Anaemia.ppt

 Deficiency in the oxygen-carrying capacity of the
blood due to a diminished erythrocyte mass.
 May be due to:
Erythrocyte loss (bleeding)
Decreased Erythrocyte production
low erythropoietin
Decreased marrow response to erythropoietin
Increased Erythrocyte destruction (hemolysis)

 Hemoglobin = grams of hemoglobin per 100 mL of whole
blood (g/dL)
 Hematocrit = percent of a sample of whole blood occupied by
intact red blood cells
 RBC = millions of red blood cells per microL of whole blood
 MCV = Mean corpuscular volume
 If > 100 → Macrocytic anemia
 If 80 – 100 → Normocytic anemia
 If < 80 → Microcytic anemia
 RDW = Red blood cell distribution width
 = (Standard deviation of red cell volume ÷ mean cell volume) × 100
 Normal value is 11-15%
 If elevated, suggests large variability in sizes of RBCs

 Hgb:
 Women: <12.0
 Men: < 13.5
 Hct:
 Women: < 36
 Men: <41

 Decreased oxygenation
◦ Exertional dyspnea
◦ Dyspnea at rest
◦ Fatigue
◦ Bounding pulses
◦ Lethargy, confusion
 Decreased volume
◦ Fatigue
◦ Muscle cramps
◦ Postural dizziness
◦ syncope

 Acute Bleed
 Drop in Hgb or Hct may not be shown until 36 to 48 hours
after acute bleed (even though patient may be hypotensive)
 Pregnancy
 In third trimester, RBC and plasma volume are expanded by
25 and 50%, respectively.
 Labs will show reductions in Hgb, Hct, and RBC count, often
to anemic levels, but according to RBC mass, they are
actually polycythemic
 Volume Depletion
 Patient’s who are severely volume depleted may not show
anemia until after rehydrated

 In the bone marrow, erythropoietin enhances the
growth of differentiation of burst forming units-
erythroid (BFU-E) and colony forming units-erythroid
(CFU-E) into reticulocytes.
 Reticulocyte spends three days maturing in the
marrow, and then one day maturing in the
peripheral blood.
 A mature Red Blood Cell circulates in the peripheral
blood for 100 to 120 days.
 Under steady state conditions, the rate of RBC
production equals the rate of RBC loss.

 Bleeding
 Chronic (gastrointestinal, menstrual)
 Acute/Hemodynamically significant:
 Gastrointestinal
 Retroperitoneal

 Kidney Disease
◦ Normochromic, normocytic
◦ Low reticulocyte count
◦ Frequently, peripheral smear in uremic patients show
“burr cells” or echinocytes
◦ Target hemoglobin for patients on dialysis is 11 to 12
g/dL
 Administer erythropoietin or darbopoietin weekly
 Good Iron stores must be maintained

 Iron-Deficiency
 Vitamin B12 Deficiency
 Folate Deficiency
 Anemia of Chronic Disease

 Iron Deficiency
◦ Can result from:
 Pregnancy/lactation
 Normal growth
 Blood loss
 Intravascular hemolysis
 Gastric bypass
 Malabsorption
 Iron is absorbed in proximal small bowel; decreased abosrption in celiac
disease, inflammatory bowel disease
◦ May manifest as PICA
 Tendency to eat ice, clay, starch, crunchy materials
◦ May have pallor, koilonychia of the nails, beeturia
◦ Peripheral smear shows microcytic, hypochromic red cells
with marked anisopoikilocytosis.

 Serum Iron
 LOW (< 60 micrograms/dL)
 Total Iron Binding Capacity (TIBC)
 HIGH ( > 360 micrograms/dL)
 Serum Ferritin
 LOW (< 20 nanograms/mL)
 Can be “falsely”normal in inflammatory states

 Oral iron salts
◦ Ferrous sulfate – 325 mg po Q Day
 Side effects: constipation, black stools, positive hemmoccult
test
◦ Vitamin C can facilitate iron absorption.

 Cobalamin (Vitamin B12) Deficiency
 Macrocytic anemia
 Lab Values
 Cobalamin level < 200 pg/mL
 Elevated serum methylmalonic acid
 Elevated serum homocysteine
 Vit. B12 is needed for DNA synthesis
 Binds to intrinsic factor in the small bowel in order to be absorbed
 Pernicious anemia: antibodies to intrinsic factor
 Diagnosed by checking antibody levels (rather than Schilling test)
 Deficiency can result in neuropsychiatric symptoms
 Spastic ataxia, psychosis, loss of vibratory sense, dementia
 Frequently not reversible with cobalamin replacement
 Smear shows macrocytosis with hypersegmentation of polymorphonuclear
cells, with possible basophilic stippling.

 Vitamin B12 – 1000 micrograms intramuscularly monthly
-OR-
 Vitamin B12 – 1000-2000 micrograms po QDaily

 Folate Deficiency
◦ Macrocytic anemia
◦ Lab Values
 Low folate
 Increased serum homocystine
 NORMAL methylmalonic acid
◦ Often occurs with decreased oral intake, increased utilization, or impaired
absorption of folate
 Folate is normally absorbed in duodenum and proximal jejunum – deficiency found in
celiac disease, regional enteritis, amyloidosis
 Deficiency frequently in alcoholics, because enzyme required for deglutamation of
folate is inhibited by alcohol.
 Deficiency often found in pregnant women, persons with desquamating skin
disorders, patients with sickle cell anemia (and other conditions associated with
rapid cell division and turnover)
◦ Smear shows macrocytosis with hypersegmented neutrophils

 Folate – 1 to 5 mg po Qday
 Vit. B12 deficiency must be excluded in folate-deficient
patients, because supplemental folate can improve the
anemia of Vit. B12 deficiency but not the neurologic
sequelae.

Vitamin B 12
Deficiency
Folate Deficiency
MCV > 100 > 100
Smear Macrocytosis with
hypersegmented
neutrophils
Macrocytosis with
hypersegmented
neutrophils
Pernicious anemia Yes NO
Homocystine Elevated Elevated
Methylmalonic Acid Elevated NORMAL

 Anemia of Chronic Disease
 Usually normocytic, normochromic (but can become
hypochromic, microcytic over time)
 Occurs in people with inflammatory conditions such as
collage vascular disease, malignancy or chronic infection.
 Iron replacement is not necessary
 May benefit from erythropoietin supplementation.

 Thalassemia
 Microcytic anemia
 Defects in either the alpha or beta chains of hemoglobin,
leading to ineffective erythropoiesis and hemolysis
 α-thalassemia:
 Prevalent in Africa, Mediterranean, Middle East, Asia
 β-thalassemia:
 Prevalent in Mediterranean, South East Asia, India, Pakistan
 Smear shows microcytosis with target cells

 Hemoglobinopathies
 Sickle Cell Anemia
 Aplastic Anemia
 Decrease in all lines of cells – hemoglobin, hematocrit,
WBC, platelets
 Parvovirus B19, EBV, CMV
 Acquired aplastic anemia
 Hemolytic Anemia

 Hereditary spherocytosis
 Glucose-6-phosphate dehydrogenase
(G6PD) Deficiency
 Most common enzyme defect in
erythrocytes
 X-linked
 Brisk hemolysis when patients exposed to
oxidative stress from drugs, infections or
toxins.
 Thrombotic Thrombocytopenic
Purpura (TTP)
 Thrombocytopenia and microangiopathic
hemolytic anemia, fever, renal insufficiency,
neurologic symptoms
 Schistocytes on smear
 Hemolytic Uremic Syndrome
 Thrombocytopenia, Microangiopathic
hemolytic anemia, renal insufficiency
 Autoimmune Hemolytic Anemia
◦ Warm-antibody mediated
 IgG antibody binds to erythrocyte surface
 most common
 Diagnosed by POSITIVE Coomb’s Test
(detectgs IgG or complement on the cell
surgace)
 Can be caused drugs
 Treated with corticosteroids or splenectomy if
refractory
◦ Cold agglutinin Disease
 IgM antibodies bind to erythrocyte surface
 Does not respond to corticosteroids, but usually
mild.
 Infections
◦ Malaria
◦ Babesiosis
◦ Sepsis
 Trauma
◦ Includes some snake, insect bites

 Increased indirect bilirubin
 Increased LDH
 Increased reticulocyte count
 Normal reticulocyte count is 0.5 to 1.5%
 > 3% is sign of increased reticulocyte production, suggestive
of hemolysis
 Reduced or absent haptoglobin
 < 25 mg /dL suggests hemolysis
 Haptoglobin binds to free hemoglobin released after
hemolysis

 Check Hemoglobin/Hematocrit
◦ If female, is Hgb < 12 or Hct < 36?
◦ If male, is Hgb < 13.5 or Hct < 41?
◦ If Yes, Patient has ANEMIA!
◦ If No, they are fine and this lecture was not necessary.

 Any history of medical problems that could cause
anemia?
◦ Sickle cell Disease?
◦ Thalassemia?
◦ Renal Disease?
◦ Hereditary Spherocytosis?

 Are the other cell lines also low?
◦ If WBC and platelets are both low, consider APLASTIC
ANEMIA!
 Check medication list
 NSAIDS (phenylbutazone), Sulfonamides, Acyclovir, Gancyclovir,
chloramphenicol, anti-epileptics (phenytoin, carbamazepine,
valproic acid), nifedipine
 Check parvovirus B19 IgG, IgM
 Consider hepatitis viruses, HIV
◦ If Platelets are low consider TTP or HUS!
 Must check smear for schistocytes (for sign of microangiopathic
hemolytic anemia)
 If renal failure, E. Coli O157:H7 exposure → HUS
 If renal failure, neurologic changes, fever → TTP

 Is the patient bleeding?!
◦ Any bright red blood per rectum (hematochezia) or black
tarry stools (melena)?
 Check stool guaiac, may consider sigmoidoscopy or
colonoscopy
◦ Any abdominal pain, or recent femoral vein/artery
manipulation?
 Consider retroperitoneal hematoma

 If other cell lines are okay, what is the MCV and RDW?
◦ If MCV < 80, then it’s a microcytic anemia
 Check serum iron, ferritin, TIBC
 If iron-deficiency anemia, look for sources of chronic bleeding – heavy menstrual
bleeding, consider colonoscopy
 Consider lead poisoning, copper deficiency, thalassemias
◦ If MCV 80-100, then it’s a normocytic anemia
 Any inflammatory conditions that could result in anemia of chronic disease?
 Consider checking indirect bili, LDH, haptoglobin, reticulocyte count
◦ If MCV > 100, then it’s a macrocytic anemia
 Check Vit. B 12, folate
 Consider liver disease, alcoholism, myelodysplastic syndrome
 Check medications: hydoxyurea, AZT, methotrexate

 Any jaundice, elevated bilirubin, suspicious for
hemolysis?
◦ Check for increased indirect bilirubin, increased LDH,
decreased haptoglobin, increased reticulocyte count
◦ Any sign of infection? Malaria? Babesiosis?
◦ Is Coombs test positive?
 If yes, may be warm antibody hemolytic anemia; Consider drug
as cause

 A 41-year old male with a history of HIV with a
CD4 count of 150 who presents with a Hgb of 11,
Hct of 33, which is down from a Hgb of 14 with a
Hct of 42.

 Denies hematochezia, melena, any source of
bleeding
 Denies any yellowing of the skin
 No recent fevers, nausea or vomiting.

 PMH: HIV/AIDS
 No history of sickle cell disease, cancer, anemia
 Allergies: Sulfa
 Meds:
 Efavirenz
 Emtricitabine
 Tenofovir
 Dapsone
 Social History:
 No recent travel, no recent sick exposures, lives alone; occassional alcohol
use, no tobacco use, no IV drug use; Works as attorney
 Family History:
 No family history of cancer

 P.E.: 37.8, 123/68, 73, 16, 99% on RA
 Gen: Alert and oriented x 3; in NAD;
 HEENT: no scleral icterus, no lymphadenopathy
 CV: RRR
 Resp: LCTA
 Abd.: soft, nontender
 Ext.: no LE edema

 LABS:
◦ WBC: 4.3
◦ Hgb: 11
◦ Hct: 33
◦ Platelets: 224
◦ Sodium: 137
◦ Potassium: 3.8
◦ Chloride: 101
◦ CO2: 25
◦ Glucose: 102
◦ Tot. Protein: 5.3
◦ Albumin: 3.1
◦ Total Bili: 1.4
◦ Dir. Bili: 0.2
◦ AST: 23
◦ ALT: 42
◦ Alk. Phos: 122
◦ Haptoglobin: 20
◦ Reticulocyte count: 3.2%

 What lab test do you want to make sure patient
has had already or might you want to check?
 What might you see on peripheral smear if his
total bilirubin was elevated, and his platelets were
low?

 A 34- year old woman presents to your office with a
1-week history of generalized weakness, easy
fatiguability and shortness of breath. One hour ago,
she developed a headache a left hemiparesis. Two
days ago, she noted easy bruisability and bleeding
guyms. Three days ago, she developed a fever. A
history reveals that she had no previous serious
illnesses and review of systems is normal.

 Physical Exam:
◦ Temp: 40°, 120/70, 70, 16, 96% on RA
◦ Gen: Alerti oriented, in NAD, but appears weak
◦ HEENT: petechiae on soft palate with some fresh blood on
gingiva
◦ CV: RRR; II/VI high-pitched holosystolic murmur
◦ Resp: LCTA bilaterally
◦ Neuro: mild left hemiparesis with hyperactive reflexes and
positive babinkski on the left
◦ Skin: scattered pupuric lesions on lower extremities

 Hgb: 6 g/dL
 MCV: 80
 RDW: 20%
 WBC: 15
 Reticulocyte count: 200
 Platelet: 9
 Creatinine: 1.0
 Total Bili: 3.0
 Direct Bili: 0.2
 LDH: 3500
 UA: 2+ protein, 30-40
RBCs, 5 WBCs

 The most likely diagnosis of this patient’s
disorder is:
(A) Acute leukemia
(B) Bacterial endocarditis
(C) Thromboci thrombocytopenic purpura
(D) Hemolytic uremic syndrome
(E) Systemic Lupus erythematosus

 A 64-year old woman is hospitalized because of
progressive SOB and palpitations over the past few
weeks. She has also noticed a yellow tinge to her
eyes during this time. She occasionally drinks wine
excessively but says that she has abstained since
the onset of her symptoms. For the last 6 months
she has not eaten meat or fish, and her diet has
consisted mostly of toast with margarine, tea, and
an occassional banana. She says her social
security checks do not stretch as far as they used
to.

 Physical Exam:
◦ Vitals: Pulse: 110, RR: 22
◦ General: pale, blue-eyed, gray-haired disheveled female
with mild scleral icterus.
◦ CV: RRR
◦ Resp: crackles that do not clear with coughing are heard
at both lung bases
◦ Ext: mild pitting edema at both ankles
◦ Neuro Exam: Normal

 Labs:
◦ Hgb: 5.1 g/dL
◦ MCV: 112
◦ RDW: 21%
◦ Platelets: 109
◦ WBC: 4.6

Vitamin
B12
Folate Methylmalonic
Acid
Homocysteine
(A) Low Normal High High
(B) Low Normal Normal High
(C) Normal Low High Normal
(D) Normal Low Normal High
(D) Normal Normal Normal Normal
 Which of the following blood levels are most
likely in this patient?

Anaemia.ppt

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Anaemia.ppt