Hemopoiesis

Question 1

Hemopoiesis aka as

Answer 1

Hematopoiesis

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RBC production

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Erythropoiesis

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WBC production

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Leukopoiesis

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Hemopoiesis talks about how:

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✓ blood cells are formed in the body
✓ how they mature
✓ what are the precursor cells needed for
differentiation

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is initiated in early embryonic development

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Hemopoiesis

Question 6

3RD WEEK OF GESTATION:

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Yolk Sac Phase

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Hematopoietic cells are generated in: the Yolk Sac as blood islands (cell aggregates) in the

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3rd week of gestation

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are the first blood cells formed during the first 2 to 8 weeks of life

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Primitive RBC (Erythroblasts)

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2ND MONTH – 5TH MONTH OF GESTATION

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Hepatic Phase

Question 10

By the second month to fifth month of gestation, the ______ becomes the major site of hematopoiesis

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liver

Question 11

have made their initial appearance in the second month to fifth month of gestation

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Granular Leukocytes (NEB)

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In the ________________, the bone marrow begins to function in the production of blood cells

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fourth month of gestation

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After _________, the function of liver and spleen in production of blood cell declines and the bone marrow assumes the role of hemopoiesis

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7-9 months

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5TH FETAL MONTH:

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Medullary Hematopoiesis

Question 15

After the fifth fetal month, the bone marrow begins to assume its ultimate role as the

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primary site of hematopoiesis

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Hematopoiesis outside the bone marrow is called

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Extra-medullary hematopoiesis

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Hematopoiesis in the bone marrow

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Medullary Hematopoiesis

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AFTER BIRTH
* The bone marrow will assume the function of hemopoiesis:

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✓ Vertebrae
✓ Sternum
✓ Ribs
✓ Femur – stops at age of 25
✓ Tibia – stops at age of 20

Question 19

As we age, we will have a declining hemopoiesis in

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ribs, sternum and vertebrae

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are involved in differentiation and proliferation for maturation.

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Growth Factors

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trigger maturation of cells into its mature form

promote differentiation and proliferation of cells to become their mature counterparts.

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Growth Factors

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States that our blood cells came from a single type stem cell which is the hematopoietic stem cell.

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Monophyletic Theory

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The hematopoietic stem cell (Pluripotent Stem Cells) can differentiate to be become either a

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Myeloid Stem Cell or a Lymphoid Stem Cell

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can become RBC, Platelets, Granulocytes, and Monocytes

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Myeloid Stem Cells

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can become Beta-Lymphoblast or T-Lymphoblast that will give rise to T-lymphocyte and B-lymphocyte

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Lymphoid Stem Cell

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Maturation is affected by the different GROWTH FACTORS:

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1. Erythropoietin = erythrocyte
2. Thrombopoietin = platelets
3. Colony stimulating factors (GM-CSF)
   ▪ Granulocyte CSF = eosinophil. Basophil, neutrophil
   ▪ Monocyte CSF = monocyte

Question 27

• Bone marrow stem cell believed to be where all blood cells arise

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Pluripotent Stem Cells

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• Can produce all blood cell types
• Proliferate and form two major cell lineages:

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Pluripotent Stem Cell

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two major cell lineages:

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✓ lymphoid cells (B and T lymphocyte)
✓ myeloid cells (RBCs, platelets, granulocytes,
Monocytes)

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daughter cells with restricted potentials that came from myeloid stem cells

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Progenitor Cells or Colony forming Units (CFUs)

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FOUR TYPES OF PROGENITORS/CFUS

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Myeloid stem cell gives rise to:
1. CFU-erythrocytes (CFU-E) = ERYTHROCYTE
2. CFU-megakaryocytes (CFU-Meg) = PLATELET
3. CFU-granulocytes-monocytes (CFU-GM) = BEN & MONOCYTES

Lymphoid stem cell gives rise to:
4. CFU-lymphocytes of all types (CFU-L) = T & B LYMPHOCYTE

Question 32

✓ Increased Potentiality (has increased potential to become
any of the progenitor cell depending on the demand of
body)
✓ Decreased Mitotic Activity
✓ Increased Self-Renewing Capacity
✓ Decreased susceptibility to Growth Factors

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STEM CELLS

Question 33

✓ Decreased Potentiality
✓ Increased Mitotic Activity (has the ability to
proliferate)
✓ Decreased Self-Renewing Capacity
✓ Highly Influenced by Growth Factors

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PROGENITOR CELLS

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✓ Increased Mitotic Activity
✓ Highly Influenced by Growth Factors

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PRECURSOR CELLS (blast cells/young cells)

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✓ Typical Morphologic Characteristics
✓ Differentiated Functional Activity

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MATURE CELLS

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• also called as hematopoietins (poietins)
• highly influences the progenitor and precursor cells

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Hemopoietic Growth Factors (CSF)

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Hemopoietic Growth Factors (CSF) has overlapping FUNCTIONS in:

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✓ Stimulating Proliferation (mitogenic activity) of immature (mostly progenitor and precursor) cells
✓ Supporting Differentiation of maturing cells
✓ Enhancing The Functions of mature cells

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Given to patients with low blood cell count (Patients undergoing chemotherapy and those who have malignancy) or patients who are immunocompromised

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HEMOPOIETIC GROWTH FACTORS

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TWO TYPES OF BONE MARROW:

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RED and YELLOW bone marrow

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• blood-forming red bone marrow

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Red bone marrow

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filled with adipocytes
→ Can revert back to red bone marrow when needed

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Yellow bone marrow

Question 42

In the newborn, ________________________________________ in blood cell production

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all bone marrow is red and active

Question 43

As we age, other areas like in __________________________ will have a decreased activity of blood cell production

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vertebrae, sternum, rib, femur, and tibia

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In conditions like ____________________, where there is demand for more red blood cells, yellow marrow reverts to red

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severe bleeding or hypoxia

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Components of the Red Bone Marrow

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Stroma
Hemopoietic cords
Sinusoidal capillaries
Matrix of bone marrow (collagen type 1, proteoglycans, fibronectin, and laminin)

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→ Meshwork of reticular or adventitial cells and a delicate web of reticular fibers supporting hemopoietic cells and macrophages

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Stroma

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island of cells (blood islands)

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Hemopoietic cords

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→ This is where blood exits if they are already mature

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Sinusoidal capillaries

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Matrix of bone marrow also contains:

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collagen type I, proteoglycans, fibronectin, and laminin

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stabilizes the cell attached to the marrow

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Laminin

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In certain abnormal circumstances, the spleen, liver, and lymph nodes revert back to producing immature blood cells

There is resulting

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splenomegaly and hepatomegaly

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CLINICAL SIGNIFICANCE

When the bone marrow becomes dysfunctional in cases such as

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aplastic anemia, infiltration by malignant cells, or over proliferation of cell line (e.g., leukemia)

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CLINICAL SIGNIFICANCE

When the bone marrow is unable to meet the demands placed on it, as in the

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hemolytic anemias

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→ specialized niches in which erythroid
precursors proliferate, differentiate, and enucleate (expel nucleus)

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Erythropoietic Islands

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Erythroid cells account for ___% - ____ % of nucleated cells in normal bone.

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5% to 38%

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MATURATION SERIES (RBC)

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1. Proerythroblast (Rubriblast)
2. Basophilic Erythroblast (Prorubricyte)
3. Polychromatophilic Erythroblast (Rubricyte)
4. Orthochromatophilic Erythroblast (Metarubricyte)
5. Reticulocyte (Polychromatophilic Erythrocyte)
6. Erythrocyte

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As nucleus is expelled, the capacity of the erythrocyte to carry hemoglobin ____________ (thus it is important to expel the nucleus)

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increases

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▪ First recognizable cell in the erythroid series
▪ a large cell with loose, lacy chromatin, nucleoli, and basophilic cytoplasm

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Proerythroblast

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▪ With more strongly basophilic cytoplasm and a condensed nucleus with no visible nucleolus.
▪ Basophilia of these two cell types is caused by the large number of polyribosomes synthesizing hemoglobin

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Basophilic Erythroblast

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▪ cell volume is reduced
▪ show regions of both basophilia and acidophilia in the cell
▪ Heterochromatin granules form a checkerboard pattern

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Polychromatophilic Erythroblast

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▪ After the last mitosis, the nucleus becomes small and dense (pyknotic), and the ___________________ stage is reached
▪ mitosis is no longer possible

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Orthochromatophilic Erythroblast

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▪ smaller than the polychromatophilic erythroblast

▪ contains more abundant hemoglobin and fewer polyribosomes and remains slightly polychromatophilic

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Orthochromatophilic Erythroblast

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▪ the nucleus and a small rim of cytoplasm are ejected from the orthochromatophilic erythroblast
▪ On air-dried films with Romanowsky-type stains, the reticulocyte is polychromatophilic as a result of the retention of RNA in reticulocytes

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Polychromatophilic Erythrocyte / Reticulocyte

Question 64

Reticulocyte constitute __% - ___% of the the total RBC count, lose the polyribosomes and quickly mature as erythrocytes

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1% to 2%

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Reticulocyte matures to form

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Erythrocyte

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• formation of BEN (basophil, eosinophil, neutrophil)

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Granulopoiesis

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• Myeloid cells account for __% - __% of the nucleated cells in normal bone marrow

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23% to 85%

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(MYELOID) Early cells are located in the

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cords and around the bone trabeculae

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Neutrophils in the bone marrow reside in the:

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✓ Proliferating Pool - where cells spend an average of 3 to 6 days and released in:
✓ Maturation Storage Pool

Question 70

If needed, cells from the storage pool can exit into the circulation rapidly and will have an average life span of ________ hours

If there is an infection, cells from storage pools are ______

Answer 70

6 to 10 hours; released

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MATURATION SERIES (GRANULOPOIESIS)

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Myeloblast
Promyelocyte
Myelocyte
Metamyelocyte

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– no cytoplasmic granule

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Myeloblast

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– first azurophilic granules being secreted in Golgi apparatus

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Promyelocyte

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moderate number of azurophilic granules and initial production of specific granules in Golgi zone

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Myelocyte

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abundant specific granules and dispersed azurophilic granules; Golgi apparatus reduced

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Metamyelocyte

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▪ most immature recognizable cell
▪ has finely dispersed chromatin, and faint nucleoli
▪ can be seen in bone marrow

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Myeloblast

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▪ characterized by its basophilic cytoplasm and azurophilic granules containing lysosomal enzymes and myeloperoxidase
▪ produce lineages for the three types of granulocytes

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Promyelocyte

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▪ with gradual increase of specific granules

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Myelocytes

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▪ specific granules eventually occupy most of the cytoplasm
▪ mature with further condensations of the nuclei

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Metamyelocyte

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▪ stage at which granulocytes are clearly identified if it is eosinophil, basophil or neutrophil

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Metamyelocyte

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▪ Mature basophil, eosinophil, neutrophil

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Mature Granulocyre

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cells that are capable of undergoing mitosis

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Granulopoietic compartment

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acts as a buffer system (releases cells when needed)

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Storage compartment

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FUNCTIONAL COMPARTMENTS OF NEUTROPHILS in Bone Marrow

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Granulopoietic and Storage Compartment

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FUNCTIONAL COMPARTMENTS OF NEUTROPHILS inBlood

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Circulating cells
Marginating Cells

Question 87

they circulate throughout the blood

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Circulating cells

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they try to adhere to endothelial cells

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Marginating cells

Question 89

(TRUE OR FALSE)
Increase in the number of neutrophils in the circulation, does not necessarily imply an increase in neutrophil production

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TRUE

Question 90

▪ can cause neutrophils in the marginating compartment to move into the circulating compartment
▪ those cells attached to endothelial cells detach and move to the circulation = increase in neutrophil count

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INTENSE MUSCULAR ACTIVITY OR THE
ADMINISTRATION OF EPINEPHRINE

Question 91

▪ increase the mitotic activity of neutrophil precursors in the marrow

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ADMINISTRATION OF GLUCOCORTICOIDS (ADRENAL GLAND HORMONES)

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▪ is due to an increase in production of neutrophils and shorter duration cells in the medullary storage compartment

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BACTERIAL INFECTIONS NEUTROPHILIA

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▪ Immature cells may appear in the bloodstream
→ Examples are band neutrophils

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BACTERIAL INFECTIONS NEUTROPHILIA

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• Formation of monocytes

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Monocytopoiesis

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MATURATION SERIES (Monocytopoiesis)

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Monoblast
Promonocyte
Monocyte

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▪ is a committed progenitor cell
▪ identical to the myeloblast in its morphologic
characteristics

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Monoblast

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▪ a large cell (up to 18 m in diameter) with basophilic cytoplasm and a large, slightly indented nucleus
▪ chromatin is lacy and nucleoli are evident
▪ divide twice as they develop into monocytes

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Promonocyte

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▪ rich in RER, has extensive Golgi apparatus in which granule condensation occurs
▪ no specific granule, only azurophilic granule

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Monocyte

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observed as fine azurophilic granules in blood monocytes
– function for several months as macrophages as they enter tissues

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Primary Lysosomes

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LYMPHOPOIESIS
* arose from

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Lymphoid Stem Cell

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lymphocytes and plasma cells are produced in

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lymphoid follicles

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Lymphoid cells typically account for __% - __% of the nucleated cells in the normal bone marrow

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1% to 5%

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all lymphocyte progenitor cells originate in the

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bone marrow

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Circulating lymphocytes originate mainly in the:

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✓ Thymus (t-lymphocytes)
✓ peripheral lymphoid organs (B-lymphocytes)
→ from the word “bursa”

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MATURATION SERIES (Lymphopoiesis)

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Lymphoblast
Prolymphocytes
Lymphocytes (T-Lymphocyte or B-Lymphocyte)

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▪ the first identifiable progenitor of lymphoid cells
▪ divides two or three times

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Lymphoblast

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▪ are smaller and have relatively more condensed chromatin but none of the cell-surface antigens that mark T or B lymphocytes.

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Prolymphocytes

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▪ acquire their full attributes in the thymus
▪ mature in thymus
▪ predominant lymphocyte in the lymphoid organs

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T-Lymphocyte

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▪ lymphocytes that have differentiated in the bone marrow
▪ acquire their full attributes in the bursa
▪ migrate to peripheral lymphoid organs, where they inhabit and multiply in their own special compartments

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B-Lymphocyte

Question 110

To distinguished this two (T-Lymphocyte or B-Lymphocyte), _________________________________________ are required.

Cluster differentiation markers are present

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(T-Lymphocyte or B-Lymphocyte)

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• are malignant clones of leukocyte precursors
• blast cells became malignant or tumor cells

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Leukemias

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General groups of leukemias:

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Lymphocytic leukemias
Myelogenous and Monocytic leukemias

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→ involves blast cell of lymphocytes

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Lymphocytic leukemias

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→ Involve blast cells of BEN or monocytes

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Myelogenous and Monocytic leukemias

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• shift in cell proliferation
• patient with leukemia is usually ________________________ because WBCs in the circulation are the blast cells.

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anemic and prone to infection

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Clinical technique used in the study of leukemias

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BONE MARROW ASPIRATION

Question 117

specific to membrane proteins of precursor blood cells aids in identifying cell types derived from these stem cells

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labeled monoclonal antibodies

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• Also known as thrombocytopoiesis
• Platelet production

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Megakaryopoiesis

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MATURATION SERIES (Megakaryopoiesis)

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Megakaryoblast
Promegakaryocyte
Megakaryocyte
Platelet

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▪ are the largest cells found in the bone marrow
▪ Protrude through the vascular wall as small cytoplasmic processes to deliver platelets into the sinusoidal blood

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Megakaryocytes

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Megakaryocytes develop into platelets in approximately

Answer 121

5 days

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▪ Metabolically active cell fragments.
▪ cytoplasmic fragments of megakaryocytes

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Mature platelets

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▪ These anuclear cells circulate in the peripheral blood after being produced from the cytoplasm of bone marrow megakaryocytes
▪ Appear as aggregates in blood smear.

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Mature platelets

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• Disease characterized by decreased number of platelets
• Indicating a defect in the liberation mechanism of these corpuscles

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THROMBOCYTOPENIC PURPURA

Question 125

• Life span of platelets: 9 days
• Excessive bleeding is expected when there is wound

Answer 125

THROMBOCYTOPENIC PURPURA