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Question 1

Hematopoietic System

Answer 1

Erythrocytes ideally suited for primary function: transport of oxygen from lungs into peripheral tissues

Hemoglobin: complex molecule consisting of four heme groups & four globins

Question 2

…

Answer 2

Objective measurements of red blood cell parameters: done with instruments estimating mean size of red blood cells & their hemoglobin content
Mean corpuscular volume (MCV)
Mean corpuscular hemoglobin (MCH)
Mean corpuscular hemoglobin concentration (MCHC)
White blood cells participate in body’s defense against infections
Neutrophils: short-lived cells that survive no more than 4 days in peripheral circulation
Monocytes & lymphocytes: long-lived blood cells

Platelets or thrombocytes: essential clotting factors
Malignant transformation of hematopoietic cells may result in solid tumors or leukemia

Question 3

Anemia

Answer 3

Reduction of hemoglobin in blood to below normal levels

In practice, this means

Question 4

Anemia may be a consequence of:

Answer 4

Decreased hematopoiesis
Abnormal hematopoiesis
Increased loss or destruction of red blood cells

Question 5

Decreased Hematopoiesis

Answer 5

Bone marrow failure

• -Aplastic anemia
• -Myelophthisic anemia

Deficiencies of nutrients

• -Deficiency of vitamin B12 & folic acid (megaloblastic anemia)
• -Protein deficiency

Question 6

Abnormal Hematopoiesis

Answer 6

• Usually a consequence of genetic abnormalities

- Sickle cell anemia

Question 7

Increased Loss & Destruction of Red Blood Cells

Answer 7

Bleeding
Intrasplenic sequestration
Immune hemolysis
Infections (malaria)

Question 8

Morphology of Anemias

Answer 8

Normocytic, normochromic anemia
-“Dilutional anemia”
Microcytic, hypochromic anemia
-Iron deficiency
Macrocytic, normochromic anemia
-Deficiency of vitamin B12 and/or folic acid
Anemias characterized by abnormal red blood shapes
-Elliptocytosis, spherocytosis, sickle cell

Question 9

Aplastic Anemia

Answer 9

Idiopathic, secondary
Bone marrow depleted of hematopoietic cells; consists only of fibroblasts, fat cells, scattered lymphocytes
Anemia, leukopenia, thrombocytopenia
Uncontrollable infections, bleeding tendency, chronic fatigue, sleepiness, weakness

Question 10

Thrombocytopenia

Answer 10

Deficiency of platelets in the blood.

This causes bleeding into the tissues, bruising, and slow blood clotting after injury.

Question 11

Iron Deficiency Anemia

Answer 11

Most common form of anemia
Hypochromic, microcytic anemia
Etiology:
Increased loss of iron (e.g., chronic bleeding)
Inadequate iron intake or absorption
Increased iron requirements

Question 12

Megaloblastic Anemia

Answer 12

Caused by deficiency of vitamin B12 or folic acid
Vitamin B12 deficiency 
-Pernicious anemia
-Lack of gastric intrinsic factor
-Atrophic gastritis
Folic acid deficiency
--Inadequate intake in diet or malabsorption caused by -=intestinal disease
Bone marrow
-Hypercellular, numerous megaloblasts
Peripheral blood
-Macrocytic anemia
Hypersegmentation of neutrophils

Fatigue, shortness of breath, weakness

Destruction of posterior & lateral columns in spinal cord:
  results in loss of sense of vibration, proprioception, & loss of deep tendon reflexes

Question 13

Hemolytic Anemia

Answer 13

-Increased red blood cell destruction (hemolysis)
-Intracorpuscular defects
Structural abnormalities
Sickle cell anemia, thalassemia, hereditary spherocytosis
-Extracorpuscular defects
Antibodies, infectious agents, mechanical factors
Autoimmune hemolytic anemia, hemolytic disease of newborn, transfusion reactions, malaria, hemolytic anemia caused by cardiac valve prosthesis, disseminated intravascular coagulation
–Anemia (i.e., low erythrocyte count)
-Compensatory erythroid hyperplasia of bone marrow
-Hyperbilirubinemia, jaundice

Question 14

Sickle Cell Anemia

Answer 14

Substitution of glutamic acid by valine
Synthesis of abnormal beta chain of globin
Most prevalent among African Americans
Multiple infarcts in various organs
Neurologic defects; sharp pain in bones, spleen (autosplenectomy), extremities; retinal infarcts
Hyperbilirubinemia, jaundice (bile stones)

Question 15

Sickle Cell Anemia:Long-Term Complications

Answer 15

Retarded intellectual development, neurologic deficits
Cardiopulmonary insufficiency
Recurrent infections

Question 16

Thalassemia

Answer 16

• Genetic defect in synthesis of hemoglobin A (HbA); reduced rate of globin chain synthesis
• No abnormal hemoglobin produced
• Beta-thalassemia: reduced synthesis of beta chain of globin
• Alpha-thalassemia: reduced synthesis of alpha chain of globin

---Thalassemia minor, or thalassemia trait 
Heterozygotes
Mild, nonspecific symptoms
---Thalassemia major 
Homozygotes
Severe, serious disease

Hyperbilirubinemia, jaundice
Chronic anemia that retards growth of children
Impairment of normal intellectual development
Cardiorespiratory insufficiency

Question 17

*Hemosiderosis(US) or haemosiderosis (Br)

Answer 17

is a form of iron overload disorder resulting in the accumulation of hemosiderin. Types include: Transfusionhemosiderosis. Idiopathic pulmonaryhemosiderosis.

Question 18

Immune Hemolytic Anemias

Answer 18

Mediated by antibodies that destroy red blood cells
(Autoantigens
Alloantigens
Neoantigens)
Mismatched blood transfusion
Hemolytic disease of newborn
Autoimmune hemolytic anemias

Question 19

Polycythemia

Answer 19

Erythrocytosis

Increased number of red blood cells

Question 20

Primary polycythemia, or polycythemia vera

Answer 20

Myeloproliferative disorder
Clonal proliferation of hematopoietic stem cells
Uncontrolled production of red blood cells, increased total red blood cell mass

Question 21

Secondary polycythemia

Answer 21

Increased red blood cell volume as a result of erythroid bone marrow hyperplasia caused by erythropoietin
Usually caused by prolonged hypoxia
Risk factors: living at high altitudes, anoxia secondary to chronic lung disease, congenital heart disease, renal carcinoma

Question 22

Polycythemia: Symptoms

Answer 22

Hypertension
Dark red or flushed face
Headaches, visual problems, neurologic symptoms
Splenomegaly
Hypercellular bone marrow

Question 23

Leukopenia

Answer 23

Reduction in white blood cell count to below normal levels
Neutropenia (agranulocytosis)
Bacterial infections
Lymphopenia
Bacterial, viral, fungal, parasitic infections

Question 24

Leukocytosis

Answer 24

Increased number of white blood cells in peripheral blood
Granulocytosis (neutrophilia)
Bacterial infection
Eosinophilic leukocytosis (eosinophilia)
Allergies, some skin diseases or parasitic infections
Lymphocytosis
Viral infections, chronic infections, some autoimmune disorders
Splenomegaly, lymphadenopathy

Question 25

Malignant Diseases of White Blood Cells

Answer 25

1.Leukemias: malignant disease involving WBC precursors in bone marrow, peripheral blood (acute & chronic)
Myeloid
Lymphoid
2.Lymphomas: lymphoid cell malignant diseases predominantly involving lymph nodes
Non-Hodgkin’s lymphoma
Hodgkin’s lymphoma
3.Multiple myeloma: malignant disease of plasma cells

Question 26

Lymphoma: Etiology and Pathogenesis

Answer 26

Causes of most lymphomas, leukemias (like causes of most malignant tumors) unknown
Viruses
HTLV-1
EBV
Endogenous oncogenes
t(8,14): Burkitt’s lymphoma
t(9,22): chronic myelogenous leukemia (Philadelphia chromosome)

Question 27

Leukemia

Answer 27

Bone marrow: infiltrated with malignant cells
Increased number of immature blood cells in peripheral blood
Complications: anemia, recurrent infections, uncontrollable bleeding

Question 28

Acute Lymphoblastic Leukemia

Answer 28

Most common form of leukemia in children
Massive infiltration of bone marrow, peripheral blood with immature lymphoid cells (blasts)
Symptoms: recurrent infections; generalized weakness; bleeding into skin, major internal organs
Treatment: modern chemotherapy; remission possible in nearly all patients

Question 29

Acute Myelogenous Leukemia

Answer 29

Most common form of acute leukemia in adults
Clonal proliferation of myeloblasts in bone marrow (20% myeloblasts)
According to WHO, four forms of AML:
AML with recurrent genetic abnormalities
AML evolving from multilineage dysplasia
Therapy-related AML
AML not otherwise specified
Without treatment, most patients die within 6 months after symptom onset

Question 30

Chronic Myelogenous Leukemia (Cont’d)

Answer 30

-Malignant disease of pluripotent hematopoietic stem cells
-Bone marrow, peripheral blood overgrown with malignant stem cells and descendants
Three phases of disease:
1,Chronic phase
2.Accelerated phase
3.Blast crisis
-Treatment: tyrosine kinase inhibitors (e.g., imatinib, “Gleevec”)
Philadelphia (Ph1) chromosome, with BCR/ABL gene rearrangement

Question 31

Chronic Lymphocytic Leukemia

Answer 31

Malignant disease involving lymphoid cells
Most patients older than 50
Should be suspected if lymphocytes >5000/mL
Median survival: 7–9 years from diagnosis

Question 32

Lymphoma

Answer 32

-Affects any age group
-Malignant cells often infiltrate lymph nodes, spleen, thymus, or bone marrow, but may also involve other organs
Extranodal spread of lymphoma
-Two large categories:
Non-Hodgkin’s lymphoma (NHL)
Hodgkin’s lymphoma

Question 33

Non-Hodgkin’s Lymphomas

Answer 33

No benign lymphomas
Most have B-cell phenotype
All age groups affected (more common in adults than children)
Can spill over into blood; present as leukemia
Involve lymph nodes, bone marrow, spleen, thymus, but can be of extranodal origin
Most common sites of extranodal lymphomas: stomach, intestines

Question 34

Non-Hodgkin’s Lymphomas: Diagnosis

Answer 34

–Light microscopy
–Ancillary techniques
Immunohistochemistry
Flow cytometry
Cytogenetic analysis
—Clinical features
Lymph node enlargement
Systemic constitutional symptoms
Extranodal tumor spread

Question 35

Follicular Lymphoma

Answer 35

Most common form of lymphoma in U.S. (45% of all)
Mostly seen in older people
Slow growing
Presents with long-standing enlargement of lymph nodes, mild constitutional symptoms
Median survival: 7–9 years after diagnosis

Question 36

Diffuse Large-Cell Lymphomas

Answer 36

Most common aggressive form of NHL
Tissue infiltrated by large lymphoid cells with irregular nuclear outlines, prominent nucleoli
Complete remission induced in 75% of patients with chemotherapy

Question 37

Burkitt’s Lymphoma

Answer 37

Highly malignant tumor composed of small B cells
Extranodal masses: more prominent than enlarged lymph nodes
Endemic variant:
Sub-Saharan Africa
Children infected with EBV
Mandible, facial soft tissue involvement
Sporadic variant:
Children, young adults most often affected
Abdominal mass (e.g., ovarian or intestinal mass)
Most children & young adults can be cured

Question 38

Hodgkin’s Lymphoma

Answer 38

Bimodal age distribution curve: peaks at 25 & 55 years
5 types:
Nodular sclerosing
Lymphocyte predominant
Lymphocyte rich
Mixed cellularity
Lymphocyte depleted

Reed-Sternberg cells present
Bilobed or multilobed nucleus, prominent nucleoli surrounded by clear halo

Question 39

Hodgkin’s Lymphoma:Clinical Features

Answer 39

Enlarged lymph nodes (neck, mediastinum)
Extranodal involvement, leukemic spread: rare
Prognosis: depends primarily on clinical stage
Stage I & II: excellent prognosis, high rate of cure (>90%) with chemotherapy
Advanced disease: less favorable prognosis

Question 40

Multiple Myeloma

Answer 40

Malignant disease of plasma cells
Most patients older than 45 years
Malignant plasma cells typically proliferate in bone marrow, destroy surrounding bone (bone fractures)
Punched-out holes (“lytic lesions”) in calvaria vertebrae
Hypercalcemia
Renal failure
Anemia, leukopenia

Diagnosis based on:
X-ray studies (lytic lesions)
Serum electrophoresis (monoclonal spike)
Bone marrow biopsy (neoplastic plasma cells in increased numbers)
Survival rate:

Question 41

Normal Hemostasis

Answer 41

Vascular factors
Platelet factors
Coagulation factors

Question 42

Platelet Disorders

Answer 42

Decreased production of platelets

• Aplastic anemia
• Leukemia
• Drugs
• Infectious agents

Increased intravascular destruction of platelets or increased consumption

• -Systemic lupus erythematosus
• Various forms of hemolytic anemias
• Drug-induced hematologic disorders
• Idiopathic thrombocytopenia purpura (ITP)

Increased removal of platelets
-Hypersplenism

Consumption of platelets
-Disseminated intravascular coagulation

Disorders of platelet function

• Congenital disorders (thrombasthenia)
• Acquired disorders (chronic renal failure)

Question 43

Acquired Clotting Factor Deficiencies

Answer 43

Inadequate production of clotting factors
Excessive consumption of clotting factors
Action of anticoagulants
Hemophilia
Sex-linked congenital clotting factor deficiency
Hemophilia A: deficiency of factor VIII
Hemophilia B: deficiency of factor IX
Uncontrollable bleeding after trauma
Subcutaneous hematoma or hemarthrosis
Prolonged aPPT (prothrombin time normal)

Question 44

Hemophilia

Answer 44

Sex-linked congenital clotting factor deficiency
Hemophilia A: deficiency of factor VIII
Hemophilia B: deficiency of factor IX
Uncontrollable bleeding after trauma
Subcutaneous hematomas or hemarthrosis
Prolonged aPPT (prothrombin time normal)