Lecture 3: Anemia I (Enoch's first 67, Billie is the rest)

Question 1

Why do females generally have a lower Hb?

Answer 1

Lower EPO stimulation due to more dilated kidneys from estrogen.

Question 2

What anemias are classified as microcytic?

Answer 2

Thalassemias
Anemia of chronic disease
Iron defiency
Lead toxicity
Zinc deficiency

Microcytic because mice have TAILZ

Question 3

What anemias are classified as normocytic?

Answer 3

Kidney disease
Non-thyroid endocrine heart failure
Copper deficiency
Mild form of most acquired microcytic or macrocytic etiologies of anemia

Question 4

What anemias are macrocytic, specifically megaloblastic?

Answer 4

B12 deficiency
Folate deficiency
DNA synthesis inhibitors

I think megaloblastic means like the anemias that are caused by the direct inhibition of proliferation and maturation of the cells.

Question 5

What anemias are macrocytic, specifically non-megaloblastic?

Answer 5

Myelodysplasia
Bone marrow failure state (aplastic anemia, marrow infiltrative disorders, etc)
Copper deficiency
Hypothyroidism
Liver disease
Reticulocytosis

“Many Bones can have low RBCs”

Question 6

What does it mean if a hemolytic anemia is intravascular?

Answer 6

RBCs are being lysed within the BLOOD VESSELS.

Question 7

Why is it significant if a hemolytic anemia is intravascular?

Answer 7

It is significant because large amts of Hgb are being released into circulation.

This will appear as a decrease in iron and haptoglobin.
This may appear as hemoglobinuria.
Iron will NOT be recycled. (it will decrease over time)
Schistocytes will form.

Question 8

What is a schistocyte?

Answer 8

A tripolar, popped balloon RBC.

It is like a shredded RBC.

Question 9

Why does haptoglobin decrease in intravascular anemia?

Answer 9

A serum haptoglobin test measures FREE haptoglobin, so if there is a lot of Hgb circulating, then the FREE haptoglobin gets used up.

Question 10

What does it mean if a hemolytic anemia is extravascular?

Answer 10

RBCs are being lysed within ORGANS.

Question 11

Why is it significant if a hemolytic anemia is extravascular?

Answer 11

Minimal Hgb released into circulation.

This means little to no decrease in haptoglobin.
Iron should remain almost unchanged. (because its being reabsorbed)

Spherocytes will form.

Question 12

What is a spherocyte?

Answer 12

It is a smaller, darker, denser, hyperchromic cell.

It is essentially the formation of a damaged RBC repairing itself by collecting excess Hgb.

Excess Hgb = smaller RBC.

They are NOT biconcave and LACK central pallor.

Question 13

Why does Iron remain unchanged in extravascular anemia?

Answer 13

Generally, the spleen is where most RBCs get caught, and it is able to recycle the Hgb from the lysed cells.

Question 14

What is a key PE finding that may differentiate extravascular hemolytic anemia from intravascular?

Answer 14

Red-dark urine in intravascular anemia.
Hepatospenomegaly in extravascular anemia

Question 15

If I have a hemolytic anemia, what lab changes would I expect on:
Hgb
MCV
Reticulocyte count

Answer 15

Hgb would be normal or reduced.

MCV are often increased.

Reticulocytes are often increased.

Note:
Hgb changes little because bone marrow can up the production of RBCs.
Upping RBC production means increasing retic count and generally MCV.

Retic count can remain unchanged if it is a chronic anemia and the bone marrow is exhausted.

Question 16

If I have a hemolytic anemia, what lab changes would I expect on:
Bilirubin
LDH
Haptoglobin

Answer 16

Bilirubin would increase, esp. unconjugated.

LDH would increase.

Haptoglobin would only markedly decrease in intravascular anemia.
Haptoglobin MAY decrease in extravascular anemia.

Note:
Haptoglobin changes are dependent on the severity of the anemia.

Question 17

What can falsely elevate haptoglobin?

Answer 17

Chronic inflammation.

Question 18

Which hemolytic anemia is structural?

Answer 18

Hereditary spherocytosis

Question 19

What hemolytic anemias are related to Hemoglobinopathies?

Answer 19

Thalassemias
Sickle cell disease (SCD)

Question 20

What hemolytic anemia is metabolic?

Answer 20

G6PD deficiency

Question 21

What hemolytic anemias are immune-related?

Answer 21

Autoimmune hemolytic anemia (AIHA)
Paroxysmal nocturnal hemoglobinuria (PNH)
Hemolytic disease of the newborn (HDN)

Question 22

What is hereditary spherocytosis and what causes it?

Answer 22

Abnormal formation of proteins in the RBC membrane.

It is a result of improper cytoskeleton formation and is mainly AUTOSOMAL DOMINANT inheritance.

Question 23

Is hereditary spherocytosis intravascular or extravascular? What does that mean?

Answer 23

Extravascular.

The spherocytes commonly get stuck in red pulp fenestrations in the spleen, which leads to phagocytic destruction

Question 24

Describe the clinical presentation of spherocytosis.

Answer 24

Varying degrees…

It can go undetected for years but:

PE:
Jaundice
Splenomegaly
+/- gallstones in 50% of pts
Presents acutely after infection or stress.

Question 25

Describe the peripheral blood smear of spherocytosis.

Answer 25

High counts of spherocytes.

Question 26

Describe the lab findings in spherocytosis.

Answer 26

Variable decreases in Hgb/Hct
Increased reticulocytes
Increased MCHC (one of the few that can do this in micro/normocytic)
Normal to low MCV
Normal to low Haptoglobin (will drop more if inflammation present)
Peripheral blood smear: spherocytes
Coombs test: negative (ideally)

MOST IMPORTANT CHANGES:
^reticulocytes
^MCHC
- presence of spherocytes

Question 27

What is the general basic Tx for hereditary spherocytosis? Severe? Definitive?

Answer 27

General is folic acid 1mg daily.

Transfusions can be used for severe anemia.
EPO may be used in infants to reduce need for transfusions

Definitive:
Splenectomy (partial or full)
Delay until after 5 yrs of age, or until puberty if moderate
■ If mild - may observe
■ Antipneumococcal vaccination

Question 28

Why is iron supplementation CI in hereditary spherocytosis?

Answer 28

It is an extravascular anemia, so it is not losing iron, but recycling it.

Iron supplementation will overload it.

Question 29

What are the types of hemoglobin found naturally in the blood?

Answer 29

HbA: 97-99% of Hb in RBCs and considered adult Hb. (2 alpha, 2 beta)

HbA2: 1-3% of Hb in RBCs (2 alpha, 2 delta)

HbF: <1% of Hb in RBCs (Fetal Hb). (2 alpha, 2 gamma)

Question 30

How many copies of each globulin gene do we have?

Answer 30

2 copies of alpha-globulin in chromosome 16. (4 total)

1 copy of beta-globulin in chromosome 11. (2 total)
Also includes delta and gamma.

Question 31

What causes alpha thalassemia?

Answer 31

Gene deletions related to the alpha-globulin gene, resulting in reduced alpha-chain synthesis.

Question 32

What does alpha thalassemia present as on an electrophoresis?

Answer 32

Equal proportions of all 3 hemoglobins.

Question 33

What is the pathology of an alpha thalassemia?

Answer 33

Increased small, pale (hypochromic) RBCs.

Excess beta chains precipitate → damage to RBC membranes → hemolysis
in marrow and in splenic vessels

Question 34

What demographic is most susceptible to alpha thalassemias?

Answer 34

SEA and Chinese

Question 35

At what point does alpha thalassemia start to show lab changes?

Answer 35

With 2 gene deletions, aka alpha thalassemia minor/trait. Hct and MCV will begin dropping.

Question 36

What are the two concerning types of alpha thalassemias?

Answer 36

HbH disease (1 normal gene)
Hydrops fetalis (0 normal genes)

Question 37

What lab findings would I expect in alpha thalassemia?

Answer 37

Hb/Hct: normal or decreased
RBC: increased
MCV: Markedly decreased
Retic: Normal or increased
MCH: Decreased
Hb electrophoresis: Presence of HbH band means HbH disease. Normal otherwise.
Inclusion bodies: HbH

Important ones:
^RBC
decreased MCV
decreased MCH
electrophoresis with HbH band or inclusion bodies indicating HbH

Question 38

How would you describe alpha thalassemia morphologically?

Answer 38

Microcytic hypochromic anemia.

Question 39

How does alpha thalassemia trait/minor present on peripheral smear?

Answer 39

Hypochromic, microcytic cells
Target cells (Ring appearance)

Question 40

How does HbH disease present on peripheral smear?

Answer 40

Hypochromic, microcytic cells
Target cells
Poikilocytosis

Question 41

How are the minor alpha thalassemias treated?

Answer 41

Minima/Silent carrier only require genetic counseling.
Minor/trait may rarely need transfusions.

Question 42

Why do I need to monitor for iron overload in transfusion patients with thalassemia and how do I treat it?

Answer 42

Extravascular anemias such as alpha thalassemias do not lose iron, so it would build up if transfused.
Treated via iron chelation.

Question 43

How are HbH and hydrops fetalis treated?

Answer 43

HbH: folic acid 1mg/day
Avoiding iron supplements and oxidative drugs.
Consider splenectomy and transfusions regularly.

Hydrops fetalis: almost always lethal in utero :(
Recommended to terminate pregnancy.

Question 44

What causes a beta thalassemia?

Answer 44

Gene point mutations resulting in reduced beta-chain synthesis.

Beta+ = reduced
beta0 = absent

Question 45

How does beta thalassemia present on electrophoresis?

Answer 45

Increased HbA2 and HbF.

AKA low HbA since little to no beta chains present anymore.

Question 46

What demographic is most susceptible to beta thalassemias?

Answer 46

Mediterranean

Question 47

Describe the pathology of beta thalassemia. (what kind of RBC’s and what causes that)

Answer 47

Increased numbers of SMALL, PALE (low Hb) RBCs

Excess alpha chains = hemolysis.
Excess alpha chains = inclusion bodies & damaged precursors.
Surviving RBCs will have inclusion bodies and have shortened lifespans.

Question 48

What are the 4 types of beta thalassemias and how are they broken down in terms of beta genes?

Answer 48

Normal

Minor: Beta/Beta+ or Beta/Beta0

Mild(intermedia): Beta+/Beta+

Major/severe: Beta0/Beta+ or Beta0/Beta0

Question 49

How do lab findings change as the beta thalassemia gets worse?

Answer 49

Generally:
MCV decreases
Hct/Hbg decreases
HbF and HbA2 increase
Reticulocytes - increased or normal
MCH - decreased

Transfusions start at mild/intermedia and progress to dependent if major.

Question 50

What are the two types of beta thalassemia major?

Answer 50

Cooley’s anemia or beta-thalassemia major

Question 51

What are the general lab findings for beta-thalassemia?

Answer 51

Hb/Hct decrease
RBC increase
MCV markedly decreased
Retic: increase
MCH: decrease
Hb electrophoresis: Decreased HbA

Question 52

What are the most pertinent PE findings for mod-severe beta thalassemia?

Answer 52

Erythroid hyperplasia will lead to chipmunk facis, thinning of long bones, pathologic fx, and failure to thrive.

Question 53

How does beta-thalassemia MINOR present on a peripheral smear?

Answer 53

Hypochromic, microcytic cells
Target cells

Note:
Similar to an alpha thalassemia.

Question 54

How does beta-thalassemia Intermedia present on a peripheral smear?

Answer 54

Hypochromic, microcytic cells
Target cells
Poikilocytosis

Question 55

How does beta-thalassemia Major present on a peripheral smear?

Answer 55

Hypochromic, microcytic cells
Target cells
Poikilocytosis
NUCLEATED RBCs

Question 56

How is beta thalassemia minor treated?

Answer 56

Minor requires just genetic counseling and rare transfusions.

Note:
Monitor for iron overload just like alpha.

Question 57

How is beta thalassemia intermedia treated?

Answer 57

Genetic counseling

Avoid iron supplements
Transfusions
Splenectomy (consider)
Iron overload

Question 58

How is beta thalassemia major treated?

Answer 58

Genetic counseling
Transfusion-dependent
Avoid iron supplements and monitor iron overload.
Splenectomy
Luspatercept (Reblozyl)

DEFINITIVE TX: Allogeneic bone marrow transplant.

Question 59

What is Luspatercept? Who uses it?

Answer 59

It is an Activin-A-trap drug indicated for transfusion dependent ADULT beta thalassemia pts.

CI: Splenectomy, pregnancy, breastfeeding.

Question 60

What causes SCD?

Answer 60

It is an autosomal recessive inherited disease.

Abnormal beta-chain substitution results in a betaS chain.

It can appear as heterozygous (trait) or homozygous (anemia)

Question 61

What is Hemoglobin S?

Answer 61

2 alpha chain, 2 betaS chain hemoglobin.

Question 62

What demographic is most susceptible to SCD?

Answer 62

African Americans (8% in US are carriers)

Question 63

Describe the pathology of SCD.

Answer 63

Unstable HbS polymerization results in sickle shaped cells.

Sickle shaped cells cause vaso-occlusion in all vessels and are sticky to endothelium.

This results in ischemia, pain, and end-organ damage.

Question 64

How does the spleen play a role in SCD? what triggers sickle cell ischemia

Answer 64

It sequesters and destroys the sickle RBCs.

sickle cell ischemia triggered by hypoxemia, acidosis, infection, excessive exercise, abrupt temperature changes, and anxiety/stress.

Question 65

Is SCD extra or intravascular?

Answer 65

Extravascular.

Question 66

What is the only real change between normal and SCT?

Answer 66

Decrease in HbA and presence of HbS on electrophoresis.

Question 67

What changes between SCT and SCD?

Answer 67

Decreased Hct
Lack of HbA
Increased HbF
Highly increased HbS

Question 68

How does sickle cell Disease present on lab findings (include electrophoresis)

Answer 68

Hgb/Hct - normal if trait, decreased if anemia
MCV - normal
Reticulocytes - increased (10-25% not increased enough to affect MCV)
WBC - elevated
Electrophoresis - presence of HbS band, decreased HbA normal HbA2, HbF normal in trait, elevated in anemia.

Question 69

How does sickle cell anemia present on a peripheral blood smear

Answer 69

Target cells, Sickled RBC’s, Howell-Jolly Inclusion body

Howell-jolly inclusion bodies are the little red dots in the cells.

Question 70

What is the clinical presentation of sickel cell trait

Answer 70

often asymptomatic
may have sighns/symptoms during high stress (high altitudes, heavy exercise, dehydration ect)

Question 71

What is the clinical presentation of sickle cell anemia

Answer 71

signs and symptoms begin around 6 months of age

Main ones to remember:
■ General - often appear chronically ill
■ Skin - jaundice, pallor, poorly healing ulcers of LE (>10 y/o)
■ Extremities - pain and swelling, dactylitis (“sausage fingers/toes”)
■ Eyes - vision changes, retinopathy, retinal detachment
■ Abdomen - splenomegaly (<3 y/o), hepatomegaly, gallstones
■ Chest - cardiomegaly, hyperdynamic precordium

Easy way to remember this is to think of common diabetes symptoms and combine it with common anemic symptoms

Question 72

what is the symptom in this picture called and what is it indicative of

Answer 72

dactylitis, indicative of sickle cell anemia

Question 73

What is the clinical presentation of a sickle cell crisis

Answer 73

■ Sickled RBCs obstruct microcirculation = ischemic injury to 1+ organs
■ Pain - sudden, lasts from hours to weeks, resolves spontaneously
■ Other symptoms - Fever, tachycardia, tenderness, anxiety

Question 74

what are the most common locations for sickle cell crisis.

how does this vary with age groups?

Answer 74

abdomen, bones, joints, soft tissues

most common bone areas for varying ages:
less than 18 months = hands/feet
childhood/teens = long bones of arms and legs
adults = vertebre

Question 75

what are triggers for sickle cell crises

Answer 75

physical stressors: hypoxia, dehydration, infection, acidosis
change in temp: fever or enviornmental
Other: fatigue, pregnancy, alcohol, psychosocial stress

Question 76

What should you observe for in sickle cell patients in an eye exam

Answer 76

retinopathy!

(the left one is unhealthy, right is healtht)

Question 77

what should you observe for during an abdominal exam in a patient with sicke cell anemia?

Answer 77

hepatomegaly and splenomegaly.

Question 78

What are some complications of sickle cell.
(there is literally so much on this card, just do your best)
○ Musculoskeletal -
○ Brain -
○ Renal -
○ Cardiac -
○ Pulmonary -
○ Immune -
○ Eyes -
○ Reproductive -
○ Liver -
○ General -

Answer 78

○ Musculoskeletal - necrosis of bone, osteomyelitis, aseptic necrosis
○ Brain - ischemic stroke, cerebral atrophy
○ Renal - chronic kidney disease, hematuria
○ Cardiac - cardiac enlargement and heart failure
○ Pulmonary - pulmonary hypertension
○ Immune - hyposplenism, impaired immune function
○ Eyes - retinopathy, vision loss, blindness
○ Reproductive - delayed puberty, priapism
○ Liver - hepatomegaly, hepatic failure
○ General - sickle cell crisis
■ ischemia manifested by acute pain and
tenderness, fever, tachycardia, and anxiety

Question 79

what are the five types of sickle cell anemia treatment

Answer 79

avoidance of triggers
supportive medications
disease modifying medications
acute crisis treatment
definitive treatment

Question 80

What are the supportive medications that a person with SCD may use. FAVOPTA

this is also alot oml sorry

Answer 80

Folic acid (1mg daily)
vaccinations (to prevent triggers)
ACE inhibitors (for patients w proteinuria due to kidney damage)
Omega 3 fatty acids (to reduce vaso-occlusive crisis)
transfusions (PRN for aplastic or hemolytic crisis)
pain management medications (opiates often used)
antibiotics (prohphylactic PCN daily until age 5 and then optional after that. this is to prevent infections and therefore sickle cell crisis)

Question 81

What are the three disease modifying medications for SCD

Answer 81

Hydroxyurea
Crizanlizumab
L-glutamine

Question 82

what disease modifying treatment is considered the mainstay of treatment for SCD. How does it work what are SE

Answer 82

Hyroxyurea - 500-750mg/d for patients with 3+ pain crisis per year

this med increases HbF levels. this reduces vaso-occlusive episodes and hospitalizations and prolongs survival of patients.

SE are major - bone marrow suppression (decreased WBC especially neutrophils) and may cause increase cancer risk

Question 83

what is the criteria for SCD patients to be treated with hydroxyurea

Answer 83

to have 3+ pain crisis per year

Question 84

what is hydroxyurea CI in

Answer 84

pregnancy! it is a teratogenic!

Question 85

what is the mechanism of action for crizanlizumab

Answer 85

(remember if a drug ends with MAB its usually a monoclonal antibody)

monoclonal antibody against P-selection proteins on endothelium that sickle cells tend to stick to. this means less likely vaso-occlusion.

SE are very mild

very expensive only given IV and must be given every 2-4 weeks

Question 86

What is the mechanism of action of L-glutamine and when is it used

Answer 86

used when patient cannot tolerate hydroxyurea

decreases vasoocclusive episodes possible by reducing oxidative stress that promotes sickling.

its expensiveeee

Question 87

what is the acute crisis treatment for sickle cell crisis

Answer 87

identify and treat underlying cause of crisis
“HOP” - hydrate, oxygenate, pain control

exchange transfusion done during crisis that are severe (pulling out patients blood and replacing it with donor blood that is not sickled)

Question 88

splenic sequestration crisis
what is it
what are effects
what is treatment

Answer 88

when alot of blood is stuck in the speen instead of in the rest of their body.

this causes a rapidly enlarging spleen and can lead to shock and death (10-15% mortality rate!)

this is usually treated via splenectomy

Question 89

what is the only definitive treatment for SCD

Answer 89

allogenic hematopoietic stem cell transplant.
only curative if organ damage is not already done

Question 90

What causes G6PD deficiency

Answer 90

X-linked recessive genetic defect
deficit in glucose-6-phosphate dehydrogenase enzyme (G6PD)
most common enzyme deficiency in humans

Question 91

what demographic is most common with G6PD deficiency

Answer 91

African-american males

rarely seen in females because x linked recessive

Question 92

what is the pathology of G6PD deficiency

Answer 92

RBCs are especially vuulnerable to oxidative stress.
Oxidative stress → Hb denatures, forms precipitate (Heinz bodies)
Heinz bodies damage RBC membrane → destruction by spleen (extravascular)
Cells can also spontaneously rupture (intravascularly)

Question 93

what is the presentation of G6PD deficiency

Answer 93

usually asymptomatic with episodic hemolytic anemia.
no splenomegaly
prolonged jaundice in newborns

acute episodes show malaise, weakness, abdominal or lumbar pain, jaundice and dark urine.

Question 94

what are the three main triggers for G6PD deficiency

Answer 94

infection, food (fava beans, other beans, blueberries, red wine) and certain medications.
medications include:
antibiotics: sulfas, quinolones, nitrofurantoin
phenazopyridine, aspirin.

Question 95

why is splenomegaly not commonly present in G6PD patients

Answer 95

spleen is only intermittently destroying RBC’s because this is an episodic disease.

Question 96

is G6PD deficiency intravascular or extravascular

Answer 96

BOTH!!:)

Question 97

what are the lab findings in G6PD deficiency

Answer 97

Hgb/Hct - normal, low during episode
MCV - normal
Reticulocyte - normal, increased during episodes
MCH - normal
G6PD assay - decreased, normal during or just after episode. (this measures how much of the enzyme is active)

MAIN:
during episodes:
Hgb/Hct - low
retic - increased
G6PD is normal during or just after an episode. it is usually decreased.

Question 98

What does the peripheral blood smear look like in patients with G6PD deficiency

Answer 98

“Bite” cells - look like they have a bite taken out of them
“Blister” cells - little small white spots in cells
Polychromataphils/reticulocytes

also heinz bodies but only seen when you add stain to the smear

Question 99

what are preventative measures for G6PD deficiency

Answer 99

avoidance of oxidant drugs
avoidance of trigger foods
genetic counseling

Question 100

what are the therapeutic measures for G6PD deficiency

Answer 100

Removal of offending agent
supportive - folic acid supplementation
rarely transfusions are needed

Question 101

what is the cause of autoimmune hemolytic anemia

Answer 101

Antibody forms against ssurface RBC antigens (mostly IgG)
50% - idiopathic (unknown cause)
Other 50% - associated with autoimmune diseases mainly Lupus or associated with WBC disorders like leukemia or lymphoma.

Question 102

what must autoimmune hemolytic anemia be distinguished from?

Answer 102

drug-induced immune hemolytic anemia
typically caused by ABX, -dopas, or NSAIDS

Question 103

presentation of AIHA

Answer 103

abrupt, rapid onset, potentially life threatening anemia.
fatigue, jaundice, splenomegaly
up to 10% mortality rate

Question 104

what is the pathology of AIHA

Answer 104

RBCs “tagged” for destruction by immune system
○ Splenic macrophages remove portions of RBC membrane → spherocyte
formation results
○ Spherocytes become trapped in spleen and are destroyed
○ Complement can also tag RBC for destruction by Kupffer cells in liver
○ IgM can help facilitate MAC-induced direct intravascular hemolysis

basicaly spleen and liver recongnize RBC’s as bad and start to send cells to eat them

Question 105

what are the two types of AIHA

Answer 105

warm - occurs at normal body temp
cold - only becomes active at colder temps (cold agglutinins)

Question 106

what would lab findings look like in AIHA

Answer 106

Hbg/Hct - decreased, can drop as low as 4g/dL and 10% within days
RBC - decreased
MCV - normal
Reticulocytes - increased ( not enough to increase MCV)
MCH - normal (hgb decreased because low RBC’s, therefore there is still adequate hgb on each rbc therefore MH is normal)
Platelets - 10% have immune thrombocytopenia (low platelets)

Main:
Hgb/Hct - severe decrease
RBC - decrease
retic - increase
Platelets - low

Question 107

what diagnostic testing is run when AIHA is suspected

my definition may be confusing, look on slide 75-77 for a better understanding if needed:) sorrrryyyyyy

Answer 107

antiglobulin (Coombs) test
Direct - tests whether RBC’s have Ig, complement or both on their surface (done by mixing IgM that attacks IgG or complement with patients RBCs to see if RBCs are attacked)
Indirect - testing plasma/serum for Ig against RBCs
( done by mixing serum/plasma with donor RBCs to see if they tag the cells and attack)

Question 108

what does a peripheral blood smear look like in AIHA

Answer 108

marked microspherocytosis
polychomataphils/reticulocytes

Question 109

what are treatements for AIHA

Answer 109

Immunosuppression - Prednisone 1-2mg/kg/day orally in divided doses.
Splenectomy if severe
Treatment of underlying comorbidities
cold avoidance if cold AIHA
transfusions often required

Question 110

why is it okay to give AIHA patients blood without type and crossing in emergencies

Answer 110

because the immune system is going to attack the blood cells anyways so it wont make a difference.

Question 111

what is the cause of Hemolytic disease of the newborn and what is it also known as

Answer 111

AKA: erythroblastosis fetalis
Cause: maternal IgG to antigens on surface of fetal RBCs
(moms body reacts to fetal blood cells and attacks them)

Question 112

what causes Hemolytic disease of the newborn (what causes antibodies to form)

Answer 112

fetal-maternal hemorrage
maternal transfusion
maternal pre-existing antibodies

Question 113

what are the ways that Fetal-maternal hemorrage can occur

Answer 113

fetal-maternal hemorrage is when moms blood and babys blood mixes
this happens with: placental abruption, invasive in-utero procedures, abortion, and childbirth.

Question 114

what causes Hemolytic disease of the newborn (what causes antibodies to form)

Answer 114

fetal-maternal hemorrage
maternal transfusion
maternal pre-existing antibodies

Question 115

pathology of HDN

Answer 115

maternal IgGs go through the placenta and into the babys blood stream to attack babys RBCs

Question 116

What are the most common and most severe types of HDN

Answer 116

most common is anti-ABO antibodies
most severe is anti-Rh antibodies

Question 117

what is the presentation of a newborn with HDN

Answer 117

severe jaundice
anemia at birth
positive DIRECT coombs test
hepatomegaly
splenomegaly
edema is possible
heart failure is possible

Question 118

How would the Coombs test differ between mom and baby in HDN? why do they differ

Answer 118

Mom - Coombs INDIRECT test positive, because her serum contains the Ig’s that are doing the attacking (direct is negative becuase she does NOT have any tagged RBC’s)
Baby - Coombs DIRECT test positive, because the RBCs of the baby are tagged with complement and Ig that marks them for attack. (indirect is negative because babys serum will not have Ig’s that are doing the attackng)

Question 119

What is before birth, after birth treatment for HDN

Answer 119

before birth:
Intrauterine fetal transfusion
Early induction of labor once fetus is old enough to survive
maternal plasma exchange (reduces circulation Ig levels)

after birth:
transfusion
supportive care

Question 120

what is the only preventative care for HDN

Answer 120

RhoGAM: prevents immune response to Rh+ blood in Rh- mother

Question 121

what is the cause of Paroxysmal Nocturnal Hemoglobinuria

Answer 121

Acquired genetic defect that leads to lysis of RBC’s
deficit in complement regulating cell membrane proteins CD55 and CD59

Question 122

what demographics are most affected by paroxysmal nocturnal hemoglobinuria

Answer 122

initial presentation most common in young adults but can happen in patients of any age. no evidence of inheritability, equally present in both genedrs

Question 123

pathology of Paroxysmal nocturnal hemoglobulinuria

Answer 123

RBC’s are vulnerable to lysis by complement
MAC formation → RBC destruction
Free Hb depletes nitric oxide
^^Causes esophageal spasms, erectile
dysfunction, renal damage,
thrombosis

Question 124

presentation of paroxysmal nocturnal hemoglobinuria

Answer 124

○ Episodic hemoglobinuria
■ Often first thing in AM → drop in blood pH overnight facilitates
hemolysis of RBC
■ Often improves throughout the day
○ May present with s/s of thrombosis
■ Especially in veins of mesentery, liver, skin, and CNS
■ Significant PNH - 10-15 year life expectancy
○ May present with s/s of anemia

Question 125

lab findings of paroxysmal nocturnal hemoglobinuria

Answer 125

○ Hb/Hct - Variably decreased
○ Reticulocytes - Normal or increased
○ MCV - Normal or increased
○ MCH - Normal
○ Iron - Normal or decreased
○ WBC - Normal or decreased
○ Platelets - Normal or decreased

Question 126

diagnostic tests for PNH

Answer 126

urine hemosiderin - can be + even after urine Hemoglobin is cleared
flow cytometry - gold standard

Question 127

treatment for PNH

Answer 127

mild: observe, no tx needed
severe or aplastic anemia: allogenic hematopoietic stem cell transplant
severe hemolysis or thrombosis - eculizumab (monoclonal ABX against C5)

supportive Tx - transfusions, iron replacement, corticosteroids to reduce hemolysis

Question 128

is iron deficiency anemia acute or chronic

Answer 128

chronic

Question 129

what is the main concern in patients who are experiencing anemia due to blood loss, what will be the problem with the CBC in this case?

Answer 129

hypovolemia
CBC will no show anemia due to fluid imbalance

Question 130

once a patient is no longer hypovolemic after blood loss, what will the CBC show

Answer 130

CBC will show anemia reflective of severity of blood loss

Question 131

what is the recovery process after fluids have been given in a scenario where a patient has lost alot of blood

Answer 131

bone marrow atempts to replace lost RBC’s with new ones (can increase RBC production up to 8x normal)
transient reticulocytosis occurs

Question 132

what are the supportive treatments for anemia due to blood loss

Answer 132

transfusion as indicated
fluid replacement as indicated
may need supplemental iron