05 blood liquid connective tissue
svchavan71
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Apr 25, 2017
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About This Presentation
For D.Pharm students
Slide Content
1
BLOOD-LIQUID CONNECTIVE TISSUE
CELLS EXTRACELLULAR MATRIX
(suspended) (45%) PLASMA (55%)
Physical properties of blood
1.Colour: opaque fluid, red in colour
2.Volume: 5-6 ltrs in adult M, 4-5 ltrs in F
3.pH: slightly alkaline, ph 7.4
4.Specific Gravity:1.052 to 1.062
5.Viscosity: 5 times more viscous than water
6.Temperature: 38 o C / 102.4 o F
BLOOD-LIQUID CONNECTIVE TISSUE
CELLS EXTRACELLULAR MATRIX
(suspended) (45%) PLASMA (55%)
Physical properties of blood
1.Colour: opaque fluid, red in colour
2.Volume: 5-6 ltrs in adult M, 4-5 ltrs in F
3.pH: slightly alkaline, ph 7.4
4.Specific Gravity:1.052 to 1.062
5.Viscosity: 5 times more viscous than water
6.Temperature: 38 o C / 102.4 o F
2
3
PLASMA
WATER 91-92% SOLUTES 8-9%
PROTEINS OTHER SOLUTES
Albumin Electrolytes
Globulin Nutrients
Fibrinogen Gases
Enzymes
Hormones
Waste products
PLASMA
WATER 91-92% SOLUTES 8-9%
PROTEINS OTHER SOLUTES
Albumin Electrolytes
Globulin Nutrients
Fibrinogen Gases
Enzymes
Hormones
Waste products
4
CELLS
RED BLOOD WHITE BLOOD PLATELETS
CELLS CELLS/Leukocytes Thrombocytes
Erythrocytes
GRANULOCYTES AGRANULOCYTES
1.Neutrophils 1. Monocytes
2.Eosinophils 2. Lymphocytes
3.Basophils
SERUM= PLASMA-FIBRINOGEN
CELLS
RED BLOOD WHITE BLOOD PLATELETS
CELLS CELLS/Leukocytes Thrombocytes
Erythrocytes
GRANULOCYTES AGRANULOCYTES
1.Neutrophils 1. Monocytes
2.Eosinophils 2. Lymphocytes
3.Basophils
SERUM= PLASMA-FIBRINOGEN
5
BLOOD PLASMA
•Yellow coloured liquid contains dissolved
substances
WATER:
•Liquid portion of blood
•Act as solvent & suspending medium for
components of blood
PLASMA PROTEINS:
1.ALBUMINS: smallest & most numerous(54%)
Transport proteins for steroid hoemones &
fatty acids
BLOOD PLASMA
•Yellow coloured liquid contains dissolved
substances
WATER:
•Liquid portion of blood
•Act as solvent & suspending medium for
components of blood
PLASMA PROTEINS:
1.ALBUMINS: smallest & most numerous(54%)
Transport proteins for steroid hoemones &
fatty acids
6
2.GLOBULINS(38%): defense mechanism, transport iron, lipids
& fat soluble vitamins
3.FIBRINOGEN (8%):Essential clotting of blood
OTHER SOLUTES:
1.ELECTROLYTES: cations- Na+, K+, Ca++, Mg++
anions- Cl-, HPO4--, SO4--, HCO3-
2.NUTRIENTS: glucose, amino acids, fatty acids, vitamins,
minerals
3.GASES: Oxygen, Carbon dioxide
4.ENZYMES: amylase, carbonic unhydrase, alkaline
phophatase, acid phophatase, lipase, esterase, protease,
transminase
5.HORMONES: all produced by endocrine glands
6.WASTE PRODUCTS: urea, uric acid, creatine, creatinine,
ammonia, bilirubin
2.GLOBULINS(38%): defense mechanism, transport iron, lipids
& fat soluble vitamins
3.FIBRINOGEN (8%):Essential clotting of blood
OTHER SOLUTES:
1.ELECTROLYTES: cations- Na+, K+, Ca++, Mg++
anions- Cl-, HPO4--, SO4--, HCO3-
2.NUTRIENTS: glucose, amino acids, fatty acids, vitamins,
minerals
3.GASES: Oxygen, Carbon dioxide
4.ENZYMES: amylase, carbonic unhydrase, alkaline
phophatase, acid phophatase, lipase, esterase, protease,
transminase
5.HORMONES: all produced by endocrine glands
6.WASTE PRODUCTS: urea, uric acid, creatine, creatinine,
ammonia, bilirubin
7
RED BLOOD CELLS
•Normal value: adult male:5-5.5 million/µL
adult female: 4.5-5 million/µL
•Anatomy: Biconcave disc
-diameter:7-8µ, thickness:2.2µ, surface area:120µ
-Nucleus & other cell organelles absent
-280 million Hemoglobin molecules/RBC
•Functions:
-Transport O
2
from lungs to tissues
-Transport CO2 from tissues to lungs
-Act as buffer by action of hemoglobin
-Help in determination of blood groups
RED BLOOD CELLS
•Normal value: adult male:5-5.5 million/µL
adult female: 4.5-5 million/µL
•Anatomy: Biconcave disc
-diameter:7-8µ, thickness:2.2µ, surface area:120µ
-Nucleus & other cell organelles absent
-280 million Hemoglobin molecules/RBC
•Functions:
-Transport O
2
from lungs to tissues
-Transport CO2 from tissues to lungs
-Act as buffer by action of hemoglobin
-Help in determination of blood groups
8
ERYTHROPOIESIS
•Process by which the origin, development &
maturation of erythrocytes occur
•Site of erythrpoeisis: ends (RBM) of long bones &
membranous bones. During disorder of bones-spleen
•The process of development of red blood cells from
pluripotent stem cells takes about 7 days
•Pluripotent stem cells Proerythroblast Early
Normoblast Intermediate Normoblast Late
Normoblast Reticulocyte Erythyrocyte
ERYTHROPOIESIS
•Process by which the origin, development &
maturation of erythrocytes occur
•Site of erythrpoeisis: ends (RBM) of long bones &
membranous bones. During disorder of bones-spleen
•The process of development of red blood cells from
pluripotent stem cells takes about 7 days
•Pluripotent stem cells Proerythroblast Early
Normoblast Intermediate Normoblast Late
Normoblast Reticulocyte Erythyrocyte
9
1.PROERYTHROBLAST (Megaloblast)
•First cell derived from Stem Cell
•Size of cell is large:Dia-20-25µ
•Nucleus is large, occupies the cell
•Does not contain hemoglobin
•It multiplies several times and forms next
stage
2.EARLY NORMOBLAST
•Slightly smaller , diameter of about 15µ
•Nucleoli disappear
•Condensation of chromatin network
1.PROERYTHROBLAST (Megaloblast)
•First cell derived from Stem Cell
•Size of cell is large:Dia-20-25µ
•Nucleus is large, occupies the cell
•Does not contain hemoglobin
•It multiplies several times and forms next
stage
2.EARLY NORMOBLAST
•Slightly smaller , diameter of about 15µ
•Nucleoli disappear
•Condensation of chromatin network
10
3.INTERMEDIATE NORMOBLAST:
•Small than previous cell, dia of about 10-12µ
•Nucleus still present
•Further condensation of chromatin
•Hemoglobin starts appearing
4.LATE NORMOBLAST:
•Further reduction in cell size, dia 8-10 µ
•Ink spot nucleus
•Increase hemoglobin quantity
•Disintegration of nucleus & disappears
3.INTERMEDIATE NORMOBLAST:
•Small than previous cell, dia of about 10-12µ
•Nucleus still present
•Further condensation of chromatin
•Hemoglobin starts appearing
4.LATE NORMOBLAST:
•Further reduction in cell size, dia 8-10 µ
•Ink spot nucleus
•Increase hemoglobin quantity
•Disintegration of nucleus & disappears
11
5.RETICULOCYTE:
•Slightly larger than matured RBC
•Cytoplasm contains reticulum formed by
remnants of disintegrated organelles
•Below 1% of RBC
•Cells enter capillaries
6.MATURED ERYTHROCYTE:
•Reticulum starts disappearing
•Biconcave & smaller in size-7.2µ
•With hemoglobin & without nucleus
5.RETICULOCYTE:
•Slightly larger than matured RBC
•Cytoplasm contains reticulum formed by
remnants of disintegrated organelles
•Below 1% of RBC
•Cells enter capillaries
6.MATURED ERYTHROCYTE:
•Reticulum starts disappearing
•Biconcave & smaller in size-7.2µ
•With hemoglobin & without nucleus
12
WHITE BLOOD CELLS/LEUKOCYTES
•Normal value:4000-11000/mm
3
•WBCs have nucleus and of various sizes
•Account for about 1% of the blood volume
WHITE BLOOD CELLS/LEUKOCYTES
GRANULOCYTES AGRANULOCYTES
1.Neutrophils 1. Monocytes
2.Eosinophils 2. Lymphocytes
3.Basophils
WHITE BLOOD CELLS/LEUKOCYTES
•Normal value:4000-11000/mm
3
•WBCs have nucleus and of various sizes
•Account for about 1% of the blood volume
WHITE BLOOD CELLS/LEUKOCYTES
GRANULOCYTES AGRANULOCYTES
1.Neutrophils 1. Monocytes
2.Eosinophils 2. Lymphocytes
3.Basophils
13
GRANULOCYTES
•Neutrophils: 10-12µ diameter, nucleus has 2-
5 lobes connected by thin strands of
chromatin, cytoplasm has very fine violet
granules
•Function-Phagocytosis: destruction of bacteria
•Eosinophils:10-12µ diameter, nucleus has 2
lobes, large red-orange granules, almost cover
nucleus
•Function-phagocytize antigen-antibody complex,
parasitic invasion; overcomes effects of histamine
involved in inflammation during allergic reactions
GRANULOCYTES
•Neutrophils: 10-12µ diameter, nucleus has 2-
5 lobes connected by thin strands of
chromatin, cytoplasm has very fine violet
granules
•Function-Phagocytosis: destruction of bacteria
•Eosinophils:10-12µ diameter, nucleus has 2
lobes, large red-orange granules, almost cover
nucleus
•Function-phagocytize antigen-antibody complex,
parasitic invasion; overcomes effects of histamine
involved in inflammation during allergic reactions
14
•Basophils:8-10µ in diameter, nucleus has 2
lobes, deep blue granules
•Function-liberate heparin, histamine &
sertotonin at inflammation site in allergic
reactions, that intensify overall inflammatory
response
•Basophils:8-10µ in diameter, nucleus has 2
lobes, deep blue granules
•Function-liberate heparin, histamine &
sertotonin at inflammation site in allergic
reactions, that intensify overall inflammatory
response
15
AGRANULOCYTES
•Lymphocytes: Small 6-9µ in diameter, large
10-14µ in diameter, nucleus is round
or slightly indented, cytoplasm forms
a rim around the nucleus, sky
blue colour. Larger the cell, more
cytoplasm is visible
•Function: These develop into plasma cells
which secret antibodies
•Monocytes:12-20µ diameter, nucleus is
kidney shaped, cytoplasm is blue-grey
•Function: Phagocytosis
AGRANULOCYTES
•Lymphocytes: Small 6-9µ in diameter, large
10-14µ in diameter, nucleus is round
or slightly indented, cytoplasm forms
a rim around the nucleus, sky
blue colour. Larger the cell, more
cytoplasm is visible
•Function: These develop into plasma cells
which secret antibodies
•Monocytes:12-20µ diameter, nucleus is
kidney shaped, cytoplasm is blue-grey
•Function: Phagocytosis
16
SIGNIFICANCE OF LEUKOCYTE COUNT
TYPE OF
WBC
NORMAL
RANGE (%)
HIGH COUNT
INDICATIONS
LOW COUNT
INDICATIONS
Neutrophil
50 - 70Bacterial infection,
Burns, Stress,
Inflammation
Radiation exposure,
Drug toxicity, Vit B
12
deficiency, SLE
Eosinophil
1 - 6 Allergic reactions,
Parasitic infections,
Autoimmune disease
Drug toxicity, Stress
Basophil
Less than 1Allergic reactions,
Leukemia,
Hypothyroidism
Pregnancy, Stress,
Hyperthyroidism
Monocytes
2 - 10 Viral, Fungal infections,
TB, Chronic diseases
Bone marrow
suppression,
treatment with
cortisol
Lymphocytes 20 - 30Viral infections,
Leukemia
Prolonged illness,
immunosuppression
SIGNIFICANCE OF LEUKOCYTE COUNT
TYPE OF
WBC
NORMAL
RANGE (%)
HIGH COUNT
INDICATIONS
LOW COUNT
INDICATIONS
Neutrophil
50 - 70Bacterial infection,
Burns, Stress,
Inflammation
Radiation exposure,
Drug toxicity, Vit B
12
deficiency, SLE
Eosinophil
1 - 6 Allergic reactions,
Parasitic infections,
Autoimmune disease
Drug toxicity, Stress
Basophil
Less than 1Allergic reactions,
Leukemia,
Hypothyroidism
Pregnancy, Stress,
Hyperthyroidism
Monocytes
2 - 10 Viral, Fungal infections,
TB, Chronic diseases
Bone marrow
suppression,
treatment with
cortisol
Lymphocytes 20 - 30Viral infections,
Leukemia
Prolonged illness,
immunosuppression
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PLATELETS/THROMBOCYTES
•Normal Value:1.5-4.0 lacks/µL.
•Disc shaped, 2-4µ in diameter, has many
vesicles but no nucleus
•Function: help stop blood loss from damaged
vessels by forming platelet plug. Platelet
release chemicals that provide vascular spasm
and blood clotting.
PLATELETS/THROMBOCYTES
•Normal Value:1.5-4.0 lacks/µL.
•Disc shaped, 2-4µ in diameter, has many
vesicles but no nucleus
•Function: help stop blood loss from damaged
vessels by forming platelet plug. Platelet
release chemicals that provide vascular spasm
and blood clotting.
18
Functions of Blood
•Transportation
Blood transports oxygen from lungs to
cells of body and co
2
from body cells to
lungs
Carries nutrients from GIT to body cells
Transport enzymes and hormones to
other body cells
Transports waste products to various
organs for elimination from body
Functions of Blood
•Transportation
Blood transports oxygen from lungs to
cells of body and co
2
from body cells to
lungs
Carries nutrients from GIT to body cells
Transport enzymes and hormones to
other body cells
Transports waste products to various
organs for elimination from body
19
Regulation
•Blood helps regulate pH through
use of buffers
•Helps adjust body temperature
through heat absorbing and
cooling properties of water in
plasma
•Blood regulates water balance
between intracellular & extra-
cellular fluid
Regulation
•Blood helps regulate pH through
use of buffers
•Helps adjust body temperature
through heat absorbing and
cooling properties of water in
plasma
•Blood regulates water balance
between intracellular & extra-
cellular fluid
20
Protection
•Blood protects excessive loss of
blood by formation of clot after
injury
•WBC protect against disease by
carrying phagocytosis
•Several types of blood proteins,
interferons help protect against
disease various ways
Protection
•Blood protects excessive loss of
blood by formation of clot after
injury
•WBC protect against disease by
carrying phagocytosis
•Several types of blood proteins,
interferons help protect against
disease various ways
21
BLOOD GROUPS
•The surfaces of erythrocytes contain a
genetically determined collections of antigens.
These are composed of glycoproteins &
glycolipids.
•Based on the presence or absence of various
antigens, blood is categorized into different
blood groups.
•Within a blood group there may be two or
more different blood types.
•Two blood group systems:-ABO and Rh
BLOOD GROUPS
•The surfaces of erythrocytes contain a
genetically determined collections of antigens.
These are composed of glycoproteins &
glycolipids.
•Based on the presence or absence of various
antigens, blood is categorized into different
blood groups.
•Within a blood group there may be two or
more different blood types.
•Two blood group systems:-ABO and Rh
22
ABO Blood Group System
Blood
Type
Type AType BType AB
(universal
recipient)
Type O
(universal
donor)
Antigen
on
surface of
RBC
A-
antigen
B-antigenBoth A &
B-
antigen
Neither A
nor B-
antigen
Antibody
in Plasma
Anti-B
antibody
Anti-A
antibody
Neither
antibody
Both anti-
A, anti-B
ABO Blood Group System
Blood
Type
Type AType BType AB
(universal
recipient)
Type O
(universal
donor)
Antigen
on
surface of
RBC
A-
antigen
B-antigenBoth A &
B-
antigen
Neither A
nor B-
antigen
Antibody
in Plasma
Anti-B
antibody
Anti-A
antibody
Neither
antibody
Both anti-
A, anti-B
23
Rh Blood Group
•Antigen Rh was
discovered in the
blood of Rhesus
Monkey
Blood
Type
Rh +
(positive)
Rh –
(negative)
AntigenRh
antigen
No Rh
antigen
AntibodyNo
antibody
No
antibody
Rh Blood Group
•Antigen Rh was
discovered in the
blood of Rhesus
Monkey
Blood
Type
Rh +
(positive)
Rh –
(negative)
AntigenRh
antigen
No Rh
antigen
AntibodyNo
antibody
No
antibody
24
BLOOD CLOTTING
•Clotting or process of gel formation is a series of
chemical reaction that ends in formation of fibrin
threads.
•Clotting factors: Calcium ions, several inactive
enzymes and various molecules associated with
platelets or released by damaged tissues
•Clotting is a complex cascade of enzymatic reactions
in which each clotting factor activates next factor in
a fixed sequence. Finally, large quantity of product
(Fibrin) is formed.
BLOOD CLOTTING
•Clotting or process of gel formation is a series of
chemical reaction that ends in formation of fibrin
threads.
•Clotting factors: Calcium ions, several inactive
enzymes and various molecules associated with
platelets or released by damaged tissues
•Clotting is a complex cascade of enzymatic reactions
in which each clotting factor activates next factor in
a fixed sequence. Finally, large quantity of product
(Fibrin) is formed.
25
Clotting- 3 Stages
1.Formation of Prothrombinase, either by
extrinsic pathway or intrinsic pathway
Next 2 stages are same-Common pathway
2. Conversion of Prothrombin into Thrombin
3. Conversion of soluble fibrinogen into
insoluble fibrin
Fibrin + Cells Clot
Clotting- 3 Stages
1.Formation of Prothrombinase, either by
extrinsic pathway or intrinsic pathway
Next 2 stages are same-Common pathway
2. Conversion of Prothrombin into Thrombin
3. Conversion of soluble fibrinogen into
insoluble fibrin
Fibrin + Cells Clot
26
Extrinsic Pathway
•Surface of damaged cells release a tissue protein called Tissue
Factor (TF) i.e. Thromboplastin in blood (outside the blood)
•In the presence of Ca
++
, TF begins a sequence of reactions that
activates clotting factor X. This factor combines with factor V
in presence of Ca
++
forms active enzyme Prothrombinase
Intrinsic Pathway
•Damaged blood vessels activates clotting factor XII, which
begins a sequence of reactions that activates factor X
•Factor X combines with factor V and forms enzyme
Prothrombinase
Extrinsic Pathway
•Surface of damaged cells release a tissue protein called Tissue
Factor (TF) i.e. Thromboplastin in blood (outside the blood)
•In the presence of Ca
++
, TF begins a sequence of reactions that
activates clotting factor X. This factor combines with factor V
in presence of Ca
++
forms active enzyme Prothrombinase
Intrinsic Pathway
•Damaged blood vessels activates clotting factor XII, which
begins a sequence of reactions that activates factor X
•Factor X combines with factor V and forms enzyme
Prothrombinase
27
Common Pathway
•Prothrombinase and Ca
++
catalyze
conversion of prothrombin into thrombin
•In last stage, thrombin in presence of Ca+
+, converts soluble fibrinogen into loose
fibrin threads, fibrin
•Thrombin also activates factor XIII which
strengthens and stabilizes fibrin threads
into clot.
Common Pathway
•Prothrombinase and Ca
++
catalyze
conversion of prothrombin into thrombin
•In last stage, thrombin in presence of Ca+
+, converts soluble fibrinogen into loose
fibrin threads, fibrin
•Thrombin also activates factor XIII which
strengthens and stabilizes fibrin threads
into clot.
Blood Transfusion
•Indications:
•Transfusion of whole blood from one
individual to another is indicated for two main
reasons: firstly, when the volume of blood
within the circulation system of the patient is
less than that required to sustain life and,
secondly, when the red blood cells are
deficient either in quantity or quality.
28
•Indications:
•Transfusion of whole blood from one
individual to another is indicated for two main
reasons: firstly, when the volume of blood
within the circulation system of the patient is
less than that required to sustain life and,
secondly, when the red blood cells are
deficient either in quantity or quality.
28
Indications
•Anaemia
•Major Surgical Operation
•Accidents resulting in considerable blood loss
•Cancer patients requiring therapy
•Women in childbirth and newborn babies in
certain cases
•Patients of hereditary disorders like
Haemophilia and Thalassaemia
•Severe burn victims
29
•Anaemia
•Major Surgical Operation
•Accidents resulting in considerable blood loss
•Cancer patients requiring therapy
•Women in childbirth and newborn babies in
certain cases
•Patients of hereditary disorders like
Haemophilia and Thalassaemia
•Severe burn victims
29
30
BLOOD DISORDERS
•Anemia-a condition in which oxygen carrying
capacity of blood is reduced
•Classification of Anemia
1.Impaired erythrocyte production
–Iron deficiency
–Megaloblastic
–Hypoplastic
2. Increased erythrocyte loss
–Hemolytic anemia
–Normocytic anemia
BLOOD DISORDERS
•Anemia-a condition in which oxygen carrying
capacity of blood is reduced
•Classification of Anemia
1.Impaired erythrocyte production
–Iron deficiency
–Megaloblastic
–Hypoplastic
2. Increased erythrocyte loss
–Hemolytic anemia
–Normocytic anemia
31
• Polycythemia-abnormally large number of
erythrocytes in the blood
•Leukopenia- In this condition, total blood leukocyte
count is less than 4000/mm
3
•Granulocytopenia-abnormal reduction in numbers of
circulating granulocytes
•Leukocytosis-In this condition, total blood leukocyte
count more than 11000/mm
3
•Leukemia-Uncontrolled increase in production of
leukocytes/ or their precursors
•Thrombocytopenia-In this condition blood platelet
count is below 150000/mm
3
• Polycythemia-abnormally large number of
erythrocytes in the blood
•Leukopenia- In this condition, total blood leukocyte
count is less than 4000/mm
3
•Granulocytopenia-abnormal reduction in numbers of
circulating granulocytes
•Leukocytosis-In this condition, total blood leukocyte
count more than 11000/mm
3
•Leukemia-Uncontrolled increase in production of
leukocytes/ or their precursors
•Thrombocytopenia-In this condition blood platelet
count is below 150000/mm
3
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