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Blood
Keri Muma
Bio 6
Functions of Blood

Transport




Regulation


Oxygen and nutrients to the cells
Waste away from cells
Hormones
Maintain body temperature by absorbing and
distributing heat
Protection


Prevents infection
Blood clotting prevents blood loss
Composition of Blood


Plasma – 90% water along with dissolved compounds
 Proteins – albumin, antibodies, clotting proteins
 Electrolytes – sodium, potassium, calcium, magnesium,
chloride, bicarbonate
Formed elements – erythrocytes, leukocytes, platelets
Components of Plasma

Proteins in plasma – maintain osmotic
pressure

Albumin – 60% of plasma proteins


Globulins



Transports substances such as bilirubin and bile salts
α , β – transports hormones, cholesterol, and iron;
angiotensinogen and clotting factors
Gamma globulins - antibodies
Fibrinogen

Precursor for the clotting protein fibrin
Erythrocytes

Erythrocytes (red blood cells)



Biconcave shape
Contains no nucleus or organelles
Enzymes in cytoplasm:
Glycolytic enzymes to carry out glycolysis
 Carbonic anhydrase – converts CO2 to HCO3Last ~120 days and are then destroyed by the spleen or liver


Erythrocytes


Function – to transport oxygen and to a lesser extent
carbon dioxide
Contains hemoglobin

Made of 4 globin polypeptides and 4 heme groups
Erythrocytes



Erythropoiesis – production of new erythrocytes (~3
million per second)
Occurs in the red bone marrow
Rate of production is controlled by erythropoietin produced
by the kidneys in response to blood oxygen levels
Erythrocytes

Anemia - decrease in oxygen carrying ability
of the blood

Causes:






Decreased number of RBC (low hematocrit)
Deficient or abnormal hemoglobin
Deficiency in iron or vitamin B12
Kidney disease, decrease in EPO
Blood loss
Malaria, sickle-cell anemia
Erythrocytes

Polycythemia – increased numbers of
erythrocytes / hematocrit

Causes: cancer, high altitudes, lung and heart
disease, dehydration
Leukocytes

Leukocytes – white blood cells



Protect against infection and initiates inflammation
Destroy cancerous cells
Tissue repair
Types of Leukocytes

Granulocytes – granule containing cells with
lobed nuclei

Neutrophils (60 – 70%)



Eosinophils (1-4%)


Phagocytes
First on the scene of infection
and triggers inflammation
Associated with allergies and
parasite infections
Basophils (< 1%)

Contain and release histamine
Types of Leukocytes

Agranulocytes

Monocytes (2 - 6%)


Travel into the tissue and mature
into macrophages
Lymphocytes (25 – 33%)


Specific immune defenses
B cells & T cells
Hematopoiesis

All blood cells arise from a common stem
cell found in the red bone marrow
Summary:
Platelets

Platelets (a.k.a thrombocytes)


Irregular shaped cell fragments
from megakaryocytes
Play a role in blood clotting
Platelets


Hemostasis –prevents the loss
of blood when blood vessels are
damaged
3 phases:



Vascular spasm
Platelet plug formation
Coagulation
Hemostasis

Platelet plug formation



Broken or damaged blood
vessels cause platelets to
become sticky and cling to the
site
Release chemicals that attract
other platelets (ADP)
Release chemicals that cause
vasoconstriction: serotonin,
epinephrine, thromboxane A2
Platelet plug formation

Normal endothelial cells release prostacyclin and
NO to inhibit platelet aggregation
Hemostasis

Vascular spasms


Blood vessels constrict to diminish blood flow and
loss
Coagulation


Formation of a network of fibers
that seals the blood vessel
Involves a clotting cascade
Coagulation

Clotting cascade



Involves 12 clotting factors
Requires the presence of Ca2+ and platelet factor
3 (PF3) produced by aggregating platelets
Summary of events:


An initial inactive clotting factor, found in the
plasma, is activated by exposed collagen
This activates the next factor and so on….. Until
thrombin converts fibrinogen into fibrin
Clotting Cascade

Intrinsic Pathway


Initiated when Hageman
factor is activated by
exposed collagen
Extrinsic Pathway

Factor X is activated by
thromboplastin released
by damaged tissues
Clotting Cascade

Role of Thrombin




Converts fibrinogen to
fibrin
Activates stabilizing
factor (XIII)
Enhances conversion
of more thrombin from
prothrombin
Enhances platelet
aggregation
Coagulation

Clot retraction


Vessel repair


Platelets trapped in the clot contract and squeeze
serum out
Platelets attract fibroblasts that repair blood
vessel
Clot dissolution

Thrombin and tissue plasminogen activator (tPA)
converts plasminogen into plasmin which breaks
down fibrin
tPA
breaks down
Plasminogen
Plasmin
Fibrin

Clotting disorders

Thromboembolism – clots forming in intact
vessels







Imbalance in clotting – anticlotting mechanisms
Slow moving blood
Release of thromboplastin from damaged tissue
Hemophilia – deficiency in one of the clotting
factors (usually VIII), excessive bleeding
Thrombocytopenia – deficiency in platelets
Impaired liver
Lack of vitamin K
Summary: