Archive for the tag: Sickle

Nov 16

How Sickle Cell Anemia Affects This 13-Year-Old Girl

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How Sickle Cell Anemia Affects This 13-Year-Old Girl

January is National Blood Donor Awareness Month, and 13-year-old Tymia Green is encouraging more people to donate. Tymia has sickle cell anemia and experiences pain crises that feels like “a knife is stabbing in and out” she said. Doctors compare the pain to a heart attack. A blood transfusion is the only thing that stops the pain and helps her get back to being a kid. When people donate blood, Tymia says “they’re giving me a life.” InsideEdition.com’s Johanna Li has more. #InsideEdition
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Sep 25

Sickle Cell Disease, Animation

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(USMLE topics, cardiology, blood disorders) Genetics, different forms of SCD, pathophysiology, and treatment. This video is available for instant download licensing here: https://www.alilamedicalmedia.com/-/galleries/all-animations/heart-and-blood-circulation-videos/-/medias/20d89e5d-4da4-4e1d-8f53-5a293088ad11-sickle-cell-disease-narrated-animation
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Voice by Ashley Fleming
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Sickle cell disease is a group of inherited blood disorders in which the body produces abnormally-shaped red blood cells that look like crescent moons or sickles. Sickle cells have a shorter-than-normal life span; their premature destruction results in shortage of red cells, known as anemia. Signs of anemia include shortness of breath, fatigue, and delayed growth in children. Unlike normal red cells which are pliant, sickle cells are rigid and also sticky. They may clump together and stick to the walls of blood vessels, causing obstruction in small vessels and subsequent reduced oxygen supply to various organs. This happens repeatedly and manifests as periodic episodes of pain, called crises, which can last hours to days, and may result in organ damage, especially in the eyes, lungs, kidneys, bones and brain. The spleen has to handle large numbers of dead red cells and becomes enlarged and fibrous, its immune function declines, making the body more vulnerable to infections. In an attempt to compensate for blood cell loss, the bone marrow tries to produce more cells and grows larger, causing bones to weaken. Other signs include jaundice, a result of rapid destruction of heme.
Hemoglobin is the major component of red blood cells and is responsible for oxygen transport. The adult hemoglobin, or hemoglobin A, is composed of 4 protein chains: 2 alpha and 2 beta. The beta subunit is encoded by the HBB gene. Several mutations in HBB gene are responsible for the disease. Each individual has two copies of HBB gene. The disease develops when both copies are mutated, producing no normal beta globin. The 2 copies may be mutated differently, producing two different forms of abnormal beta subunits in the same person. Various combinations of these mutations produce different forms of sickle cell disease, but the most common and also most severe, called sickle cell anemia, is caused by 2 copies of the same mutation producing the mutated hemoglobin S. Each copy comes from a parent. The 2 parents each carry one copy of the mutated gene, but they typically do not show any symptoms. This pattern of inheritance is called autosomal recessive.
Hemoglobin S has the tendency to form polymers under low oxygen conditions. This process is called sickling, or gelation, for the gel-like consistency of the resulting polymer. As the polymer filaments grow, they eventually involve the cell membrane and distort the cell into the characteristic crescent shape. Apart from oxygen tension, the presence of other hemoglobins also seems to affect the sickling process. Normal adult hemoglobin inhibits sickling and this explains why heterozygous parents, who produce both mutated hemoglobin S and normal hemoglobin A, do not usually develop the disease. Fetal hemoglobin F, which has 2 gamma chains in place of 2 beta chains, also suppresses sickling. Infants born with the condition seem to benefit from high levels of fetal hemoglobin in the first few months of life: they do not develop symptoms until the age of 6 months or so, when fetal hemoglobin levels drop.
Bone marrow transplantation is currently the only known cure for sickle cell disease. It involves replacing the diseased stem cells in the bone marrow with healthy cells from an eligible donor, usually a relative. The procedure however is complex and finding a suitable donor can be difficult. In most cases, treatments aim to avoid crises, relieve symptoms and prevent complications.
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Sickle Cell Anemia. Written by Paulo César Naoum and Alia F. M. Naoum.

A São José do Rio Preto’s Science and Technology Academy video.
www.ciencianews.com.br

Animated by Birdo Studio
www.birdo.com.br

Full Credits:
Production: Birdo
Script: Dr. Paulo César Naoum, Aliá F. M. Naoum
Direction: Luciana Eguti, Paulo Muppet
Storyboard: Paulo Muppet
Design: Rafael Gallardo
Animation and additional design: Antonio Linhares, Fernando Finamore, Pedro Eboli, Rafael Gallardo, William Iamazi Ferro
Sound design: Rafael Gallardo, Antonio Linhares

2011

Feb 04

What is Sickle Cell Disease?

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What is sickle cell disease? Watch this video to learn more about this lifelong blood disorder and test your knowledge with a quiz at the end.

What is sickle cell anemia? Sickle cell anemia is an autosomal recessive genetic condition where the beta-globin protein subunit of hemoglobin is misshapen, which ultimately leads to a sickle-shaped red blood cell, which is prematurely destroyed and can get stuck in small blood vessels.

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