Transcript Slide 1
Human Anatomy and Physiology
II
Lab 2:
Blood
Activity 1
Blood Pathologies
Observe prepared slides of blood smears taken from
patients with the following disorders:
pernicious anemia
iron deficiency anemia
sickle cell anemia
chronic lymphocytic leukemia
eosinophilia
Anemia refers to any condition in which there is a
reduction in the number of RBCs or a reduction in the
concentration of normal hemoglobin
Anemia can be classified according to etiology (cause) or on the basis
of morphology –
For morphological classification, the following
terms are used:
RBC Size
Microcytic:
RBC Color
small size
Hypochromic:
pale color
Normocytic: normal size
Normochormic: normal color
Macrocytic: large size
Hyperchromic: dark color
Pernicous Anemia:
caused by vitamin B12 deficiency
A. Can be either macrocytic, hyperchromic or macrocytic normochromic
B. Note the enlarged, dark red blood cells, and the hypersegmented
neutrophil in this smear
Iron Deficiency Anemia
caused by iron insufficiency leading to decreased
hemoglobin synthesis
A. Is an example of microcytic,
hypochromic anemia
B. Note the small erythrocytes of
varying sizes and the large area
of central pallor
Sickle Cell Anemia:
caused by a single amino acid substitution in the
β chain of hemoglobin (valine replaces glutamic acid)
A. This is a normochromic, normocytic anemia
B. Note the sickle shaped erythrocytes.
Disorders Related to Leukocytes:
I. Chronic Lymphocytic Leukemia
caused by malignant lymphocyte progenitor cells in bone marrow
A. Note the abundant small lymphocytes in this blood smear
B. The lymphocyte nucleus may have a small indentation, or cleft
II.Eosinophilia
many causes, including malignancy, connective tissue diseases,
parasitic diseases, allergies; in some cases, no known cause
Note the two normal looking eosinophils in the field
Activity 2
Blood Typing
Pretested blood samples will be tested for the presence
of A, B and Rh agglutinogens
Type A
Type B
Type AB
Type O
Clinically Important Blood Groups Include
the ABO System
And the Rh System – which includes the D agglutinogen
Rh+
Rh-
Blood Type is determined by determining which
aggutinogens are present on RBC surfaces:
Type A+
Type AB-
Type AB+
Type B-
Type O-
Agglutinins are antigens that combine with agglutinogens
and cause a clumping reaction called agglutination
+
Type B Cells
Anti-B agglutinin
Agglutination
To determine the blood type of a sample, mix
separate drops of a blood sample with anti A
agglutinin, anti B agglutinin and anti-D agglutinin:
Blood Typing Slide With
3 Drops Of Blood To Be
Tested, One Drop In
Each Well
Add Anti-A serum to
this well and mix
Add anti-D serum to
this well and mix
Add Anti-B serum to
this well and mix
Make sure that you use a
separate toothpick for
mixing in each well…………….
If the agglutinin in the antiserum binds to agglutinogen you
will soon observe
agglutination
For example:
Anti A
Serum
Anti D
Serum
Anti B
Serum
Type B+
Type B-
Type O+
This is what agglutination
will look like !!!!!!!!!!!!!!!!!!!!!!!!
Safety Precautions for Dealing With Blood Samples:
1. Wear gloves
2. Wear goggles
3. Do not test your own blood – use our samples
4. Place any materials that contact blood in bleach
solution immediately after use
5. Avoid spilling the samples – do not carry the slides or
samples from place to place. If there is a spill, cover
with bleach solution immediately and notify your lab
instructor
Activity 3
The ELISA Test
The ELISA Test (Enzyme Linked ImmunoSorbant Assay):
is an initial screening test for HIV, hepatitis B and hepatitis C
infection
In this activity, you will be test a serum sample from a fictional
patient to see if they have a positive ELISA for anti-HIV antibody
Individuals with healthy immune
systems manufacture antibodies
(anti-HIV antibodies) against
HIV coat proteins, such as
gp120
The HIV ELISA Screening Test is used to detect anti-HIV antibodies:
Basic Steps:
1. A microplate with wells coated with HIV coat proteins (antigens) is used
2. A patients diluted serum is added to a well; if anti-HIV antibodies are present,
they will specifically bind to the adherent coat proteins
3. A second antibody is added. This antibody is linked to an enzyme and it binds
specifically to anti-HIV antibody.
4. A chromagen is added to the well; a chromagen is a colorless substrate that,
when acted on by the enzyme, becomes colored (in this case, reddish yellow)
Each pair of students will be assigned a
fictional patient (A – F) and will perform a test
using the series of wells designated by the
instructor
Results need to be posted for class use ……..