Oxygen Carrying Mechanism PDF

Summary

This document from Cebu Doctors' University covers the oxygen carrying mechanism. It defines terms and discusses the hematologic system, cellular components of blood, and various blood types and disorders.

Full Transcript

CEBU DOCTORS’ UNIVERSITY
COLLEGE OF NURSING BATCH 2024
Oxygen Carrying Mechanism
Mrs. Francis Grace Cañezo

Definition of Terms mother’s immune system to attack the baby’s blood
Our body uses transportation to move important elements to cells as foreign.
supply to different body parts. Hematopoietic Integrity
The state of balance on how the blood and its components
are formed.
Aplasia
It is the incomplete, retarded, or defective development, or
cessation of the usual regenerative process.
Hypoxia
Inadequate cellular oxygenation.
Plasma
Liquid portion of blood
Hematology
Purpura
Hematologic System
A severe bleeding disorder characterized by Unlike the other body systems, hematologic system
hemorrhage into the tissue particularly beneath the encompasses the entire human body.
skin or mucous membranes. The study of blood and its components is equally important
Measures more than 2 mm because it is involved in the body’s internal respiration.
Petechiae It consists of blood and its sites where the blood is produced,
A tiny purple or red spots appearing in the skin as a including the reticuloendothelial system or what we call RES
result of hemorrhage within the dermal or Hematology Is the science or study of blood
submucosal area Greek Terms: "Haima" - blood; "Logos" - discourse
Measures less than 2mm It encompasses:
Ecchymosis o Study of blood cells
A skin discoloration that results from bleeding underneath o Analysis of concentration, structure and
the skin and is usually larger than 1 cm, or at least 4 inches. function of cells in blood and their
Hematoma precursors in the bone marrow
It is a solid swelling of clotted blood within the body’s tissues. Cellular Components of Blood
Bleeding time
It is the time required for blood to stop flowing from a
wound.
Clotting time
It is the time required for blood to form a clot
Capillary Fragility Test
Also known as the tourniquet test.
It measures vascular hemostatic function
The intracapillary pressure in the arm is increased
by occluding venous outflow or by applying
The cellular component of blood consists of 3 primary cell
controlled negative pressure on the skin area.
types:
A blood pressure cuff is inflated to a pressure
Erythrocytes: red blood cells
halfway between the systolic and diastolic
Leukocytes: white blood cells
pressure.
Thrombocyte: our platelets and the plasma
The number of petechiae that forms is more than 5-
proteins
10
The cause of excessive bleeding or bruising is Erythrocytes
capillary fragility rather than core platelet action. Red blood cell (RBCs)
Blood Incompatibility Carry hemoglobin to provide oxygen to the tissues
If a baby’s and mother's blood are incompatible, it 175 trillion erythrocytes
can lead to fetal anemia, immune hydrops, or Life span is about 100 to 120 days.
erythroblastosis fetalis, and other complications. 40%- 45% of the blood volume
A common type of blood incompatibility is RH About 20 seconds to make a complete loop from
incompatibility of the mother’s blood type of that the heart, to tissue, back to the heart
with the child’s blood type. This activates the Erythropoiesis - needs the ff: iron, Vit B12, Copper
& Cobalt, folic acid, & Vit. B6
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 CEBU DOCTORS’ UNIVERSITY
COLLEGE OF NURSING BATCH 2024
Oxygen Carrying Mechanism
Mrs. Francis Grace Cañezo

Erythrocytes or the red blood cells carry hemoglobin to As you can see in Hemoglobin is slightly higher in men than
provide oxygen to tissues because most blood cells have a in women. Hematocrit on the other hand is the percentage
short lifespan the need for the body to replenish its supply of of blood volume consisting of erythrocytes
self is continuous this process is term Hematopoiesis is the
primary site is the bone marrow Hemoglobin count is varied in pregnancy depending on the
Normal hemoglobin specific laboratory cutoffs will differ trimester but generally they’re greater than 10.0g/dL.
slightly but in general the normal ranges are as follows: Different of the lower limit of range is actually based on
Men 13.5 to 18.0 g/dL factors such as ethnicity, gender, and age.
Women 12.0 to 15.0 g/dL
Children 11.0 to 16.0 g/dL

Let's take time to look at the stage of erythropoiesis

Leukocytes Thrombocytes
White blood cells (WBCs) Platelets
4,000 to 11,000 cells/𝑚𝑚𝑚𝑚3 in normal blood Smallest of the blood cells, formed as fragments of
Perform actions critical for inflammation or a giant precursor cell in the bone marrow,
immunity megakaryocyte.
Leukocytes are categorized based on the following: 175 billion platelets each day
o General Category: granulocytes and Play an essential role in the control of bleeding.
agranulocytes It performs most of their functions by aggregation
o Its Functions: inflammation, antibody- (clumping)
mediated immunity and cell-mediated They circulate freely in the blood or they nurture the
immunity endothelium of the blood vessels maintaining its integrity.
Leukocytes are categorized by granules and its functions Platelets stick to injured blood vessel walls and form platelet
according to general category clog that can stop the flow of blood from the injured site.
60% to 80%: granulocytes (includes eosinophils, Plasma and Plasma Proteins
basophils and neutrophils)
90% is water
Eosinophils and basophils function in sensitivity Primarily consists of plasma proteins, clotting
reactions. The number of granulocytes found in the factors, and other nutrients
healthy person is relatively constant. It has 3 major types of plasma proteins:
However, in infection large numbers of these cells o Albumin - Which is particularly important
are rapidly released into the circulation. for the maintenance of fluid balance
20% to 40%: agranulocytes (includes monocytes within the vascular system
and lymphocytes) o Globulin - Are for immune response of the
Monocytes are for destruction of bacteria and body
cellular debris which matures into macrophage. o Fibrinogen - Is important in the clotting
While lymphocytes are very important in both cascade in the calculation process.
cellular and humoral immunity Anemia
*Just remember the primary function of our lymphocytes, Anemia - is the reduction of the number of RBCs which
they are to attach foreign materials inside our body. decreases the oxygen-carrying capacity of our blood.

Etiologies:
Deficiencies and abnormalities of RBC production
Excessive blood loss or destruction of RBCs
It may be due to acute or chronic blood loss

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 CEBU DOCTORS’ UNIVERSITY
COLLEGE OF NURSING BATCH 2024
Oxygen Carrying Mechanism
Mrs. Francis Grace Cañezo

Anemia can be caused by its production or destruction
Production Destruction
Iron Deficiency Anemia (IDA) Sickle Cell Disease
Caused by lacking iron intake; caused by diet, chronic A genetic disorder that results in chronic anemia, pain,
alcoholism, malabsorption syndromes, partial gastrectomy disability, organ damage, and an increased risk of infection
It can also be caused by rapid metabolic activity such as and early death. The main problem is the formation of
Pregnancy, in adolescence due to menstruation, or infection abnormal hemoglobin chains. These cells assume a sickle
shape, become rigid, clump together and form masses of
Vitamin B12 Deficiency Anemia sickle red blood cells that block blood flow.
Deficiency in vit b12 or cobalamin which is due to failure to
absorb vitamin b12 from the intestinal tract as a result of a G6PD Deficiency Anemia (Glucose-6-phosphate
partial gastrectomy or pernicious anemia dehydrogenase)
It is the most common type of hemolytic anemia which is due
Folic Acid Deficiency Anemia to the deficiency of Glucose-6-phosphate dehydrogenase; an
Caused by a deficiency in vitamin b9 or folic acid which caused enzyme critical for the formation of red blood cells.
by dietary deficiency malabsorption syndromes. Drugs such as
contraceptives, Anticonvulsants, and methotrexate (a drug Immunohemolytic Anemia
used to treat severe psoriasis) and other neoplastic diseases Increased red blood cell destruction through hemolysis or
commonly cause Folic acid Deficiency anemia breakage of hemoglobin which occurs in response to many
situations including trauma, malarial infection, and other
Aplastic Anemia autoimmune reactions. The most common type is
Caused by myelotoxic agents through radiation, autoimmune hemolytic anemia where the immune system
antimetabolites, sulfonamides, anti-infective used to treat products attack the blood cells for unknown reason.
urinary tract infections and insecticide. Although it has been
believed that it can be caused by Hepatitis b and
cytomegalovirus but it has been unproven

Polycythemia Vera
Number of RBC in the blood that is greater than normal. This
condition causes cell life to be shortened which in effect
causes a rapid turnover of circulating blood cells

Myelodysplastic Syndromes (MDS)
Formation of abnormal cells in the bone marrow. It has
cancer-like features and it is considered a precursor to cancer
specifically leukemia

Categorized Based on Size According to Etiology
Normocytic Hypoproliferative
Normal RBC size and shape; commonly due to blood loss, Caused by defective RBC production
chronic disease, bone marrow suppression with Example:
chemotherapy IDA
Ex. Hemolytic Anemia Aplastic
Microcytic Megaloblastic (Vit. 12 and B9)
Small RBCs, low levels of hemoglobin due to Iron deficiency Pernicious
Ex. IDA, Aplastic Anemia Anemia due to renal diseases (for acute disorders
such as acute renal failure, it can cause anemia. This
Macrocytic
acute condition can cause a mild shortening of
Large RBCs due to Vit B12 and folic acid deficiency erythrocyte lifespan and immunodeficiency of
Ex. Pernicious (deficiency in Vit B12 absorption. It is erythropoietin where it is produced in the kidney)
an organ specific autoimmune disease which the body
Anemia due to chronic diseases (for chronic
system attacks the lining of the stomach) and Megaloblastic
diseases, rheumatoid arthritis, severe and chronic
Anemia
Infections and many cancers)

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 CEBU DOCTORS’ UNIVERSITY
COLLEGE OF NURSING BATCH 2024
Oxygen Carrying Mechanism
Mrs. Francis Grace Cañezo

Hemolytic Key Features of Anemia
Caused by RBC destruction Pallor skin especially of the ears, the nail beds,
Examples: palmar creases, the conjunctiva and around the
Hereditary Spherocytosis mouth
Sickle Cell Anemia Cool to touch
Thalassemia Intolerance of cold temperature
Polycythemia Vera Nails become brittle and fingers assume clublike
G6PH Deficiency Anemia appearance overtime
Tachycardia
ANEMIA IS A CLINICAL SIGN ONLY, NOT A DISEASE! Murmurs upon auscultation (severe anemia)
It is not a specific disease because it is a clinical Orthostatic hypotension
manifestation for several abnormal conditions Dyspnea upon extension
↓ O2 saturation levels
Somnolence and fatigue
Headache
Difficulty in concentration
Leg cramps
Pain (especially sickle cell anemia)

Hemostasis
The process of preventing blood loss from intact vessels and
of stopping bleeding from several vessels, which requires
adequate numbers of functional platelets.

COAGULATION PROBLEMS: PLATELET DISORDERS
These are bleeding disorders caused due to deficiency of
clotting factors and leads to defects in normal clotting
formation process.
Thrombocytopenia
Symptoms of Anemia
A decrease in the number of platelets below the
Those In red are signs and symptoms of severe anemia
level needed for human coagulation
150,000-450,000 (normal level)
Bleeding disorders may be spontaneous or traumatic,
localized or generalized, lifelong or acquired.
Risk for serious bleeding is from 10,000-20,000 platelets per
microliter.
Autoimmune Thrombocytopenia Purpura (ITP)
Destruction of a number of platelets by an unknown
stimulus
The weight of platelet destruction exceeds of that
production, so the number of circulating platelets
decreases and blood clotting slows
Also called idiopathic thrombocytopenia purpura
Coyer & Lash (2008) Decreased total number of circulating platelets
"Despite the many causes of anemia, the effects of anemia Common among women between ages of 20-40
on the patient and the nursing care needed are similar for all and those with systemic lupus erythematosus (SLE)
types of anemia." Thrombotic Thrombocytopenia Purpura (TTP)
A client has inappropriate clotting, and the blood
clot fails abnormally when trauma occurs.
The underlying cause is autoimmune function in
blood vessels, specifically the endothelial cells that
make platelets clump together in very small blood
vessels, as a result, tissue becomes ischemic.
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 CEBU DOCTORS’ UNIVERSITY
COLLEGE OF NURSING BATCH 2024
Oxygen Carrying Mechanism
Mrs. Francis Grace Cañezo

A rare disorder in which platelets clump together CLOTTING FACTOR DISORDER
abnormally in the capillaries and too few platelets Coagulation or bleeding disorders can result from
remain in circulation clotting factor defect
When left untreated, is very fatal Most clotting factors are genetic problems of 1
Heparin-Induced Thrombocytopenia and Thrombosis clotting factor
Syndrome (HITTS) The few acquired clotting factor disorders are
An immunoglobulin-mediated adverse drug related to a damaged liver, that cannot produce
reaction specifically, prolonged used of heparin proper amounts of clotting factors or deficiency of
characterized by: clotting factors.
o Platelet activation Defects include the inability to produce a specific
o Thrombocytopenia clotting factor, production of low quantities or
o Thrombotic complications producing a less active form of clotting factors
Is caused by antibodies against complexes of Hemophilia
platelet factor (4) and heparin. Has two different hereditary bleeding disorders
It affects all patients with heparin use. resulting from deficiencies of specific clotting
The problem with HITTS is that it is mostly factor.
unrecognized by clinicians and diagnoses can be It is an X-linked recessive trait, women who are
difficult and confirmed. usually carriers have a 50 percent chance of
It generally affects a small percentage of patients transmitting the gene who are then carriers to their
taking the drug and it affects a 5% of patients daughters and to their sons who will have overt
exposed to heparin. hemophilia.
Hemophilia A
Pathophysiology of Thrombocytopenia
Also known as Classic Hemophilia
Caused by deficiency or defective factor VIII
Hemophilia B
Also known as Christmas disease
Caused by deficiency or defective factor IX
Clinical Signs & Symptoms
Excessive hemorrhage
Bruises or abrasions
Joint and muscle hemorrhages that lead to
disabling long term problems
Hematomas common in Hemophilia A
Joint swelling and limitation
Chronic pain in areas like the joints
Decreased sensation and atrophy of the area
Clinical Signs & Symptoms when prolonged injury occurs at site.
Purpura/petechiae/bruises Hematuria and GI bleeding
Prolonged bleeding even in minor cuts Intracranial bleeding
Bleeding gums, nose bleeds or mouth
Abnormal vaginal bleeding
Hematuria or hematochezia (blood in the stool
may appear as red blood or as dark, tarry)
Headaches and other neurological signs

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 CEBU DOCTORS’ UNIVERSITY
COLLEGE OF NURSING BATCH 2024
Oxygen Carrying Mechanism
Mrs. Francis Grace Cañezo

COAGULATION DISORDER ABO-RH INCOMPATIBILIES
Disseminated Intravascular Coagulation (DIC) ABO Incompatibility
A clinicopathologic syndrome characterized by ABO group is the most important blood group system in
widespread intravascular fibrin formation in human blood transfusion
response to excessive blood protease activity that
overcomes the natural anticoagulant mechanism
Not a disease but a sign of an underlying condition
Evidence says that seriously ill COVID-19 patients
develop coagulation problems, giving rise to
disseminated intravascular coagulation.
It is triggered by sepsis, trauma, cancer, shock,
abruptio placenta, toxins, allergic reactions and
other conditions

On the chart, we can see that group AB doesn’t
have a specific antibody, that is why it is the
universal recipient.
But if you take a look a closer look at blood type O,
It shows that DIC has two pathways, both causing an you can see that it has both antibodies and it has no
impairment in the coagulation process which causes further antigen. This is why people with blood type O are
bleeding resulting to organ damage. called universal donor.
Clinical Signs & Symptoms
GI bleeding, petechiae and ecchymosis, IV lines
and catheters bleed
Renal failure
Pulmonary involvement: dyspnea, hemoptysis
and cough
Jaundice
Life-threatening hemorrhage Most common form of blood incompatibility is the ABO
Diffuse or localized thrombosis hemolytic disease of newborn. It results from IgG anti A and
Altered consciousness or stupor anti B, and commonly occurs in A and B group babies born to
group O mothers
Transient focal or neurologic deficits
Hypotension, tachycardia, circulatory collapse RH Incompatibility
Pleural fracture rub and signs & symptoms of It is the condition which develops when there is a difference
ARDS in RH blood type that of the pregnant with RH negative and
Hematemesis and hematochezia that of the fetus who is RH positive.
Hematuria and azotemia The Rhesus Factor gets its name from experiments
Purpura and deep subcutaneous hematomas conducted in 1937 by scientists Karl Lansteiner and
Alexander S. Weiner
Skin necrosis of lower limbs
First demonstrated in rhesus monkey
Localized infarction and gangrene
Blood groups are classified as (+) and (-)
The Rh factor, RH+ or Rh- usually refers specifically
to the presence or absence of antigen - D

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 CEBU DOCTORS’ UNIVERSITY
COLLEGE OF NURSING BATCH 2024
Oxygen Carrying Mechanism
Mrs. Francis Grace Cañezo

To better understand the different blood
incompatibilities, take a look at the chart above.
Positive direct antiglobulin test or DAT can actually
identify those infants who are at risk of developing
the ABO hemolytic disease.
INTERVENTIONS FOR PEOPLE WITH BLOOD OXYGEN
MECHANISM DISORDERS
Transfusion Therapy
o Any blood component may be removed
from a donor and transfused to a recipient.
o Types of transfusion: RBC transfusion,
platelet transfusion, plasma transfusion,
cryoprecipitate transfusions, Granulocyte
transfusion
Oxygen therapy
Pain relievers for patients in pain, antiinfectives for
patients developing infection
Oral hydration
Relaxation techniques
Positioning with support for affected sites
splenectomy for Immunohemolytic anemia
Steroid therapy for disorders for
immunosuppression
Dietary intake for disorders caused by deficiency
such as iron, B9 and B12
Erythropoietin therapy for cause is reduction of
RBCs
Phlebotomy for polycythemia vera to reduce the
number of RBCs
Maintaining a safe environment
Reverse isolation technique is observed
Bleeding precautions for bleeding coagulation
disorders
Aseptic technique
Strict medical handwashing
Hematopoietic stem cell transplant (HSCT) and
Bone marrow transplant

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