Blood Elements PDF

Summary

This document provides an overview of blood elements, including their structure, function, and types. It details descriptions using light microscopy (L.M.) and electron microscopy (E.M.), including the different cell types and their roles within the immune system.

Full Transcript

Blood Elements

Dr. Sahar Khalil
Prof. of Histology 1
Learning Objectives:
Describe the L.M & E.M structure of blood elements:
- RBCs,
– WBCs,
– Platelets.
Differentiate between the L.M & E.M structure different types of
WBCs:
– Neutrophils,
– Eosinophils,
– Basophils,
– Monocyte,
– Lymphocytes.
Relate the structure of different blood elements to their function.
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Blood:
Red, viscous, slightly alkaline fluid (pH7.4).
Total volume of an adult is about 6 L (7-8% BW).

Circulates in a closed system of tubes (B.V.) by the
pumping action of the heart to reach the body tissues.

Considered as a type of C.T. and composed of formed
elements (cells) suspended in a fluid (plasma).

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Examination of the Peripheral Blood Film:
Blood film is prepared, air dried and stained with Romanovsky
stains that formed of a mixture of eosin (acidic), methylene blue
(basic) & related azures (basic).

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 * Components of the Blood:

Plasma : 55% Formed elements : 45%
It’s composition: - Erythrocytes [red blood cells (RBCs)]
- Water: 90-91% - Leukocytes [white blood cells (WBCs)]
- Thrombocytes (platelets)
- Plasma proteins: 7-8%
(albumin, globulins & fibrinogen)

- Other solutes: 1-2%
(electrolytes, urea, uric acid, glucose, lipids,
amino acids, hormones and blood gases) Buffy coat

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 Formed Elements
(1) Erythrocytes (RBCs):

- Shape:
Non-nucleated, biconcave disc shaped.
Having a thick periphery and thin center.

- Abnormal shape of RBCs:
1) Crenation.
2) Hemolysis.
3) Poikilocytosis.

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(1) Erythrocytes (RBCs):
- Shape of RBCs is maintained by membrane proteins:

Protein 4.2

Ankyrin
 Formed Elements
(1) Erythrocytes (RBCs):
- Size: 6-9 µm in diameter.

Microcyte
Normocyte Macrocyte

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* RBCs with great variation in diameters (Anisocytosis).
(1) Erythrocytes (RBCs):

- Color:
- Fresh RBC is greenish yellow with pale central area due to
haemoglobin (Hb) content.
- Stained blood film may show:
- Normochromic: pink with Leishman with pale center.
- Hyperchromic: deeply stained with more Hb content.
- Hypochromic: pale stained with less Hb content,

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(1) Erythrocytes (RBCs):
- Number:
adult male --- 4.3 - 5.7 million/ml3
adult female --- 3.9 - 5 million/ml3
- Abnormalities:
a) Anaemia: decrease amount of Hb in the blood
(normally 15 gm/100 ml in male and 14 gm/100 ml in female)
b) Oligocythaemia: decrease in the RBCs count below normal.
c) Polycythaemia: increase in the RBCs count above normal.

- Life span:
* about 120 days, then destroyed by macrophages in the liver, spleen.
* Hb is broken into Globin & Haematin
(1) Erythrocytes (RBCs):
- Function: transporting O2& CO2 to and from the tissues of the body.

- Structure function adaptation of RBCs:
1) Biconcave shape to increase surface area for gases exchange.
2) Highly selective cell membrane (gases exchange),
3) Highly elastic properties & stability of the cell membrane,
4) Absence of nucleus & any organelles give more space for Hb,
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Leukocytes (WBCs):
All are true cells having nuclei & organelles.
Are larger and much less numerous (~700:1 ratio) than RBCs.

Have shorter life span (hours to days).
Cytoplasm: * Granular & * Agranular (Non-granular).

Function in immunity, both cellular (T cells and phagocytic
WBCs) and humoral (B cells).

Total leukocytic count: 4,000 – 11,000 /mm3
Leukocytosis: * Leukopenia
1) Physiological,
2) Pathological.

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 Leukocytes

Granular Agranular

Lymphocyte Monocyte
Neutrophil Eosinophil Basophil

* Differential leucocytic count:
The % of the individual types of blood leukocytes.

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 Granular Leucocytes
(1) Neutrophils:
- Represent 60-75 % of WBCs.
- Size: 10-12 µm in diameter.
- Nucleus:
immature neutrophil (band form)
mature neutrophil: single but segmented (multilobed), formed of
2-5 lobes interconnected by fine chromatin threads
(polymorphonuclear leukocytes).
* Barr body

Barr body

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- Cytoplasm: stain reddish purple (L.M.) and contain 3 types of
granules (E.M.):
1) Specific granules (80%): small, contain alkaline phosphatase,
collagenase & lactoferrin (bacteriostatic).
2) Azurophilic granules(20%): large, are lysosomes contain hydrolytic
enzymes, proteolytic and lipolytic enzymes & peroxidase.
3) Tertiary granules: contain collagenases & gelatinases to facilitate
the migration through the C.T.

* Few mitochondria, Golgi complex & rER.

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- Function:

1)First line of defence against bacterial invasion (migration & diapedesis).
2)Phagocytosis (microphage).
3)Dead neutrophils are the main cellular constituent in pus.
4)Produce pyrogens which cause fever.
5)Attraction of monocytes.
6)Stimulation of bone marrow to form new neutrophils.

* - Life span:
about 4 days.

Neutrophilia: in acute bacterial infections as acute tonsillitis.
Neutropenia: in typhoid fever, influenza & measles.
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 Granular Leucocytes
(2) Eosinophils:
- Represent 2- 4% of WBCs
- Size: 10-12 µm in diameter
- Nucleus:
- bilobed connected by thick chromatin thread.
- Cytoplasm:
- By L.M.: Large specific granules:
- By E.M.: large oval with a crystalloid body (major basic protein)
and a less electron-dense matrix (histaminase, eosinophilic
peroxidase).

- Azurophilic granules (lysosomes).

* Few mitochondria, Golgi complex
& rER.

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- Function:
1- Have an important role in allergic reactions:
* phagocytosis of antigen-antibody complexes.
* produce histaminase (degrade histamine & SRS-A)
2- Involved in the destruction of parasites.

- Life span:
In blood: few days; in C.T.: ˂ 2 weeks.

Eosinophilia: in allergy & parasitic infestation.
Eosinopenia: during cortisone treatment.

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 Granular Leucocytes
(3) Basophils:
- Represent less than 1 % of WBCs.
- Size: 10-12 µm in diameter.
- Nucleus: S-shaped or irregular in shape (obscured).
- Cytoplasm:
- By L.M.: large basophilic specific granules masking the nucleus.
- By E.M.: specific spherical homogenous electron dense granules,
(heparin, histamine, and ECF) &
few azurophilic granules.
* Few mitochondria, Golgi complex & rER.
- Function:
Similar to mast cells, basophils have receptors for
IgE.
- Life span: 1-2 days
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Basophilia: in allergy & liver cirrhosis.
 Agranular Leucocytes
(1) Lymphocytes:
- Represent 20-30 % of WBCs.
- Rounded cells with a round nucleus and very little cytoplasm.

- Types of lymphocytes (according to their size):
92% small lymphocytes (6-8 µm in diameter).
Medium-sized lymphocytes (10-15 µm in diameter)
Large lymphocytes (18-30 µm in diameter)

- Types of lymphocytes (according to their function):
1) B-lymphocytes (15%),
2) T-lymphocytes (80%),
3) Null (N) or Natural Killer (NK) cells (5%).

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Small Lymphocytes: Medium Lymphocytes:
o Nucleus: large, central, o Nucleus: larger, indented &
rounded & condensed. lightly stained.
o Cytoplasm: scanty (forming o Cytoplasm: large number of
a narrow rim around the mitochondria, abundant rER,
nucleus), lightly basophilic well-developed Golgi complex.
& non-granular. Contains
numerous free ribosomes,
few organelles.

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 Agranular Leucocytes
- Function of T- lymphocytes:
- Arise in bone marrow & differentiate in the thymus,
- Function: responsible for cellular (cell mediated) immunity,
- Types: T-helper cells (CD4+) & T-cytotoxic cells (CD8+)

- Function of B- lymphocytes:
- Arise & differentiate in the bone marrow,
- Function: responsible for humoral immunity (secretion of Abs.).
They must differentiate in tissue to plasma cells producing antibodies.

Lymphocytosis: in T.B., viral infection (influenza) & lymphoma.
Lymphopenia: in AIDS & aplastic anaemia.

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 Agranular Leucocytes
(2) Monocytes:
- Represent 3-8 % of WBCs
- Size: 12-20 µm in diameter (the largest of blood cells),
- Nucleus: large and kidney shaped.
- Cytoplasm:
By L.M.: faint grayish blue (frosted-glass appearance).
By E.M.: numerous lysosomes and pseudopodia
- Life span:
about 3 days in peripheral blood & 3 months C.T. (macrophages).
- Function:
Highly phagocytic cells. They migrate to C.T.
and differentiated into macrophages.

Monocytosis: in malaria & T.B.

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Platelets
- Origin: from Megakaryocytes present in the bone marrow,
- Size: 2-4 µm in diameter,
- Shape:
* Rounded to oval non-nucleated,
cell fragments covered by cell membrane.
- Number: 250,000-400,000 /mm3.
* Thrombocytosis & Thrombocytopenia

- Life span:
stay in blood for about 9-10 days.

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Platelets
- Cytoplasm:
By L.M.: Each has a central granular region (granulomere) &
a peripheral clear region (hyalomere)
By E.M.:
✓ The cell membrane: covered by glycocalyx involved in platelets
adhesion.
✓ Hyalomere: it shows:
1. Microtubules
2. Actin & myosin
3. Tubules in the hyalomere
✓ Surface connecting canalicular system
✓ Dense tubular system: narrow regular tubes (Ca storage) in
cytoplasm
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Platelets
- Cytoplasm:
By E.M.:
✓ Granulomere: it shows:
1. Mitochondria, ribosomes, glycogen & 3 types of granules:
Alpha (α) contain:
– Fibrinogen, coagulation factors,
– Platelet-derived growth factor
Delta (dense bodies): contain:
– Ca
– ADP & ATP
– Serotonin
Lambda (175-250 nm) are lysosome (contain hydrolytic enzymes).
Function:
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Prevent bleeding from injured B.V.
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platelets

neutrophil

lymphocyte

RBC

monocyte
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