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Structure of hemoglobin & myoglobin
Sickle cell anemia
An Overview Of Sickle Cell Disease
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Discovering Sicke Cell Anemia
The topic that I am learning about is Sickle Cell Anemia, a hereditary disease which affects red blood cells. Throughout this research paper, I will discuss what exactly it is, how it is caused, any known treatments or cures, and many other facts that are important in this disease.
Sickle Cell Anemia is a health problem throughout the world. More than
250,000 babies are born worldwide with this inherited blood cell disorder
(http://www.medaccess.com/h_child/sickle/sca_01.htm). The disorder causes red blood cells to extend into a sickle shape which clogs the arteries.Persistant pain and life-threatening infections result from the illness. About one in 400 black newborns in the U.S. have sickle cell anemia. And one in 12 black
Americans carry the sickle cell trait (http://www.medaccess.com/h_ child/sickle/sca_01.htm). This leaves a good chance that the parent with the trait can pass the defect onto offspring although their own health is not harmed.
The cause of sickle cell anemia is rather simple but it leaves a life threatening affect. Anyone who carries the inherited trait for sickle cell anemia, but doesn't have the disorder, is actually protected from a severe form of malaria. This helped the children in countries where malaria was a problem, to be able to survive against that disease. What happened to those children?
They grew up, had their own children and ended up passing the gene for sickle cell anemia onto their offspring.
This disease is a hereditary blood disorder that affects the red blood cell.
Red blood cells contain a protein called hemoglobin which transports oxygen from your lungs to every part of your body. Hemoglobin's oxygen carrying ability is essential for living but if there is a structural defect on the pigmented molecule, it can be fatal. When a normal red blood cell distributes its oxygen, it has a disc shape. But when an affected red blood cell containing sickle cell hemoglobin releases its oxygen, the image of the cell changes from a disc shape to a sickled shape. In hemoglobin, there are four chains of amino acids. Two are know as alpha chains, and two are called beta chains. In a normal hemoglobin, the amino acid in the sixth position on the beta chain is known as glutamic acid
(refer to diagram 1.1 on page 6). During sickle cell anemia, the glutamic acid is pushed out of its place and replaced wi...
... middle of paper ...
...ease, I have learned many new details about it. I realized that even the slightest change in the sequence of amino acids can lead to very harmful effects. In this disease, only one amino acid was substituted and still the illness is very harsh. I also learned how exactly the cells deform and why they go into a sickle shape. It was very interesting to learn that the disease mostly effects African Americans.
I also learned that when the sickles get clogged in an artery, it results in a very painful attack on the person and may cause them to have an episode. When episodes occur, the patient may have to go into a hospital for pain killers.
The disease also can lead to ulcers, strokes, paralysis, decay of tissues, and many other problems throughout the persons entire life. Sickle Cell Anemia is a very serious disease that effects a person and there way of life. It doesn't have a known cure yet but many treatments and therapy are available. If a person has this disease, it is life-threatening and painful attacks can occur at any time, anywhere. It is important to know the causes and reasons for the disease so that you can relate to what a person with Sickle Cell Anemia is going
through.
When red blood cells start out, they are shaped like flat discs. Over time, when passing through the spleen, pieces of the membrane are removed, causing the red blood cells to become round in shape, hence the term Spherocytosis (Seattle Childrens). When red blood cells enter the spleen, the cells undergo hemolysis. Hemolysis in hereditary spherocytosis results in the interplay of an intact spleen and an intrinsic membrane protein defect (Medscape). The breakdown of red blood cells is called hemolytic anemia (Wint Carmella).
Sickle Cell Anemia is an autosomal recessive disorder, which increases blood thickness hence affects the smooth flow of blood. This causes by the destruction of red cells where the normal shape of red cell become a stiff sickle shape. As a result, sufficient oxygen does not reach the vital organs. A vaso-occlusive crisis arises from hindrance of blood circulation by sickled blood cells. It is characterized by sturdy pains and in some cases; it may cause permanent organ damage. This paper seeks to formulate a nursing diagnosis, as well as a plan of care that includes nursing interventions and the methods to be used to evaluate whether the interventions are successful (American Sickle Cell Anemia Association).
1. Sickle Cell Disease is life-threatening and has a risk of of causing depression. In this study I examine the experiences that Sickle Cell patients go through specifically at emergency healthcare facilities to find out if there are any negative stigmatizations surrounding this disease. There may be judgments that are made about these patients from healthcare professionals when they seek drugs for their pain relief that may cause the stigmatization to occur. I will also investigate why individuals that have Sickle Cell Disease experience longer waiting times at emergency healthcare facilities and the lack of control they may have over their care regime.
What is Sickle cell disease? Sickle cell affects a disease; that disease is called which affects the hemoglobin when the red blood cells that send oxygen through the body are killed off and weakened. Sickle cells can be found in every 1 and 1000 African Americans, it is affecting about 70,000 to 80,000 Americans in the United States. Sickle cell is a death threatening disease, and the severity of symptoms can vary from person to person (Sickle cell disease (SCD), 2015). Some people have light conditions, but others can have severe conditions, which, mean they could be hospitalized. Characteristics of this disease are caused by a minimum of low blood cells, which is called anemia.
... the codon for the amino acid methionine is added the head of each chain.
Having an inherited disease like sickle cell anemia takes a life-long of treatments and preventions of complications that comes with being diagnosed with sickle cell anemia. Many people have lived a long time while dealing with the disease because of the on-going care being provided to keep patients as healthy as possible. Knowing that both male and female have the sickle cell trait can prevent having a child with the sickle cell disease. From the help of the parents, doctors and medicine, sickle cell patients don’t have to deal with the pressure of living with a life threatening disease.
Sickle cell anemia is a blood disorder that affects hemoglobin (pronounced: hee-muh-glow-bin), a protein found in red blood cells that helps carry oxygen throughout the body.
“In the United States, it's estimated that sickle cell anemia affects 70,000–100,000 people, mainly African Americans” (NHLBI, NIH, Who is at risk for sickle cell anemia). SCD is a disease that is a serious disorder in which the body can make normal blood cells and sickle shape cells. Sickle shape cells can block the blood flow in your vessels and cause pain or organ damage also put you in risk for infections. SCD has no cure available but there are many treatments out there to deal with the complications of it. From over years treatments did get better from way back in the day doctors have learned. Sickle cell disease has lack of attention and funding because it’s only affecting African American the most.
Sickle cell anemia is an inherited disease of red blood cells. Normally red blood cells contain a protein called hemoglobin A, which carries oxygen to all the organs in the body. With sickle cell anemia, however, the body makes a different kind of protein, called hemoglobin S.
Sickle Cell Anemia is an inherited blood disorder that is extremely challenging to live with. Its symptoms are many, with the most prominent being severe pain that can become unbearable to the point where hospitalization is required. Because sickle cell is a genetic disorder, a person is born with it and it is usually permanent. Unfortunately, there are risks and complications associated with this disease. However there are various treatment options for a patient with sickle cell and also support to help people understand and cope with this challenging disease.
the resulting amino acid would be sodium glycinate (see fig. 3), an example of a
A three-dimensional structure of hemoglobin is determined by X-ray crystallography showed hemoglobin is made up of four polypeptide chains, each of those chains has a very similar three-dimensional structure to the single polypeptide chain in myoglobin. The major type of hemoglobin found in adults (HbA) is made up of two different polypeptide chains: the alpha-chain that consists of 141 amino acids residues, and the beta-chain of 146 residues. Each chain, like that in myoglobin consist of eight alpha-helices and each contains a heme prosthetic group. Therefore, hemoglobin can bind four molecules of oxygen. The four polypeptide chains, two alpha and teo beta, are packed tightly together in a tetrahedral array to form an overall spherically shaped molecule that is held together by multiple noncovalent interactions.
symptoms between the ages of 30 and 50, but has been known to show itself in
In our experiments we went to look how cells function and what are their features. In finding this information, I know have a better understanding of how cells function and their specific features.
An alpha amino acid is made up of a central carbon atom, or the alpha carbon, which is linked to an amino group, a carboxylic acid group, a hydrogen atom, and a distinct R group, called the side chain. There are twenty different kinds of side chains that vary in shape, hydrogen-bonding capacity, chemical reactivity, charge, size, and hydrophobic character that are typically found in proteins. All proteins in all species are made up of the same set of twenty amino acids, with a few exceptions. In order to classify amino acids, the molecules are assorted in four groups on the basis of the general characteristics of their R groups. The four groups are hydrophobic amino acids with nonpolar R groups, polar amino acids with neutral R groups but the charge is not evenly distributed, positively charged amino acids with R groups that have a positive charge at physiological pH, and lastly, negatively charged amino acids with R groups that have a negative charge at physiological pH. The simplest amino acid is glycine because it has only a single hydrogen atom as its side chain. Alanine is the next simplest amino acid because it has a methyl group as its side chain. Seven of the twenty amino acids have side chains that are readily ionizable and they are able to accept or donate protons to facilitate reactions and form ionic bonds. Amino acids are typically abbreviated to a three-letter, which are typically the first three letters