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Test
Early For Sickle Cell Issue
37 Cent - Social Awareness Stamp
Designed by James Gurney of Rhinebeck, NY
The Stamp will be issued in September 2004.
(Gurney
designed the 15 stamps in the 1997
World of Dinosaurs Commemorative Pane)
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The United States Postal Service (USPS)
unveiled the Sickle Cell Disease Awareness commemorative stamp on September
25, 2003 at the annual convention of the Sickle
Cell Disease Association of America.
The event was hosted by the Sickle
Cell Disease Foundation of California at the Beverly Hilton
Hotel in Beverly Hills, California. The Sickle Cell Disease Awareness stamp
will be issued in September 2004.
Henry Pankey, Vice President of Delivery and
Retail for the USPS was the dedicating official. Mr. Pankey stated,
"We believe this stamp will go a long way in helping to educate the
public about this painful and devastating disease. This stamp will also serve
as another way for the U.S. Postal Service to continue its tradition of
raising the public’s awareness of health and social issues. I am honored to
have the opportunity to introduce this stamp."
It is estimated that more than 70,000 Americans
have sickle cell disease and more than two million Americans have sickle cell
trait, meaning they carry one copy of the gene for the disease. There is no
universal cure for the disease, though many persons, given proper treatment,
can lead fairly normal lives into their 40s and even beyond. Researchers
continue to look for a cure and for new, more effective treatments.
Honorable guests included:
Katie Dorsett, Chairperson, Sickle
Cell Disease Association of America National Board of Directors; Dorothy
Moore, MD., Chief Medical Officer, Sickle Cell Disease
Association of America; Donald Spigner,
MD; Mablean Ephriam, Judge,
Television Divorce Court; Actors Roger Mosley,
Art Evans, Eriq
LaSalle, and Anthony Williams;
Entertainers/Actresses Kiki Shephard,
Dawn Lewis and Natasha
Pearce; and Prianona Davis,
the eight-year-old Sickle Cell Disease National Poster Child.
Sickle Cell
Anemia is common throughout the world,
and people of all races should be screened to determine if they are a carrier
of the inherited sickle cell trait or if they have the disease. A simple and
painless blood test is all that is needed.
From the Encyclopedia
Britannica:
Sickle Cell Anemia
is a serious hereditary disease that affects the blood and that occurs mainly
in persons of African heritage. Aside from sub-Saharan Africa, the disease
occurs in the Middle East, the Mediterranean area, India, and in African
American communities of the United States and elsewhere in the Western
Hemisphere.
Sickle Cell Anemia
is caused by an abnormal type ofhemoglobin called hemoglobin S or Hb S or Hb
S. (Hemoglobin is the protein in red blood cells
that carries oxygen to the tissues of the body.) Hb S is
sensitive to deficiency of oxygen, and when the carrier red blood cells
release their oxygen to the tissues and the oxygen concentration within those
cells is reduced, Hb S, in contrast to normal hemoglobin (Hb A), becomes
stacked within the red cells in filaments that twist into helical rods. These
rods then cluster into parallel bundles that distort and elongate the cells,
causing them to become rigid and assume a sickle shape. This phenomenon is to
some extent reversible after the cells become oxygenated once more, but
repeated sickling ultimately results in irreversible distortion of the red
blood cells. The sickle-shaped cells become clogged in small blood vessels,
causing obstruction of the microcirculation, which in turn results in damage
to and destruction of various tissues.
Sickle Cell Anemia's
chief symptoms are chronic anemia (caused by excessive destruction of red
blood cells); shortness of breath; fever; and episodic crises that are
characterized by severe pain in the abdomen, bones, or muscles. Before the
advent of hydroxyurea treatment, the average life expectancy of persons with
the disease was about 45.
Sickle Cell Anemia is
caused by the inheritance of an abnormal hemoglobin (Hb S) gene from both
parents. (This inheritance of abnormal genes from both parents is known as the
homozygous state.) A person who inherits the sickle-cell gene from one parent
and a normal hemoglobin gene (Hb A) from the other parent (an inheritance
known as the heterozygous state) is a carrier of the sickle-cell trait.
Because the red blood cells of heterozygous persons contain both Hb A and Hb
S, such cells require much greater deoxygenation to produce sickling than do
those of patients with sickle-cell anemia. The great majority of persons with
the sickle-cell trait thus have no symptoms of disease, although certain
manifestations—mainly associated with vigorous exertion at high
altitudes—have been seen. The overall mortality rate of persons with the
sickle-cell trait is no different from that of a normal comparable population.
An estimated one out of every 12 persons of African
decent worldwide carries the sickle-cell trait, while about one in 400 has sickle-cell
anemia. If both parents have the sickle-cell trait, the chances are one in
four that a child born to them will develop sickle-cell anemia. However,
through amniocentesis (analysis of
amniotic fluid surrounding a fetus), a testing procedure done in the early
stages of pregnancy, it is possible to detect sickle-cell anemia in the unborn
infant.
The Hb S gene is distributed geographically in a
broad equatorial belt in Africa and is found, though less often, in other
parts of the continent and in the Americas. The persistence of Hb S has been
explained by the fact that heterozygous persons are resistant to Malaria.
When the red cells of a person with the sickle-cell trait are invaded
by the malarial parasite, the red cells adhere to blood vessel walls,
become deoxygenated, assume the sickled shape, and then are destroyed, the
parasite being destroyed with them.
The treatment of sickle-cell anemia traditionally
relied on analgesics, blood transfusions, and other measures to relieve
symptoms during the patient's recurring crises, when blood vessels are
occluded and there is excessive blood and tissue destruction. In the
mid-1990s, however, the drug Hydroxyurea was
found to reduce the principal symptoms of sickle-cell anemia. Hydroxyurea
apparently activates a gene that triggers the body's production of fetal
hemoglobin. This type of hemoglobin, which is ordinarily produced in large
amounts only by infants shortly before and after birth, does not sickle.
Hydroxyurea therapy increases the proportion of fetal hemoglobin in the
bloodstream of adult patients from 1 to about 20 percent, a proportion high
enough to markedly lessen the circulatory problems that arise during crises.
