.
Function: humoral immunity.

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 Natural-killer (NK) cells.

Are cytotoxic lymphocyte.
5% of small lymphocytes.
provide rapid responses to viral-infected cells and respond
to tumor formation,
acting at around 3 days after infection.

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 5-

MONOCYTES
Nucleus is large, off-center, kidney or U –shaped.
Cytoplasm is basophilic, contains very small
azurophilic granules (lysosomes).
Originated from bone marrow.
circulate in blood few days.
leave blood to C.T and differentiate into macrophages.

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 Function of monocytes

Phagocytosis.
Monocytes differentiate into:
Macrophages in connective tissues,
Microglia, phagocytotic cell in the CNS,
Dust cell in respiratory system
Osteoclasts in bone.

MEDICAL APPLICATION
Monocytosis:
An abnormal increase in the number of monocytes in the blood
during chronic inflammation.

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 Total leucocytic count (TLC)

Total number of leucocytes.is 4,000 – 11,000 / mm3 of blood
Leukocytosis
Increase TLC, more than 11,000/mm3 of blood.
Types:
Physiological: pregnancy.
Pathological: acute inflammation.

Leucopenia
Decrease TLC, below 4,000/mm3of blood, Pathological.

leukaemia is a type of cancer begins in the bone marrow, abnormal
increase of immature white blood cells"( blasts or leukemia cells ), are
not fully developed cells."

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 Agranulocytes Granulocytes
Monocyte Lymphocyte Basophil Eosinophil Neutrophil
2-8 20-40 0-0.5 1-4 50-70 %
Few days 3M - years Few days (7) (8-12) (12-15) Life span
20 largest 7-8, 12-18 10-12 um Diameter
Basophilic Largest basophilic Larger small numerous Cytoplasm
non-specific granules by EM specific granules acidophilic specific granules
similar to mast elongated + large
cell granules. specific few
non-specific granules non-specific
granules with granules
(lysosomes). crystalloid (lysosomes).
core.
non-specific
granules
(lysosomes)

Kidney shaped Large rounded S-shape Horse-shoe Multilobulated Nucleus
Bilobulated

Phagocytic Immunity Allergy(Histamie Cytotoxic , Phagocytic Function
and Heparin) Allergy
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Dr. Hana Abusaida 33
 BLOOD PLATELETS
(Thrombocytes)

Non-nucleated (not true cells), oval or disk
like cell.
2–4 um in diameter.
Origin: from megakaryocytes ( giant
cell) in the bone marrow.
Normal platelet counts from 200,000 to
400,000/mm3 of blood.
Life span 5-10 days.
Structure:
– Peripheral zone, the hyalomere,
– Central zone,called the granulomere.

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 Platelets Structure:

Platelets has two zones:
1- Peripheral zone( hyalomere ),
 A coat rich in GAGs and glycoproteins lies outside the plasmalemma and is
involved in platelet adhesion.
 Marginal bundle of microtubules and microfilaments (actin,myosin) which
helps to maintain the platelet's ovoid shape.
 two membranes:
1. open canalicular system , vesicles facilitate platelets' uptake of factors.
2. dense tubular system is derived from the ER and stores Ca2+ ions.
2- Central zone ( granulomere) :
Mitochondria, glycogen and granules:
1. Alpha: proteins (clot factors).
2. Delta: calcium, enzymes (e.g.Serotonin).
3. Lambda: lysosomes.

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Platelets
structure

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 Platelets

Functions:
- Control of haemorrhage (bleeding).
- Promote blood clotting.

Clot factors:
1. Fibrinogen.
2. plasminogen.
3. thromboplastin.

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The role of platelets in controlling hemorrhage:
1- Primary platelet aggregation:
platelets adhere together forming → plug platelets.
2- Secondary platelet aggregation:
release glycoproteins → increase plug size.
3- Blood coagulation:( Form of blood clot ).
Release of coagulation factors, produce → fibrin
protein.
network of fibrin trap blood cells forms blood
clot.
4- Clot retraction:
Clot contraction due to the interaction of platelet
actin and myosin.
5- Clot removal: the vessel wall is restored by
new tissue, then clot removed by plasma
proteolytic enzymes (plasmin, plasminogen )
and lambada granules (lysosomal enzymes).

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Blood clot:

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 MEDICAL APPLICATION

Hemophilia
Severe haemorrage after injury.
Inherited genetic X- chromosome disorder ,
disease transimtted by female X-Chromosome.
People born with hemophilia have little or no clotting
factors.

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 Thank you
from
D. Hana

Dr. Hana Abusaida 41