Pathology Lecture 7 PDF

Summary

Lecture 7 details Non-neoplastic WBC disorders, examining topics such as Neutropenia/Agranulocytosis, Reactive leukocytosis, and Reactive Lymphadenitis. The lecture covers various aspects of these conditions, from their causes to symptoms and treatment.

Full Transcript

7

Mahde sabbagh
Mahde sabbagh
 Non-neoplastic WBC disorders

Topics that will be discussed today: *These are modified slides that contain a lot of extra
information for understanding purposes, original slide
notes are bold, other than that, everything is extra.

1. An overview
2. Neutropenia/Agranulocytosis
3. Reactive leukocytosis: HLH and cat-
scratch disease.
WHITE BLOOD CELL DISORDERS
Disorders are primarily associated with the count of white blood cells and include deficiency (leukopenia)
and proliferation (leukocytosis).

Leukocytosis is more common than leukopenia (whereas in RBCs, anemia is more common than
polycythemia).

Leukocytosis: increased number of WBC in peripheral blood (any cause).
Leukocytosis can be benign or neoplastic. if benign, it is called reactive leukocytosis, which happens in
response to a primary, often microbial, disease (common).
Neoplastic disorders (autonomous production, called leukemia), although less common, are more serious.
Leukemia: increased number of WBC in peripheral blood secondary to neoplastic disease.

Reactive leukocytosis is more common than leukemia.

Next are brief descriptions of some non-neoplastic conditions (this lecture), followed by more detailed
considerations of the malignant proliferations of white cells (lectures 8,9,10):

Non-neoplastic WBC disorders:
1. Neutropenia/ Agranulocytosis:
A reduction in the number of granulocytes (mainly neutrophiles) in blood is known as neutropenia or, when
severe, agranulocytosis.

Patients become susceptible to infections (namely bacterial and fungal).
If neutrophil count drops below 500 cells/uL (severe), spontaneous infection becomes a risk (Infection
arising internally, often from gut bacteria, without external cause).

Pathogenesis of neutropenia:

1. Decreased production (caused mostly by disorders that result in pancytopenia, we discussed most of
them in the previous lectures):aplastic anemia, Myelophthisic anemia, myelodysplastic syndrome,
advanced megaloblastic anemia, chemotherapy, drugs (anti-epileptic, antihyperthyroidism).

2. Increased destruction: This can be seen in immune mediated injury (seen in SLE), anything that causes
splenomegaly (leads to the sequestration and accelerated removal of neutrophils), overwhelming
bacterial, fungal or rickettsial infections (increased peripheral use and destruction).
2. Reactive leukocytosis:
An increase in any type of white blood cell (WBC) leads to a higher overall WBC count, known as leukocytosis.
Since neutrophils are the most abundant leukocytes in peripheral blood, leukocytosis is most commonly due
to an increase in neutrophils (neutrophilia), resulting in a higher total WBC count

The types of leukocytosis, from most to least common, include:

1. Neutrophilia: caused by infections or even sterile inflammations (tissue necrosis, as seen in burns).

2. Lymphocytosis: viral infections, Bordetella pertussis infection (bacteria), chronic infections (TB,
brucellosis). In children, it can be more common than neutrophilia.

3. Monocytosis: mostly in chronic infections and chronic inflammations (rheumatologic diseases, a
chronic autoimmune disorder, and inflammatory bowel disease)

4. Eosinophilia: asthma, allergic diseases, drug sensitivity, parasitic and helminthic infections, and
some neoplasms as in Hodgkin lymphoma.

5. Basophilia: rare, seen in myeloproliferative neoplasms (like polycythemia vera and chronic myeloid
leukemia)
3. Reactive Lymphadenitis:

A benign proliferation, secondary to a stimulus. Infections and nonmicrobial inflammatory stimuli often
activate immune cells residing in lymph nodes, which act as defensive barriers. Any antigenic stimulation in
lymph nodes can lead to lymph node enlargement (lymphadenopathy).

Lymphadenopathy is an enlargement of the lymph node regardless of the cause (benign or malignant).

It can be localized to a specific area of the body, such as the neck or armpit, or it can be generalized
throughout the body.

A. ACUTE NON-SPECIFIC LYMPHADENITIS: This form of lymphadenitis usually follows acute infections, as
lymph nodes work to drain the infection, resulting in swollen, enlarged and painful lymph nodes.

The nerves around the lymph nodes stretch and cause pain due to the rapid enlargement of the lymph node.
In contrast, chronic lymphadenitis is painless because the enlargement occurs gradually.

Overlying skin is red and may develop a sinus tract (tunnel-like passageway that extends from the surface
of the lymph node to an underlying or area of infection), the germinal centers in the lymph node are
enlarged (high mitotic activity).

With severe infection, liquefactive necrosis develops and may enlarge to form an abscess.
In severe cases, two key indications are:

Liquefactive necrosis: necrosis in which tissue turns into a liquid mass, often due to bacterial or fungal
infections or chemical burns. Hydrolytic enzymes digest the cells, resulting in a soft lesion filled with pus and
necrotic fluid

Abscess formation: a tissue mass usually in severe infection, containing bacteria, dead cells, and
inflammatory cells, resulting in pus-filled cavity.

B. CHRONIC NON-SPECIFIC LYMPHADENITIS: Chronic (benign) enlargement of lymph node, painless.
Depending on the causative agent, chronic nonspecific lymphadenitis can assume one of three patterns:

1-Follicular hyperplasia (activated B cells, migrate into B cell follicles and create the follicular reaction):
chronic proliferation of B-lymphocytes, seen in rheumatologic diseases, toxoplasmosis and HIV
infection (even though HIV is viral infection, only B cell proliferation is seen since HIV directly reduces T cell
count).
2-Paracortical hyperplasia: proliferation of T-lymphocytes, seen in viral infections (example EBV), after
vaccination and in some immune reactions triggered by drugs (a drug can cause eosinophilia when it reacts
in peripheral blood, leading to an increased number of eosinophils. When it reacts in lymph nodes, it can
cause paracortical hyperplasia, but still, it all depends on the drug itself and its interactions).
3-Sinus histiocytosis: proliferation of macrophages in lymph node sinuses, seen in adjacent cancer.
Sinus histiocytosis is distention and prominence of the lymphatic sinusoids, owing to a marked hypertrophy
of lining endothelial cells and an infiltrate of macrophages (histiocytes). It is often encountered in lymph
nodes draining cancers and may represent an immune response to the tumor or its products (so, the
lymphadenopathy is not malignant, but rather a reaction to an adjacent cancer, for ex: breast carcinoma
causes enlargement of the axillary lymph nodes due to histiocytosis).

This histologic diagram of reactive lymphadenitis shows:

Left side: Numerous, large, and crowded lymphoid follicles,
indicating follicular hyperplasia.
Right side: A significant decrease in the number of follicles
with expanded areas between them filled with T lymphocytes
from the paracortex, indicating paracortical hyperplasia.
Bottom right: Presence of sinus histiocytosis.

Now, we will discuss some diseases that can cause Lymphadenitis:

1. CAT-SCRATCH DISEASE:

A bacterial infection caused by Bartonella henselae.
Transmitted from cats (bite, scratch or exposure to infected saliva). Most seen in children (disease
of childhood).
Causes acute lymphadenitis (so, it’s painful) in neck/axilla area (upper body), and symptoms appear
after two weeks of infection (incubation period).

Bacteria causes liquefactive necrosis and necrotizing granulomas (remember, also seen in TB) in lymph
nodes.
Mostly self-limited in 2-4 months, rarely can disseminate into visceral organs.

2. HEMOPHAGOCYTIC LYMPHOHISTIOCYTOSIS (HLH disease):
Hemophagocytic: phagocytosis of RBCs, thus, anemia. Lymphohistiocytosis: high number of lymphocytes
and histiocytes.

HLH is an uncommon disease in which Viral infection or other inflammatory agents severely activate
macrophages (histiocytes) throughout body to engulf normal blood cells and their precursors in bone
marrow. Patients have defective genes related to the function of cytotoxic T cells (CD8+) and natural
killer cells

Inherited defects in several genes that regulate the function of immune cells are associated with a greatly
elevated risk of HLH.
Patients have defective genes related to the function of cytotoxic T cells and natural killer cells; thus,
they are unable to kill their targets (virus-infected cells) and are engaged with them for a long period,
releasing excess interferon-γ that activates macrophages.
Activated macrophages release TNF and IL-6 that causes systemic symptoms of inflammation and
sepsis, leading to the systemic inflammatory response syndrome “SIRS”.

HLH-TYPES:

1. Infants and young children:
Homozygous defects in gene PRF1 (perforin1) that encodes perforin, an essential enzyme in cytotoxic T-
lymphocytes and natural killer cells. In this setting the trigger may be some normally trivial childhood viral
infection.

2. Adolescents and adults:
X-linked lymphoproliferative disorder (males), in which the trigger is EBV infection. Those affected have a
defective Signaling lymphocyte activation molecule (SLAM)-associated protein, leading to inefficient
killing of EBV-infected B-lymphocyte

3. May be associated with systemic inflammatory disorders:
HLH also may complicate other non-infectious systemic inflammatory disorders such as rheumatologic
diseases (autoimmune).
Patients have heterozygous genetic defects in genes required for cytotoxic T-cells, creating a genetic
background that increases the likelihood of HLH, but the exact defect is still unknown.
4. T-cell Lymphomas:
Finally, HLH may be seen as a secondary phenomenon in patients with peripheral T cell lymphomas, as
Malignant T-cells produce aberrant cytokines leading to dysregulation of normal cytotoxic T-cells.

Symptoms of HLH:

1.Fever (caused by the inflammation) Splenomegaly and hepatomegaly (due to macrocytic infiltration),
pancytopenia (since macrophages destroy RBCS, WBCs, platelets, and even progenitor cells).

2.High ferritin (an inflammatory marker, acute phase protein).

3.High triglyceridemia (most likely due to hepatic dysfunction caused by hepatomegaly, which impairs lipid
metabolism. Leading to an accumulation of triglycerides in the blood).

4.High serum IL-2 (an inflammatory marker).

5.Low level of blood cytotoxic T-cells and natural killer cells (although the primary issue is their activity,
their prolonged engagement with inflammation localizes most of them in tissues).

6.BM biopsy: numerous macrophages engulfing RBCs, platelets and granulocytes.
 It is uncommon

Patients have defective genes related to the
function of cytotoxic T-cells and natural killer
cells, thus they are engaged with their target
(virus-infected cells) for a long period and Viral infection or other inflammatory agents
release excess interferon-y that activates cause activation of hisitocytes to engulf normal
macrophages blood cells and their precursors in the bone increased number of WBC in peripheral blood
Activated macrophages release TNF and IL-6 marrow (any cause). If benign, it is called reactive
that causes systemic symptoms of inflammation leukocytosis
(systemic inflammatory response syndrome
"SIRS") Either deficiency(leukopenia)or Leukocytosis More common than leukopenia
proliferation(leukocytosis)
- 1) Infants and young children
Homozygous defects in gene PRF1 that Reactive leukocytosis (benign)is more common
encodes perforin than leukemia(neoplastic)
An essential enzyme in cytotoxic T-
lymphocytes and natural killer cells
Patients become susceptible to infections
2) Adolescents and adults Hemophagocytic (namely bacterial and fungal)
X-linked lymphoproliferative disorder (males)
Defective Signaling lymphocyte activation lymphohistiocytosis(HLH) If neutrophil count drops below 500 cells/ul →
spontaneous infection
molecule (SLAM)-associated protein
Inefficient killing of EBV-infected B lymphocyte
Types: Decreased production causes : aplastic anemia,
myelophthisic anemia, myelodysplastic
3) May be associated with systemic Neutropenia/Agranulocytosis syndrome, advanced megaloblastic anemia,
inflammatory disorders such as rheumatologic chemotherapy, drugs (anti-epileptic, anti-
diseases hyperthyroidism)
Patients have heterozygous genetic defects in
genes required for cytotoxic T-cells
Increased destruction causes: immune mediated,
splenomegaly, overwhelming bacterial, fungal or
4) T-cell lymphomas rickettsial infections
Malignant T-cells produce aberrant cytokines
leading to dysregulation of normal cytotoxic T-
cells

Fever, splenomegaly and pancytopenia
Non neoplastic WBCs Neutrophilia: infections, inflammation (necrosis)
High ferritin(acute phase protein)
High triglyceridemia(impaired lipid metabolism)
disorders Lymphocytosis:viral infections,brodetella
pertussis infection,chronic infections like TB and
High serum IL-2 brucellosis
Symptoms
Low level of blood cytotoxic T-cells and
natural killer cells
BM: numerous macrophages engulfing RBCs, Monocytosis: chronic infections, rheumatologic
Reactive leukocytosis diseases, inflammatory bowel disease
platelets and granulocytes

Eosinophilia: asthma, allergic diseases, ‼ drug
sensitivity, parasitic infections, Hodgkin
Bacteria cuses liquefactive necrosis and Transmitted from cats (bite, scratch, infected lymphoma
Causative agent:Bartonella henselae
necrotizing granulomas in lymph nodes saliva)
Basophilia: rare, seen in myeloproliferative
Most commonly in children neoplasms

Causes acute lymphadenitis in neck/axilla area
Symptoms appear after two weeks of infection Cat scratch disease
Antigenic stimulation in lymph nodes
Causes lymph node enlargement
Mostly self-limited in 2-4 months, rarely can (lymphadenopathy)
disseminate into visceral organs Can be localized or generalized

Swollen, enlarged and 😱 painful lymph nodes
Overlying skin is red and may develop a sinus
tract
Reactive lymphadenitis 1-acute non specific The germinal centers in the lymph node are
enlarged, infiltrated by neutrophils. With severe
infection, ‼ liquefactive necrosis develop and
may enlarge to form abscess

Types: Chronic enlargement of lymph node, 💪 painless

Follicular hyperplasia: chronic proliferation of

Mind Map by Hala Abu Khamseh
B-lymphocytes, seen in rheumatologic diseases,
toxoplasmosis and HIV infection
2-chronic non specific.Paracortical hyperplasia:proliferation of T
lymphocytes seen in viral infections after
vaccination and drug reaction

Sinus histiocytosis: proliferation of
macrophages in lymph node sinuses, seen in
adjacent cancer