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Cbp (3)complete blood picture
1. Complete blood count in primary
care
COMPLETE
BLOOD PICTURE
Dr.N.R.K.Anil Kumar,
Ist Year Post Graduate,
Vishnu Dental College.
2. INTRODUCTION
• CBP or hemogram:
One of the most common lab investigations.
• It assesses:
• Red blood cells
(RBC count, hemoglobin, ESR, PCV, MCV, MCH,
MCHC)
• White blood cells (WBC, DC)
• Platelets (platelet count, BT, CT)
• Blood grouping
5. Anemia- when blood has low O2 carrying
capacity; insufficient RBC or iron deficiency.
-Due to blood loss
-Due to nutritional deficiency
-Due to destruction of RBC
-Due to defects in bone marrow
6. Polycythemia- abnormal increase in the RBC count.
-8-11 million cells/mm3
-Physiologically seen in people living in high altitudes.
-Pathologically it can be primary or secondary.
-Primary is polycythemia vera, a myeloproliferative
disorder.
-Secondary seen in conditions like
- respiratory disorders like emphysema
- congenital heart disease
- chronic carbon monoxide poisoning
- repeated mild heamorrhages.
7. Hb %
AGE Hb%
At birth 25 gm%
After 3rd
month 20 gm%
After 1 year 17 gm%
Adult male 15 gm%
Adult female 14.5 gm%
Hb often accompanied by PCV can reflect
- Decreased plasma volume (eg: dehydration, alcohol,
cigarette, smoking, diuretics) or
- Increased red cell mass (eg polycythaemia)
8. HEMATOCRIT (PCV)
% of blood volume consisting of erythrocytes (red blood
cells)
In Males 40 – 45 %
In Female 38 – 42 %
9. ESR
• Normally, red blood cells remain suspended
uniformly in circulation called suspension stability of
RBC.
• When blood mixed with an anticoagulant is allowed
to stand in a vertical tube, the red cells settle down
due to gravity with a supernatant layer of clear fluid.
• The rate at which the cells settle down is called
erythrocyte sedimentation rate.
• Methods
• 1) westergren’s method :
• 2) wintrobe’s method :
10. • Factors affecting ESR :
specific gravity of RBC, rouleaux formation, size
of RBC, viscosity of blood, RBC count.
variations in ESR :
- less in infants and children
- more in females
- from 3rd
month until parturition increased
upto 35mm per hr.
11. ESR INCREASED ESR DECREASED
All types of anemia’s except sickle
cell anemia
Sickle cell anemia
Tuberculosis Allergic conditions
Malignant tumors Polycythemia
Rheumatoid arthritis Extreme leukocytosis
Rheumatic fever Peptone shock
Liver diseases
It is especially useful in assessing the chronic diseases and
their prognosis during treatement
12. MCV
• MCV (Mean corpuscular volume)
PCV in 100 ml of blood x 10
• MCV =
RBC count in million per cc
This is the average volume of the RBC
Useful to classify the anaemia
– Microcytic, MCV < 80 cu.microns
– Normocytic, MCV 80 – 100 cu.microns
– Macrocytic, MCV > 100 cu.microns
13. MCH
• MCH (Mean corpuscular hemoglobin)
Hb% in 100 ml of blood x 10
• MCH =
RBC count in million per cc
This is the quantity of hemoglobin present in one RBC.
Useful to classify the anaemia
– Normochromic, MCH 27 – 33 pg
– Hypochromic, MCH < 27 pg
14. MCHC
• MCHC (Mean corpuscular hemoglobin concentration)
Hb% in 100 ml of blood x 100
• MCHC =
PCV IN 100 ml of blood
• Indicates the concentration of hemoglobin in one RBC.
• Most important absolute value in diagnosis of anemia.
• Normal range is 30 to 38 %.
15. RETICULOCYTE COUNT
• Reticulocytes: immature RBCs
• Number helps to determine causes of anemia. Normal
reticulocyte count is 1.0-2.0%
• Low reticulocyte <2.5%= decreased marrow production of
RBCs causing anemia
• Elevated reticulocyte > 2.5% = indicates anemia caused
by RBC loss
16. RDW
RDW = Red blood cell distribution width
Standard deviation of red cell volume
× 100
mean cell volume
– Normal value is 11-15%
– If elevated, suggests large variability in sizes of RBCs
17. Definition of Anemia
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)
18. Evaluating the Patient with Anemia
• 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.
19. Evaluating the Patient with Anemia
• 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
20. ANEMIA
RETICULOCYTE COUNT
LESS THAN 2.5
RETICULOCYTE COUNT
MORE THAN 2.5
RED CELL MORPHOLOGY
NORMOCYTIC
NORMOCHROMIC
MARROW DAMAGE,
DECREASED
ERYTHROPOITIN
MICROCYTIC OR
MACROCYTIC
NUCLEAR : B12 DEF, FOLATE DEF,
DRUG TOXICITY
CYTOPLASMIC : Fe DEF ANEMIA,
THALASSEMIA, SIDEROBLASTIC
HEMOLYTIC ANEMIA
OR
HEAMORRHAGE
21. Evaluating the Patient with Anemia
– If MCV < 80, then it’s a microcytic anemia
The three most common causes for microcytic
anaemia are:
– Iron deficiency
– Thalassaemia
– Anaemia of Chronic disease
• 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.
22. Differentiating Microcytic Anemias
Type of
Anemia
Ferritin TIBC Iron Other
Features
IDA ↓ ↑ ↓ Fe/TIBC<18%
Thalassemia Normal Normal Normal Basophilic
Stippling
ACD N or ↑ ↓ ↓ Fe/TIBC>18%
Sideroblastic ↑ Normal ↑ Ringed
Sideroblasts
23. Iron Deficiency Anemia – Lab
Findings
• 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
25. 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.
26. Evaluating the Patient with Anemia
– 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
27. Normocytic anaemia
The causes of normocytic anaemia include:
– Bleeding
– Early nutritional anaemia (iron, B12, folate
deficiencies)
– Anaemia of renal insufficiency
– Anaemia of chronic disease/chronic
inflammation
– Haemolysis
– Primary bone marrow disorder
28. Evaluating the Patient with Anemia
– 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
29. Macrocytic anaemia
Common causes:
– Alcohol
– Liver disease
– B12 or folate deficiency
– Thyroid disease
– Some drugs (especially hydroxyurea)
31. Pernicious anemia:
-ANTIBODIES TO intrinsic factor
- diagnosed by checking antibody levels
-Schilling test
-Smear shows macrocytosis with hypersegmentattion of
-Polymorphonuclear cells, with possible basophilic stippli
33. Vitamin B12 Deficiency Versus
Folate Deficiency
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
34. Evaluating the Patient with Anemia
• 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
35. hemolytiicbs
LDH: elevated
Indirect bilirubin: elevated (due to catabolism of
Hgb)
Haptoglobin: decreased
Binds to Hgb and taken up by liver
In a series of reports:
Elevated LDH, low Haptoglobin was 90% specific
Normal LDH, Haptoglobin >25 was 92% sensitive for ruling out
hemolysis
Reticulocyte Count: elevated
Normal is 0.5-1.5%
Anemia leads to increase Epo production leading to a
reticulocytosis (4-5% increase above baseline)
Positive Direct Antiglobulin Test (Coombs)
37. Lab Analysis in Hemolytic Anemia
• 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
38. Special Considerations in
Determining Anemia
• 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
46. WHITE BLOOD CELLS
•Definition:
Blood cells that fight
infection.
•Elevated = leukocytosis
•Decreased = leukopenia.
Leukopenia
Anaphylactic shock
Cirrhosis of liver
Disorders of spleen
Pernicious anemia
Typhoid and paratyphoid fevers
Viral infections
Leukocytosis
Infections
Common cold
Tuberculosis
Allergy
Glandular fever
47. Leukopenia
• Definition: total WBC < 4,300
• Differential dx:
• Infection including bacterial or viral
• Chemotherapy
• Other medications (anti-epileptics, penicillins,
sulfonamides, cephalosporins, thiazides, cimetidine,
ethanol, immunosuppressants)
• Hematologic malignancy
• Aplastic anemia
• Hypersplenism
• Auto-immune disorders
• Low wbc can be normal in certain populations
48. Leukopenia
• Signs and Symptoms: may be none, symptoms of
infection, fever, lymphadenopathy, weight loss,
night sweats. Check medications
• Physical findings: lymphadenopathy, splenomegaly,
may be asymptomatic
• Management: determine underlying cause
• Blacks can have asymptomatic leukopenia as
baseline
49. Leukocytosis
• Definition: WBC > 10,800
• Differential dx:
• Infection
• Chronic inflammation
• Medications (steroids)
• Recovery post chemotherapy
• WBC growth factors (neupogen, leukine, neulasta)
used in cancer therapies
• Hematologic malignancy (leukemia) or bone
marrow dysfunction
50. Leukocytosis
• Signs and Symptoms: may be asymptomatic, fever,
infectious symptoms, cough, SOB, dysuria, skin
infection/abscess, rash, weight loss, fatigue, night
sweats
• Physical findings: may be none. Erythema, edema,
skin rash, lymphadenopathy, cachexia,
hepatosplenomegaly, abnormal heart sounds,
adventitious lung sounds
• Management: determine underlying cause.
• If unable to determine cause or if leukocytosis
persists or is rising after treating for infection,
consult for bone marrow biopsy
51. Leukemia
• Definition: hematologic malignancy of the bone
marrow whereby abnormal immature cells crowd
out normal cells. WBC can be elevated or
decreased in leukemia. RBC and platelets can be
normal or decreased
• Types of leukemia:
• Acute Myelogenous Leukemia
• Acute Lymphocytic Leukemia
• Chronic Myelogenous Leukemia
• Chronic Lymphocytic Leukemia
52. 52
Neutrophils
• 60% of all WBCs
• Nuclei of 2-6 lobes
• Other names:
– Polymorphonuclear cells (PMNs, polys, segs)
– Granules have enzymes
– Can damage tissue if severe or prolonged
– Pus
53. Neutrophils – Low
Significant levels
< 0.5 x 109
/L (high risk infection)
Most common causes
– viral (overt or occult)
– autoimmune/idiopathic
– Drugs
54. Neutrophils – High
Most common causes
– infection/inflammation
– Necrosis/malignancy
– any stress/heavy exercise
– drugs
– pregnancy
– CML
55. Eosinophils
• 1-4 % of leukocytes
• Bilobed nucleus
• Granules have digestive enzymes
• Role in ending allergic reactions and in fighting
parasitic infections
56. Eosinophils
Eosinophils – Low
– no real cause for concern
Eosinophils – High
Most common causes:
– allergy/atopy: asthma/hayfever
– parasites (less common in developed countries)
Rarer causes:
– Hodgkins
– myeloproliferative disorders
57. 57
Basophils
• Rarest WBC
• Bilobed nucleus
• Dark purple granules
• Later stages of reaction to allergies and parasitic
infections
58. Basophils
Basophils – Low
– difficult to demonstrate
Basophils – High
Associated with
– myeloproliferative disorders
– other rare causes
59. Lymphocytes
• Most important WBC
• 20-45%
• Most are enmeshed in lymphoid connective tissue,
e.g. lymph nodes, tonsils, spleen
• Response to antigens (foreign proteins or parts of
cells) is specific
• Two main types attack antigens in different ways
• T cells
• B cells
• plus “natural killer cells”
nucleus occupies most of the cell volume
60. Lymphocytes
Lymphocyte – Low
– not usually clinically significant
Lymphocyte – High
– isolated elevated count not usually significant
Causes
• acute infection (viral, bacterial)
• smoking
• hyposplenism
• acute stress response
• autoimmune thyroiditis
• CLL
61. 61
Monocytes
• 4-8% of WBCs
• Largest leukocytes.
• In connective tissue they transform into
macrophages (phagocytic cells with
pseudopods)
62. Monocytes
Monocytes – Low
– not clinically significant
– acute stress reaction
– pt on steroids
– chemo and immunosuppressant therapies
Monocytes – High
– usually not significant
– watch levels > 1.5 x109
/L more closely
– Infection
– granulomatous disease (sarcoid)
– collagen vascular disease.
63. Total WBC may be misleading
The absolute count of each of the cell types is more
useful than the total.
The total count may be misleading, eg: low
neutrophils with an elevated lymphocyte count may
produce a total white count that falls within the
reference range.
65. Thrombocytosis
• Definition: elevated platelet count > 500,000
• Diff Dx includes: bone marrow myeloproliferative
disorder as in essential thrombocythemia (ET) or
secondary to iron deficiency, splenectomy,
infection, malignancy or inflammatory disease
• Lab findings: CBC showing elevated platelet count.
Iron studies may show iron deficiency.
• Signs and Symptoms: often asymptomatic and
found on routine CBC. ET patient may experience
headaches, TIAs
66. Thrombocytosis
Most likely causes
– reactive conditions eg infection, inflammation
– pregnancy
– iron deficiency
– post splenectomy
– essential thrombocythaemia
67. Thrombocytopenia
• Definition: platelet count < 100,000.
• Differential Dx: bone marrow dysfunction,
malignancy, auto-immune response, medication,
chemotherapy, acute bleeding, acute thrombosis,
DIC, HIT, lab error
• Incidence: ITP: 100 cases per million people per
year with children accounting for half of those.
Females more likely to be affected.
Most common causes
– viral infection
– idiopathic thrombocytopenic purpura
– liver disease
– hypersplenism
– autoimmune disease
– pregnancy
68. Thrombocytopenia
• Lab/diagnostic studies:
• check CBC for other cytopenias,
• platelet aggregation studies,
• anti-platelet antibodies,
• bleeding time,
• bone marrow biopsy would show elevated
megakaryocytes (platelet precursors) in destruction
problem however low megakaryocytes in bone
marrow production disorder.
• Splenic ultrasound to evaluate for sequestration
69. Thrombocytopenia
• Lab Error: can have platelet clumping due to EDTA
tube this may cause platelet count to appear falsely
low – peripheral smear examination can confirm
normal platelet count. Blood can be collected in NA
citrate tube and re-run to confirm normal count
• For TTP (thrombotic thrombocytopenic purpura) this
rare disorder of the anticoagulation system will
cause patient to require plasmapheresis to remove
inhibitors of VW factor. Give pt FFP (fresh frozen
plasma) to replace normal VW factor. This is a rare
but serious disease that requires care under
hematologist.
70. Bleeding Disorders
• Hemophilia
• Definition: genetic disorder characterized by lack of
blood clotting factors.
• Hemophilia A: lack of factor VIII (most common).
Sex linked occurring in 1:10,000 males
• Hemophilia B: lack of factor IX (Christmas factor)
occurring in 1:100,000 males
• Labs/diagnostic testing: diagnosed by checking
factor activity levels, CBC, PT/PTT, bleeding time.
• Signs and symptoms: easy bruising, prolonged
bleeding, painful joints due to hemarthrosis. Older
hemophiliacs likely to be infected with HIV due to
receiving contaminated factor products
71. HEMOPHILIA
• Physical findings: Ecchymoses, bleeding,
edematous painful joints
• Management:
• Patients with hemophilia require replacement of
factor when bleeding occurs or sometimes daily
based on severity of disease.
72. Bleeding Disorders
• Von Willebrand disease (VWD)
• Definition: bleeding disorder caused by lack of Von
Willebrand factor which interferes with platelet
function thereby increasing risk for bleeding. Most
forms of VWD are mild
• Incidence: most common blood clotting disorder
occurring in 1 in 800-1000 people
• Labs: normal CBC, bleeding time (prolonged), Von
Willebrand factor assay (reduced), platelet
aggregation study (reduced).
73. Von Willebrand Disease
• Signs and symptoms: easy bruising, prolonged
bleeding after surgery, dental procedure,
menorrhagia, epistaxis
• Physical findings: may be normal or may see
ecchymoses, petechiae, bleeding
• Management:
• Desmopressin (DDAVP) nasal spray – helps to
increase factor VIII and VW factor in the blood
• Fresh frozen plasma/cryoprecipitate in acute
bleeding or surgery
75. ABO blood group types
Bloodtype Antigen on
RBC
Antibodies in
blood
Can receive blood from: Can donate blood to
(usually RBCs only):
Frequenc
y
in US
A A anti-B A
O
not B (you have anti-B) *
not AB (you have anti-B) *
A
AB
40%
B B anti-A B
O (no Ags so you won’t
reject)
not A (you have anti-A) *
not AB (you have anti-A) *
B
AB
10%
AB A and B none to
A or B
AB AB is universal
recipient
A
B
O
AB 4%
O not A nor
B
Anti-A and anti-
B
not A (have anti-A)*
not B (have anti-B)*
not AB (have both
antibodies)*
O
A
B
AB
O O is universal
donor
46%
Ag = antigen on red blood cell. *=transfusion reaction (hemolysis of new cells)
The blood types are “codominant” – i.e. if genotype is
AB, then you have both A and B antigens on your RBCs
76. 76
If a blood transfusion is given to a person who has
antibodies to that type of blood, then the transfused
blood will be attacked and destroyed (transfusion
reaction)
77. 77
Rh FACTOR
• The “Rh factor” is another major antigen on the RBC,
called D Antigen.(autosomal recessive)
– DD: Rh+, Dd: Rh+, dd: Rh-
• Rh Incompatibility(Erythroblastosis Fetalis).
• If mom is Rh- then give “Rhogam” during pregnancy
[(is anti- Rh(D): Rh(D) Ig (immunoglobin)], an antibody
which will destroy any of the baby’s RBCs which leak
into mom’s blood during the pregnancy so she will not
mount an immune response to the D antigen
78. INTERPRET RESULTS IN CLINICAL
CONTEXT
• All haematology results need to be interpreted
in the context of a thorough history and
physical examination, as well as previous
results.