Blood Disorders Lecture 8 PDF

Summary

This lecture covers various blood disorders and diagnostic tests, including distinct types of leukemias (acute and chronic), and lymphomas, describing their characteristics and diagnostic approaches. It also provides a brief overview of red blood cells and anemias.

Full Transcript

Blood Disorders and Diagnostic Tests
1. White and Red Blood Cell Disorders

Two major divisions of white blood cell diseases
Leukemia
Lymphoma

Primary red blood cell abnormality
Anemia

Pixabay.com
 2. Hematopoiesis

Each blood cell type is a product of a
specific type of parent cell

Hematopoietic stem cell begins the Wikimedia Commons, 2024

process
3. White Blood Cells
Neutrophils
Eosinophils
Basophils
Monocytes
Lymphocytes Pixabay.com

❖Abnormal conditions involving myeloid and lymphoid cells are
leukemia (bone marrow and blood) and lymphoma (lymphoid
tissues)
White Blood Cell Disorders - Leukemias
4. Leukemias
Malignant diseases of the bone marrow and blood
Abnormal, nonfunctional white blood cells are released into circulation

Two types:
❖Acute leukemias
Undifferentiated (blasts) WBC in circulation

❖Chronic leukemias
Immature WBC in circulation

Compromised function (infections)
Wikimedia Commons, 2024
Acute Leukemias
4.1 Types of Leukemias and Useful Biochemical
Tests
1. Acute lymphocytic leukemia (ALL)
Or lymphoblastic leukemia
The most common type among children and
adolescents
Lymphoid precursors proliferate and replace
normal cells Pixabay.com

Many patients have disseminated intravascular
coagulation (DIC)
Bleeding
Laboratory Considerations:
Neutropenia, anemia, and thrombocytopenia
Increased lactate dehydrogenase (LDH)
Increased uric acid levels
4.1 Types of Leukemias and Useful Biochemical
Tests
2. Acute myeloid leukemia (AML)
Or acute myelogenous leukemia
Abnormal myeloid cell precursors – no mature
myelocytes, red blood cells and platelets
Abnormal cells accumulate in the bone marrow,
blood, spleen and liver
Genetic factors (e.g., chromosomal translocations)
Laboratory Considerations
Neutropenia, anemia and thrombocytopenia
Increased lactate dehydrogenase (LDH) and uric
acid levels
Diagnosis is dependent on bone marrow biopsy
At east 20% blasts
Chronic Leukemias
4.1 Types of Leukemias and Useful Biochemical
Tests
3. Chronic lymphocytic leukemia (CLL)
The most common form in adults in western
countries
Small, nonfunctional lymphocytes
It may be asymptomatic for several years
Laboratory considerations:
No specific clinical biochemical tests for Pixabay.com

diagnosing or confirming CLL
A bone marrow biopsy and flow cytometry
may be used to establish the diagnosis
Most cases: abnormal B lymphocytes
4.1 Types of Leukemias and Useful
Biochemical Tests
4. Chronic myeloid leukemia (CML)
Or chronic myelogenous leukemia
Increased numbers of granulocytes in the bone
marrow
Represents 20% of all adult leukemias
Laboratory considerations:
Elevated uric acid levels
Hallmark of CML
Philadelphia (PH 1) chromosome translocation in
bone marrow cells (diagnostic)

Wikimedia Commons, 2024
White Blood Cell Disorders - Lymphomas
5. Lymphomas
Malignancy of the lymphatic system
Originate from abnormal B or T cells
Unknown cause (viral infection, DNA mutations?)
Two major types of lymphoma
❖Hodgkin lymphoma
Originates from abnormal B cells, 5 classifications
Unknown cause (Epstein-Barr)
Lymph nodes contain Reed-Sternberg cells
Single painless lymph node in the cervical region (1st
symptom)
❖Non-Hodgkin lymphoma
Originates from abnormal B or T cells, more than Wikimedia Commons, 2024

30 classifications
Eight times more common than Hodgkin
lymphoma
Peripheral lymph nodes increase in size
Peripheral blood tests – no aid in diagnosis
5.1 Lymphomas and Useful Biochemical
Tests
Early-stage lymphomas
May have normal hematology
May have normal clinical biochemistry results

Disease differentiation
Lymph node or bone marrow biopsy
Hodgkin lymphoma – Reed-Sternberg cells

Diagnosis is made by imaging studies and biopsies
6. Clinical Importance of WBC count with
Differential – Leukemia and Lymphoma
A component of the Complete blood count (CBC)
Initial diagnosis (*leukemia)
E.g., increased WBC count and abnormal differentials
Subtype classification
Disease monitoring
Detection of complications
E.g. anemia, infections, bleeding disorders
Treatment adjustment
Assessment of response to therapy
E.g., increase in normal white blood cells
Identification of recurrence
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Red Blood Cells
 6. Red Blood Cells
Anemias
Deficiency of red blood cells or hemoglobin in the blood
What is impaired in anemia?
Symptoms
Weakness
Dizziness
Pale mucous membranes
Lightheadedness
Tachycardia
Classification of anemias
Size and shape of red blood cell (i.e., microcytic, normocytic, and macrocytic)
Amount of hemoglobin (i.e., hypochromic, normochromic, and hyperchromic)
6.1 Anemia- Basic Concepts
1. Hemoglobin
Globular protein that transports O2 and CO2
Major structural protein of the red blood cell
Complex structure (4 globin chains)
Each has a molecule of heme

2. Iron
Vital component of hemoglobin
Also found in myoglobin, stored in tissues and in
enzymes
Iron absorption in intestines is regulated by a negative
feedback loop (animal source Vs. plant source)
Iron must be transported to the liver for heme synthesis
Transferrin (important clinically)
Storage: Ferritin (important clinically; liver, spleen and
bone marrow)
6.1 Anemia - Basic Concepts
3. Heme
Molecule composed of porphyrin and an iron
atom
The oxygen molecule binds to a heme group
Most heme is synthesized in developing RBCs in
bone marrow
The heme created by the red cells is used to
synthesize hemoglobin
Also found in the cytochromes in mitochondria
6.2 Consequences of iron deficiency
Decreased levels of iron
Small RBCs (microcytes)
Decreased amount of hemoglobin (hypochromia)
Decreased function of cytochrome in mitochondria
6.2 Anemia and CBCs
CBCs include:
RBC or erythrocyte count
Hemoglobin
Hematocrit
RBC indices:
1. Mean corpuscular volume (MCV)
Average size of RBCs
2. Mean corpuscular hemoglobin (MCH)
Average amount of hemoglobin per RBC
3. Mean corpuscular hemoglobin concentration (MCHC)
Average concentration of hemoglobin in a volume of RBCs
4. Red cell distribution width (RDW)
Indicates the degree of abnormal variation in size (anisocytosis)
Anemias
6.3 Anemias and Diagnostic tests
Iron-deficiency anemia
Insufficiency of iron in the blood to support red cell production
A type of microcytic anemia
Mean corpuscular volume (MCV) is low

CBC and differential results may lead to suspected anemia
Hemoglobin (low), hematocrit (low), MCH (low), MCHC (low), RDW (High)
Additional tests are required to make the diagnosis
Iron level
Total iron binding capacity (TIBC)
Total amount of iron that can be bound by transferrin in the blood
Ferritin
6.3 Anemias and Diagnostic tests
Pernicious anemia
A macrocytic anemia that results from a deficiency of vitamin B12
Fewer red blood cells carry oxygen
Autoimmune disease (most cases) that causes gastric atrophy
Destruction of stomach cells that produce intrinsic factor
Hemolytic disorder associated with increased turnover of bilirubin

Laboratory considerations
Markedly increased LDH levels
Elevated indirect (unconjugated) bilirubin values

Normal Normal Normal
Pernicious
anemia
6.3 Breakdown of Hemoglobin
Increased hemoglobin breakdown
produces bilirubin
Increased unconjugated bilirubin in plasma In circulation

Most bilirubin is from destruction of old red
blood cells
The unconjugated bilirubin is transported to
the liver by albumin
Unconjugated bilirubin is converted to
conjugated bilirubin in the liver
Excretion into the bile
Bilirubin is converted by bacteria in intestine
6.3 Anemias and Diagnostic Tests
Sickle cell anemia
Consequence of sickle cell disease
Inherited blood disorder (mutation in hemoglobin
gene)
Abnormal hemoglobin
Homozygous hemoglobin S (HbS) (2 copies of the gene)
HbS molecules “stick” together cause red blood cell
deformation (sickle shape)
Cells are destroyed in the spleen – chronic anemia
“Hemolytic crisis”- rapid hemolysis
Elevated unconjugated bilirubin levels

Laboratory considerations
Sickling tests and electrophoresis Wikimedia Commons, 2024
6.3 Anemias and Diagnostic Tests
Thalassemia
Group of inherited blood disorders
Mutations in genes that encode for alpha/beta-
globin chains in hemoglobin
The more genes affected the more severe
Two primary types:
Alpha-thalassemia and beta-thalassemia
Anemia is a symptom of thalassemia
Laboratory considerations
Decreased hemoglobin (Hb) levels
Depending on severity
Reduced RBC count and size (MCV)
Hemoglobin electrophoresis
Genetic testing (specific genetic mutation)
6.3 Anemias and Diagnostic Tests
Anemia of chronic diseases (or chronic inflammation)

Classified as normocytic, normochromic anemias
Associated with long-standing chronic disorders
E.g., Rheumatoid arthritis, diabetes mellitus, heart disease

Laboratory considerations
Decreased overall RBC count
Decreased levels of iron in blood
Decreased erythropoietin production
Decreased red blood cell life span (70 to 80 days)