Diseases Exam 3

Question 1

Leukemia vs. Lymphoma

Answer 1

Leukemia:

• Malignancy of hematopoetic cells
• Starts in bone marrow (can spread to blood, nodes)
• Myeloid or lymphoid
• Acute or chronic

Lymphoma:

• Malignancy of hematopoetic cells
• Starts in lymph nodes (can spread to blood, marrow)
• lymphoid only
• Hodgkin or non-hodgkin

Question 2

Acute vs. Chronic Leukemia

Answer 2

Acute:

• Sudden onset
• Can occur in either adults or children
• Rapidly fatal w/o treatment
• Composed of immature cells (blasts)
• Patient will present w/ bleeding problems, infx probs, anemia etc.

Chronic leukemia:

• Slow onset
• ONLY in adults (

Question 3

Acute Leukemia

Answer 3

Definition: Malignant proliferation of immature myeloid or lymphoid cells in the bone marrow

Cause: clonal expansion, maturation failure

Problems caused:

• Crowd out normal cells
• Inhibit normal cell funcitons
• Infiltrate other organs (i.e. brain) - not very common

Clinical findings:

• Sudden onset (days)
• Symptoms of bone marrow failure (fatigue, infx, bleeding)
• Bone pain (expanding marrow
• Organ infiltration (liver, spleen, brain)

Labs:

• Blasts/immature cells in blood
• Leukocytosis
• Anemia
• Thrombocytopenia

Question 4

Acute Myeloid Leukemia

Answer 4

Things you must know:

• Malignant proliferation of myeloid blasts in blood, bone marrow
• 20% blast cells is cutoff for dx
• many subtypes
• bad prognosis

Old classification:
M0,1,2,3 - Involve neutrophilic series (myeloblasts, promyelocytes, etc.)
M4,5- involve monocytic series (monoblasts etc.)
M6 - involves erythroid series (erythroblasts)
M7 - involves megakaryocytic series (megakaryoblasts)

New clasification: AML w/:

• genetic abnormalities
• FLT-3 mutation
• w/ multilineasge dysplasia
• therapy related
• not otherwise classified

Treatment:

• Chemo
• Bone marrow transplant

Prognosis:

• Dismal
• t(8;21), inv(16), t(15;17) better
• FLT-3, therapy-related worse

Question 5

AML - M0

Answer 5

Things you must know:

• large increase in myeloblasts
• Bland
• Myeloperoxidase negative
• Need markers (to run flow cytometry)

So early it’s hard to even tell they are myeloblasts.

Question 6

AML - M1

Answer 6

Things you must know:

• large increase in myeloblasts
• no maturation
• auer rods
• Myeloperoxidase positive

Question 7

AML-M2

Answer 7

Things you must know:

• Increase in myeloblasts
• Maturing neutrophils
• t(8:21) in some cases

Question 8

AML - M3

Answer 8

Things you must know:

• Large increase in promyelocytes
• Faggot cells (lots of auer rods)
• DIC
• t(15;17) in all cases

Mutated retinoic acid receptor –> treat with ATRA (all trans retinoic acid). This has high cure rate and prevents DIC

Question 9

AML-M4

Answer 9

• Significant increase in myeloblasts
• Significant increase in monocytic cells
• Extremedullary tumor masses
• inv (16) in some cases

Question 10

AML- M5

Answer 10

Significant increase of monocytic cells
NSE (non specific esterase) positive
M5A and M5B
Extramedullary tumor masses

Question 11

AML - M6

Answer 11

Significant increase in erythroblasts and myeloblasts

Dyserythropoiesis

Question 12

AML-M7

Answer 12

Significant megakaryoblasts
Bland blasts
MPO negative
Need markers (to run flow cytometry)

Question 13

AML w/ genetic abnormalities

Answer 13

t(8;21) –> M2 = good prognosis
inv(16) –> M4 = good prognosis
t(15;17) –> M3 = good prognosis
11q23 –> therapy related often = bad

Question 14

AML w/ FLT-3 mutation

Answer 14

• Mutation of FLT-3 (a tyrosine kinase)
• Present in 1/3 of cases of AML!
• Monocytic cells
• Poor prognosis

Question 15

AML w/ multilineage dysplasia

Answer 15

• ≥ 20% blasts + dysplasia in ≥ 2 cell lines
• Elderly
• Severe pancytopenia
• Chromosome abnormalities (5, 7)
• Poor prognosis

Question 16

AML, Therapy-Related

Answer 16

• Previous chemotherapy
• Alkylating agents (Busulfan) or topoisomerase II inhibitors (Etoposide) (others too)
• 2-5 years to onset
• Chromosomal abnormalities sometimes (5, 7, 11q23)
• Very hard to treat

Question 17

Meyelodysplastic Syndrome (MDS)

Answer 17

• Problem: abnormal stem cells
• Dysmyelopoiesis
• Maybe increased blasts
• May evolve into acute leukemia

Clinical and Lab findings:

• older patients
• Asymptomatic, or BM failure
• Macrocytic anemia

Treatment:

• Low grade: support, follow
• High-grade: be aggressive –> treat like leukemia

Question 18

Red cell dysplasia looks like ?

Answer 18

megaloblastic nuclei, fragmentation

Question 19

Neutrophilic dysplasia looks like ?

Answer 19

hypogranulation, hyposegmentation

Question 20

Magakaryoctyic dysplasia looks like

Answer 20

small, non-lobulated cells

Question 21

Acute Lymphoblastic Leukemia

Answer 21

Things you must know:

• Malignant proliferation of lymphoid blasts in blood, bone marrow
• Classified by immunophenotypes (B vs. T)
• More common in children
• Prognosis is often good

T-lymphoblastic leukemia has worse prognosis

Prognosis:

• Immunophenotype (T is bad)
• Age (1-10 good)
• WBC (

Question 22

T-Lymphoblastic Leukemia

Answer 22

= T-lymphoblastic lymphoma

-Teenage male with mediastinal mass
-WBC usually very high
Bad prognosis

Question 23

B lymphoblastic Leukemia

Answer 23

= B-cell lymphoblastic lymphoma

• Several sub- and sub-subtypes
• TdT +
• Rarely, Philedelphia chromosome + ! (if so = bad)

Question 24

Malaria

Answer 24

1 child killer (1 per minute)

Epidemiology:

• Most prevalent in Africa, Asia, Latin America
• 216 million affected, 655,000 die each year (90% in SSA)

Vector: Anopheles Mosquito

Causative agent: Plasmodium vivax (common; more benign), P. falciparum (common ; most lethal), P. ovale, P. malariae

Life cycle: sporozoites transmitted from mosquito –> hepatic schizonts –> Merozoites –> ring form –> trophozoite –> schizont

Organ findings:

• Splenomegaly (parasites in RBCs, super-active macrophages, if chronic: fibrosis, grayish color)
• Hepatomegaly and liver becomes pigmented (gray)
• Brain vessels get plugged (rosettes and binding of endothelium) causes hypoxia and eventual ischemia
• Heart, lungs may also be involved.

Clinical presentation:
-Incubation = 1-2 weeks
-Prodrome: flu-like illness
-Paroxysms! Fever/chills, sweating, myalgia
Quotidian (daily) - P. falciparum
Tertian (every 48 hours) - P. vivax or ovale
Quartan (every 72 hours) P. malaria

Host resistance:

• Inherited RBC alterations: Hemoglobinopathies (i.e. sickle cell), Thalassemias, G6PD, RBC antigens (ABO - O is best, Duffy)
• Partial immune-mediated resistance: develops over time in patients in endemic areas, reduces severity of disease, and P. falciparum uses antigenic variation

Dx: Clinical sx + hx; identification of plasmodia in RBCs on regularly-stained blood smear (gold standard); and rapid immunochromatographic tests (quicker but less accurate)\

Rx: Depends on resistance, previous treatment, and area where they were infected (which species, and on sickness of person. 1.) protection/nets, 2.) prophylaxis, and 3.) treat malaria, and 4.) radical cure (primaquine) for latent forms? (debated)

Question 25

Plasmodium falciparum

Answer 25

Worst cause of malaria. Especially endemic to Africa.

Lots of ring forms and crescent shaped gametocytes

Able to infect RBCs of any age

Have P-Femps which cause agglutination (rosettes)

Causes red cell pathology:

• rosettes (clumping of RBCs around infected cell)
• abnormal binding to endothelium
• blood flow is impeded
• main cause of death in children is cerebral ischemia

Stimulates high production of cytokines –>Suppress RBC, cause fever, tissue damage, and RBC binding to endothelium.

Quotidian (daily) fever

Uses antigenic variation

Chloroquine resistance common

Question 26

Plasmodium malariae

Answer 26

Not super common or lethal. Low paraside burden, mild anemia.

Rosette arrangement of merozoites

Quartan (every 72 hours) fever

Question 27

Plasmodium vivax

Answer 27

Common but not super lethal

Low parasite burden, mild anemia

Relapses

Schuffner’s dots and enlarged red cells

Chloroquine resistance common

Question 28

Plasmodium ovale

Answer 28

Not super common or lethal. Low paraside burden, mild anemia.

Relapses

Schuffner’s dots and enlarged red cells

Question 29

Allergic rhinitis, sinusitis (hay fever)

Answer 29

localized allergic reaction (Type I hypersensitivity) that causes increased mucus secretion and inflammation

Question 30

Bronchial asthma (atopic forms)

Answer 30

Localized allergic reaction (Type I hypersensitivity) that causes airway obstruction due to bronchial smooth muscle hyperactivity; inflammation and tissue injury caused by late-phase reaction.

Question 31

Food allergies (allergic gastroenteritis)

Answer 31

Localized allergic reaction (Type I hypersensitivity) that causes increased peristalsis due to contration of intestinal mucosa.

Question 32

Urticaria (hives)

Answer 32

Often a manifestation of a systemic reaction (i.e. allergic drug reaction) often precedes anaphylaxis.

Question 33

Type I hypersensitivity

Answer 33

Seen in patients who make too much IgE to an environmental antigen, which is often innocuous like a pollen or food.

More than 10% of the population have allergenic sx

Usually a nuisance, but anaphylaxis can be fatal.

Genetic and environmental component.

Rx: avoid offending allergen if possibel; antihistamines, corticosteroids, agents that inhibit release of histamine from mast cells ,leukotriene modifiers, immunotherapy (desensitization therapy)

Question 34

Type II hypersensitivity

Answer 34

Autoimmunity due to antibodies which can react against self.

Can come about from a number of ways:

1. ) foreign antigen happens to look like a self molecule, the response can cross-react.
2. )Antigen sticks to certain cells in the body. Immune system destroys innocent bystanders.

Ex: Hemolytic disease of newborn, myasthenia gravis, Good pasture’s syndrome

Question 35

Type III hypersensitivity

Answer 35

Can occur whenever someone makes antibody against a soluble antigen.

Small immune complexes become trapped in basement membranes or capillaries and activate complement. The usual inflammatory response occurs, with the tissue damaged as an innocent bystander.

No matter where the antigen is the symptoms tend to be the same: arthritis, glomerulonephritis, pleurisy, rash.

Examples of foreign antigens that cause type III are: large dose penicillin, antiserum (aka serum sickness). Also can be reactions to self such as SLE and RA.

I.e. Lupus and RA.

Question 36

Type IV hypersensitivity

Answer 36

Cell-mediated hypersensitivity caused by activated CD$ T cells. Can be autoimmune or more commonly innocent bystander injury.

I.e. Tuberculosis and hepatitis most damage is done by T cells, not the bacteria or viruses.

Examples: Contact hypersensitivity, Tuberculin rxn, Granulomatous hypersensitivity (macrophages wall off TB or Crohn’s)

Question 37

Anaphylaxis

Answer 37

Immediate type I hypersensitivity

A life threatening systemic allergic reaction characterized by fall in BP w/ vascular shock, bronchospasm and laryngeal edema w/ difficulty breathing due to massive mast cell degranulation.

Inciting agents include drugs (beta-lactams, contrast), exposure to food products (peanuts, seafood), insect toxin (bees or wasps), and latex allergy.

Death can ensue in minutes if untreated due to asphyxiation from upper airway edema or acute respirator failure due to bronchial constriciton and obstruction, and/or shock w/ cardiovascular collapse.

Treatment: IM epinepherine. 0.01mg/kg (0.01ml/kg of 1:1000 –> be sure it’s not cardiac 1:10000 epi); supplemental oxygen, IV fluids, continuous monitoring/admisson, consider antihistamine (benadryl), albuterol neb, and wearable allergy id.

Use O.01mg/kg to a maximum dose of 0.5mg. Adult EpiPen is 0.3 mg. (kids is 0.15mg).

Question 38

Tumor lysis syndrome

Answer 38

Sudden rapid death of millions of cells (esp. leukemia/lymphoma). Causes electrolyte/metabolic disturbances. Can be life threatening.

Treat w/ allopurinol to help w/ hyperuricemia (must lower 6-mp dose 25%)