Blood PDF

Summary

This document provides an overview of blood composition, including blood cells, plasma components and its formations. It covers different types of blood cells and their functions as well as abnormalities and pathologies related to blood. It also describes the structure and function of erythrocytes, their functions and adaptations.

Full Transcript

BLOOD Chapter 4

BLOOD
Blood Is a special type of connective tissue. (Mesenchymal in origin).
Stain: Neutral stain → as Leishman’s Stain (Eosin + Methyline blue
dessolved in methyl alcohol)

BLOOD CELLS 45% PLASMA 55%
Red blood corpuscles [erythrocytes] Water 90%
White blood cells [Leucocytes] 9% organic compounds e.g.
Platelets [Thrombocytes] Proteins & Hormones...
1% inorganic salts: Ca, Mg …

ERYTHROCYTES OR RED BLOOD CORPUSCLES (RBCS):
 Origin: Red bone marrow.
 Shape:
 Non-nucleated.
 Biconcave disc-shaped cells in side view.
 Rounded in top view.
 Thick periphery 2.2 µm - thin center of 0.8 µm.
 In slow circulation: RBC's adhere to each other like
pile of coins (rouleaux appearance) due to high
surface tension. Which is non-permanent.
9 These long chains of RBCs sediment more easily.
9 This is the mechanism for increased "Erythrocyte
Sedimentation Rate"(ESR), which increases
non-specifically with inflammation.
Abnormal Shapes: due to changes in the cell membrane or Hb.
 Spherocytes (spherical)
 Ovalocytes (oval in shape)
 Sickle cell (crescent-shaped)
 Poikilocytes (pear-shaped) RBCs.
They are more fragile & more prone to hemolysis causing anemia.

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 Size: The normal diameter of an RBC ranges from 6 -9 µm with a mean of 7.5 µm.
Abnormal sizes:
 Microcysts RBCs (less than 6 pm)
 macrocytic (more than 9 pm)
 Anisocytosis (different sizes).
 Color: (LM)
 Unstained blood film. RBCs appear colored due to Hb.
 with Leishman’s stain, the erythrocytes appear acidophilic (Hb is a basic
protein), with pale center (about ⅓ of the diameter) (Normochromic RBCs)
 Structure and composition: (EM)
 Mature RBC lack nucleus and organelles. giving more space for hemoglobin.
 RBC cytoplasm contains about:
9 66% water
9 33% hemoglobin (Hb) which appears electron-dense & homogenous.
9 1% Enzymes as: carbonic anhydrase and Hb reductase.
 RBCs are surrounded by flexible lipoprotein cell membrane.
9 Inner surface cell membrane is associated with cytoskeleton protein (actin &
myosin) to maintain the biconcave shape of RBC.
9 Outer surface is covered by glycocalyx (call coat) which is responsible for
blood grouping (A, B, AB, O) & Rh factor.
 Number: Erythrocytic count is the number of erythrocytes per mm³ of blood
 In male: 5 – 5.5 million/mm³ due to the stimulatory effects of male hormones
on the bone marrow.
 In female 4.5 - 5 million/mm³ due to menstruation and estrogen.
 RBC count is highest in the newborns and decreases gradually.
Abnormality in number of erythrocytes:
1. Anemia (oligocythemia): Decreased number of RBCs below 4 million/mm3
and/or decreased Hemoglobin concentration
Types of anemia: Deficiency & Pernicious & Aplastic & Hemorrhagic & Hemolytic
; Pernicious anemia: (Vitamin B12 deficiency anemia) due to failed production
of intrinsic factor by the stomach.
; Aplastic anemia: destruction of the bone marrow e.g. by irradiation or
chemotherapy leading to pancytopenia (decreased count of all blood cells)
; Sickle cell anemia: an abnormal rigid type of Hb. called (HbS) that
accumulates at one side of the cell giving a crescent shape (Sickle RBCs).

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2. Polycythemia: it is the increase in the number of RBCs above 6 millions/ mm3
Cause : due to hypoxia that stimulates the bone marrow. It may be:
; Physiological e.g. high altitudes, muscular exercise, newborns.
; Pathological e.g. chronic lung and heart diseases.
 life span of erythrocytes: about 120 days
 fate:
 Old RBCs are phagocytosed by macrophages in the liver, bone marrow & spleen.
 It is excreted as bile pigments while Iron is reused to form new RBCs
 Osmotic Pressure (O.P): RBCs are osmotically fragile. They maintain their shape
only in isotonic solution, (0.9% NaCl [saline] = O.P of plasma)
 Crenation; in a hypertonic solution, they shrink and show notches.
 Hemolysis; in a hypotonic solution, they swell, burst and leak hemoglobin.
Leaving cell ghost.

 Structure function adaptation of erythrocytes:

Factor Mode of adaptation
Plasticity (Flexible) to be squeezed inside narrow vessels.
Plasma lemma
Lipoproteins are highly selective for gas exchange
Biconcave to increase surface area for gases exchange
Shape
Rounded edge for easy flow & passage in branched BVs.
No nuclei or organelles → don’t divide and to give more space
for Hb
Content
Contain enzymes (Hb. Reductase → combine with Hb. & carbonic
anhydrase → carry CO2)

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4
Chapter BLOOD

LEUCOCYTES OR WHITE BLOOD CELLS (WBCS)
They are true cells having nuclei and organelles.
 Leucocytic count
 Total leucocytic count : total number of WBCs/mm3 = 4000-11000 cell/mm³
 Differential leucocytic count: the percentage% of each type to the total count
 Abnormalities in total count:
 Leukocytosis: ↑↑ total No.of WBCs > 11,000/mm3 due to.
; Physiological: pregnancy, labor, cold bath & exercise.
; Pathological: infections

Clinical Note
Leukemia: cancer with very high leucocytic count & abnormal and immature WBCs

 Leukopenia; ↓↓ No. of WBCs < 4,000/mm3 due to:
; X-ray - irradiation
; some antibiotics e.g. chloramphenicol
; Typhoid fever
; Influenza virus
 Life span: short life span, companstaed by new cell from blood stem cells of
bone marrow

WBCS

GRANULAR NON-GRANULAR
Neutrophils lymphocytes
Eosinophils monocytes.
basophils
Bacterial infection → neutrophils
neutrophils ‫ا كترهم فى العدد‬ Parasitic infection → eosinophils
basophils ‫اقلهم فى العدد‬ Viral infection & chronic diseases → lymphocytes
monocytes ‫أ كبرهم فى الحجم‬ Allergy → basophil - eosinophils
small ‫أصغرهم فى الحجم‬ Acute inflammation → neutrophil
lymphocytes Chronic inflammation → monocyte - lymphocyte

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1 Granular Leucocytes:

1- Neutrophils = Polymorphnuclear leucocytes = PMNLs = microphages

 %: 60-70%
 Shape : Rounded cells,
Azure dye =
 Diameterr:10-12 µm.
methylene blue
 Life span: few days
 By LM:
; Nucleus:
 Single - Multilobed (3:5 lobes) - segmented - dark - connected by
chromatin strands. (many shapes)
 Barr body seen in 3-6% of female cells.
; Cytoplasm: they show:
1. Specific granules: numerous, fine, pale granules.
2. Non specific (azurophilic granules): few large purple with azure dye.
 By EM:
; Nucleus: Peripheral heterochromatin with small central euochromatin
; Cytoplasm:
 Pseudopodia - Few organelles - more Glycogen (energy)
 Two types of granules:

Specific granules(2ry) granules: Non specific Azurophilic granules(1ry):
; Small - many - pale ; Large - few - dark.
; Contain ; lysosomes containing:
1. Phagocytin 1. Myeloperoxidase
2. Lysozyme 2. Defensins against bacteria &
3. Collagenase viruses
4. Lactoferrin.

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 Functions: First line of defense against bacteria.
1. Phagocytose bacteria: (microphages):
; First: by specific granules:
 Lactoferrin: binds to iron [Bacteriostatic]
Neutrophil
 Phagocytin: kill bacteria [bactericidal]
migration by
 Lysozyme: destroys bacterial proteins.
diapedesis
 Collagenase: destroys collagen for movement of
neutrophils
; Second: by non specific (azurophil granules):
 Myeloperoxidase kill bacteria
 other enzymes cause their lysis.
2. Dead neutrophils form pus cells.
3. Pus increases body temperature (pyrogen).
4. Attract monocytes to site of infection (to clean it).
5. Stimulate bone marrow to form more neutrophils.
6. Secrete trephone substance: help healing of wounds.
 Pathological increase: (neutrophilia) > 75%
e.g.: acute pyogenic infections (tonsillitis - appendicitis – abscess).
 Pathological decrease: (neutropenia) < 60%
e.g.: Influenza virus - TB - typhoid fever. (common)

Eosinophils Basophils
% 1-4% 0-1%
Diameter 10-14 µm 10-12 µm
Life span Few days Few days
Nucleus:
Nucleus:  irregular, segmented, pale
 bilobed or  S shaped.
 horse-show Cytoplasm:
LM  connected by thick chromatin
 large basophilic granules
strands
masking the nucleus.
Cytoplasm:  Metachromatically stained
 large, acidophilic granules. with toluidine blue → purple
(due to presence of heparin)

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Nucleus: Nucleus:
 Peripheral heterochromatin  Minimal peripheral
 More central euochromatin heterochromatin
than neutrophil.  More central euochromatin.
Cytoplasm: few organelles & two Cytoplasm: few organelles & two
types of granules. types of granules:
1. Specific granules: 1. Specific granules:
 oval  large, rounded.
 electron dense core  electron dense contain
EM (internum)& less dense 9 heparin.
periphery (externum) 9 Histamine
 contain: 9 eosinophil chemotactic
9 histaminase, factors.
9 sulphatase 9 leukotrienes.
9 neurotoxin 2. Few Non specific (Azurophilic
2. Non specific (Azurophilic granules): (lysosomes):
granules): smaller - less. contain hydrolytic enzymes.
lysosomes containing MCQ? Cell membrane shows
hydrolytic enzymes. receptors for IgE.
1. Termination of allergic 1. Secrete Heparin prevents
reaction clotting & promotes allergy
a. Histaminase & sulphatase 2. Secrete Histamine
destroy histamine & heparin. vasodilatation causing sudden
b. Phagocytose the Ag-Ab ↓↓ in blood Pressure →
Complexes anaphylaxis
Function
2. Defense against parasites. 3. Attract eosinophils to site
a. Cytotoxic effect of internum of allergy by Eosinophil
forming pores in their chemotactic factor
bodies. 4. Leukotrienes: Bronchospasm
b. Neurotoxins causing nervous causing bronchial asthma.
dysfunction of parasites 5. Limited phagocytic power
> 5% > 2%
1. allergy → urticaria, eczema, 1. Allergic diseases.
Increase
bronchial asthma 2. Parasitic diseases.
in number
2. parasitic infection → 3. Viral infection (chicken pox).
Bilharziasis 4. Liver cirrhosis.
Decrease < 1%
in number Cortisone therapy
↓ Bone marrow

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 Comparison between Basophils and Mast Cell

Basophils Mast cells
Life span Few days Longer (weeks to months)
Size 10-12 um 20-30 um
the Nucleus Segmented Round
Phagocytosis Slight No
Granules Metachromatically stained due to (Histamine &heparin)
Surface receptors: Antibody Ig E

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2 Non-Granular Leucocytes:
1. Lymphocytes (2nd common of WBCs & 2nd line of defense)

 Number: 20-30% of total leucocytic count.
 Types of lymphocytes according to Size:
1. Small lymphocytes: 2. Large lymphocytes:
Inactive Active or NK cells
% 15-20% 5-10%
diameter 6-8 µm 10-15 µm
Nucleus: Dark & filling the cell
Nucleus: larger slightly indented,
By LM: Cytoplasm: Little, pale pale with clear nucleolus
basophilic rim around the
Cytoplasm: abundant basophilic
nucleus.
Nucleus:. Euchromatic with
Nucleus: heterochromatic
prominent nucleolus
Cytoplasm:
Cytoplasm.: more organelles:
9 few mit.,
By EM: 9 mit.,
9 small GA,
9 ribosomes,
9 many free ribosomes,
9 rER,
9 two centrioles
9 G.A.
9 small azurophil granules
9 lysosomes
 Abnormalities in number:
 Lymphocytosis: increase > 30%
; physiological in children.
; Chronic infections e.g. T.B & whooping cough.
; Leukemia.
 Lymphocytopenia (pancytopenia): decrease < 20%
 Motility & distribution:
 Actively motile,
 continuously circulating between the blood & lymphatic organs
 They are the only cells which can return to blood.
 Found in blood, lymph & lymphatic tissue.

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 Types of lymphocytes according to function:
B lymphocytes T lymphocytes Natural killer cells
% 20-30% 60-80% 5-10%
bone marrow Thymus → acquire develop from precursors of T
Maturation acquire receptors & B cells but do not mature in
receptors (Thymic education) thymus
Few days to
Life span Years Years
months
Surface Ig receptors T cell receptors.
CD16.
receptors IgM, IgD (CD4 - CD8)
 Innate Immune response.
Humoral Cell mediated
Function  Similar to T cytotoxic.
immunity immunity
 Antiviral (interferon).

T lymphocytes (types & functions)

1-Cytotoxic CD8 T-cells (cell-mediated Immunity):
 Secrete perforins that form pores in the cell membrane of the cells directly
killing them.
 Attack : virally infected cells – neoplastic cells – transplanted cells.
2-Helper CD4T-cells:
 Activate B-lymphocytes.
3-Regulatory (Suppressor) T-cells:
 Suppress the immune response to self-antigen.
 Suppress excessive immune response.
4-Memory T-cells:
 Rapid response of T-cells on re-exposure to same Ag (2ry immune response)
B lymphocytes
 activated by T- helper cells to Plasmablasts then plasma cells to produce
antibodies. (Humoral immunity)
 B memory cells responsible for the rapid 2ry immune response.

HIV
Human Immunodeficiency virus that causes AIDs destroys the T- helper cells
suppressing immunity & the patient becomes susceptible to infections

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2. Monocytes

 Number: 3-8%
 Diameter: 13:20 µm (the largest).
 Life span: 3 days in blood & 3 months in CT.
 By L.M:
 Nucleus:
; Large, eccentric, kidney-shaped, pale with 1 or 2 nucleoli
 Cytoplasm
; non-granular
; non- clear
; Pale basophilic.
; frosted glass appearance due to lysosomes (azurophil granules).
 By L.M:
 Nucleus: Euchromatic with clear nucleolus
 Cytoplasm :
; Have pseudopodia,
; well-developed G.A. in the concavity of the Nucleus.
; Many lysosomes (1ry & 2ry).
; rER- ribosomes – mitochondria.
 Functions: Highly phagocytic cells:
1. Phagocytose bacteria & debris.
2. Antigen presenting cells.
3. The precursors of all phagocytic cells: e.g.
 dust cells of lungs
 Kupffer cells of liver
 osteoclasts of bone
 microglia of CNS.
4. Migrate to C.T → Macrophage
 Monocytosis: Increase > 8% due to
1. chronic infections; T.B., syphilis & glandular fever
2. monocytic leukemia.
 Monocytopenia (< 3%) : pancytopenia

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