WBC Pathology 1

Question 1

Which WBCs are considered “lymphoid”?

Answer 1

NK cells
T-cells
B-cells

Question 2

What is the ratio of RBCs, WBCs and platelets in an adult?

What are their sizes?

Answer 2

600 RBCs : 1 WBC : 40 platelets.

WBC > RBC > platelet

Question 3

From what embryological structure do HSCs arise? When?

When (during embryogenesis) do HSCs migrate to the bone marrow?

Answer 3

Mesonephros, and during the 3rd month of embryogenesis migrate to the liver (chief site of blood cell formation until shortly before birth).

4th month.

Question 4

What is major site of hematopoietically-active tissue in adults?

Answer 4

The bone marrow of the axial skeleton.

Question 5

What sites tend to have more red marrow?

Which sites tend to have more yellow marrow?

Answer 5

Red marrow: axial skeleton and hands/feet.

Yellow marrow: long bones (UE and LE

Question 6

What is used as a marker of sepsis in neonates?

Why?

Answer 6

Most doctors use the band count and its derived immature-to-total neutrophil ratio.

This is used because many neonates with bacterial infections have normal or below neutrophil counths with a left-shift.

Question 7

What percentage of lymphocytes exist at birth vs. at 4-6 mo.?

What changes again by 4, 6 and 8 years old?

Answer 7

30% of lymphocytes exist at birth and increase to 60% at 4-6 mo.

They decrease to 50% by 4 years, to 40% by 6 years and 30% by 8 years.

Question 8

What is the normal range of platelets?

How much can platelet production be increased in times of need?

How long does it take to produce new platelets under normal conditions?

What is the lifespan of a typical platelet?

Answer 8

150K - 450K / uL

Production can increase 10x in times of need.

The intramarrow production time is about 1 week.

7-10 day lifespan.

Question 9

Above 10 g/dL Hb, how is EPO released?

At what point does EPO increase logarithmically?

Answer 9

EPO is released at a constant rate if above 10 g/dL in response to decreased RBC mass.

If Hb is below 10 g/dL.

Question 10

How much blood exists in a 70kg person?

How much is replaced daily?

How much can rates increased when needed?

Answer 10

5 L

1% replaced daily.

Rate can increase 5x.

Question 11

What is an immature RBC termed? Why?

Answer 11

Reticulocyte - they contain remnant ER and ribosomes (rough ER) that forms a reticulum (net) within the RBC cytoplasm.

Question 12

How large are reticulocytes?

How long do they circulate?

Answer 12

They are about 20-30% bigger than RBCs.

They circulate for 2-3 days and represent about 2% of the RBC population.

Question 13

What occurs in the “red pulp” of the spleen?

What is recycled during this process?

Answer 13

Old/senescent RBCs (at about 120 days) are removed in the red pulp via macrophages that line the sinusoids.

Iron is recycled in this process.

Question 14

What triggers the transition from monocyte to macrophage?

Answer 14

Once a monocyte leaves the intravascular space and enters tissues, it becomes a macrophage.

Question 15

What is the lifespan of B-cells and T-cells?

Answer 15

B-cells: hours to days.

T-cells: days to years.

Question 16

What are the markers and percent composition for the following?

Th-cell
Tc-cell
B-cell
NK cell

Answer 16

Th-cell: CD4+; 32-56%.

Tc-cell: CD8+; 17-40%.

B-cell: CD19; 4-20%.

NK-cell: CD56+/16+; 4-18%.

Question 17

How much is 1 unit of blood?

Answer 17

1 pint

Question 18

What is the composition of blood (plasma, cellular components, etc.)?

Answer 18

Plasma: 55% (91% water, 9% molecules).

Cellular components: 45%.

• buffy coat (WBCs and platelets)
• RBCs

Question 19

What is hemocrit?

What is the range for men vs. women?

What height of RBCs in a tube be used to approximate?

Answer 19

A relative measure of RBC mass as % blood volume.

M: 38-52%
F: 37-47%

36 mm RBCs = 45% Hct.

Question 20

What is “serum”?

What is its composition?

Answer 20

The clear yellowish liquid that remains after blood has been allowed to clot post-centrifuge.

It is plasma with less fibrinogen and other clotting factors.

Question 21

What are the major proteins seen in blood? (5)

Answer 21

Albumin - 58%

Globulins - 38%

Fibrinogen - 4%

Regulatory proteins - <1%

Clotting factors - <1%

Question 22

What is the size of globulins compared to albumin?

Are they soluble?

Answer 22

They have greater weights than albumin.

Not in pure water, but are soluble in dilute salt solutions.

Question 23

What do conventional dendritic cells (cDC and mDC) secrete? (4)

What TLRs do they have? (2)

What is the function of conventional DCs?

Answer 23

IL-12, IL-6, TNF and chemokines.

TLR-2, TLR-4.

They are similar to monocytes and are a major stimulator of T-cells.

Question 24

What do plasmacytoid dendritic cells (pDC)s secrete?

What TLRs do they have?

What is the function of plasmacytoid DCs?

Answer 24

IFN-a (“IFN-a-producing cells”).

TLR-7, TLR-9.

They look like plasma cells, but function similar to mDCs (most common type of DC).

Question 25

How big can tumors get before they undergo vascularization?

Answer 25

About 1-2 mm. in diameter.

Question 26

When is differentiation (as a means of tumor classification) not useful?

What else is not very helpful? What exception?

Answer 26

Neoplasms of WBCs.

Staging, except for in Hodgkin lymphoma.

Question 27

How does marrow cellularity change with age?

Answer 27

Marrow cellularity begins at 80-100% in infancyand decreases to 50% after 30 years and further declines to 30% after 65 y/o.

It is replaced with yellow marrow.

Question 28

What are examples of physiologic EMH vs. pathologic EMH?

Answer 28

Physiologic: development (mesonephros, liver).

Pathologic: thalassemias, myelofibrosis, etc.

Question 29

What is the structure and function of bone marrow sinusoids?

Answer 29

They are tortuous vascular structures with a fenestrated epithelium and an enlarged diameter. They allow for the passage of cells from the vascular space to hematopoietic islands.

Question 30

In which diseases/conditions would a bone marrow biopsy be done?

Where is a biopsy usually take in an adult?

Answer 30

Malignancies, anemias, lymphadenopathies, etc.

PSIS.