Team:ATOMS-Turkiye/Background-Problem
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<h1>Background and Problem</h1> | <h1>Background and Problem</h1> | ||
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- | + | Untill now, numerous iGEM teams have proposed effective projects against harming and fatal medical conditions. We believe that synthetic biology poses a promising option to invent robust medications and treatments, <b>this year we targeted the most lethal disease worldwide and shaped the SynBio to be used as a safe and efficient weapon against it. This condition is called ischemia.</b> | |
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<h2>Briefly, what is ischemia? </h2> | <h2>Briefly, what is ischemia? </h2> | ||
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Revision as of 13:07, 15 October 2014
Background and Problem
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Untill now, numerous iGEM teams have proposed effective projects against harming and fatal medical conditions. We believe that synthetic biology poses a promising option to invent robust medications and treatments, this year we targeted the most lethal disease worldwide and shaped the SynBio to be used as a safe and efficient weapon against it. This condition is called ischemia.
Briefly, what is ischemia?
- Ischemia is, “iskhaimos” in Greek, the fusion of words “iskho”, keep back, restrain, and “haima”, blood gaining the mean of “staunching blood”. Theoretically, ischemia is the restriction in blood supply to tissues, generally caused by the blockage of blood movement which ends up with a shortage of oxygen and nutrition vital for cell metabolism and survival. Since oxygen is carried to tissues only via the blood, insufficient blood supply causes tissue to become starved of oxygen. In the highly aerobic tissues of the heart and brain, irreversible damage to tissues can occur in as little as 3–4 minutes at body temperature. The kidneys are also damaged at a fast rate due to the loss of blood flow. Tissues with slower metabolic rates may undergo irreversible damage after 20 minutes.
- The process known as ischemic cascade is how ischemia causes tissue damage. The build-up of metabolic waste products is the main cause of the damage which inevitably results in the inability to maintain cell membranes, mitochondrial damage, and eventual leakage of auto-lysing proteolytic enzymes into the cell and surrounding tissues.
- The blockage of bloodstream usually occurs due to a clot; therefore all risk factors that are related to the formation of clot may also contribute this phenomenon. Here, we can mention that the tendency of clot formation, which is also called thrombophilia, can be enhanced mainly by excessive body weight.
- Excessive fat and sugar uptake results in the accumulation of fatty acids and cholesterol on cell membranes and vessel walls. These fatty components of vessel wall are called atherosclerotic plaques. Atherosclerosis is the gradual buildup of cholesterol and fibrous tissue as plaques in the walls of arteries (in this case, the coronary arteries), typically over decades plaques can be further invaded by white blood cells because of inducing inflammatory reactions that lure macrophages and neutrophils. Due to the involvement of white blood cells, plaques can become thicker making it further solid and rigid.
- These rigid plaques can damage and rupture the vessel walls as a result of the high surface tension of the bloodstream. Subsequently, the rupture induces the vessel cells to secrete pro-coagulative factors which initiate the activation of clotting. The impairment of the conveyance of blood supply gradually results in the death of the tissue. This state is broadly described as hypoxia.
The Importance of Ischemia
- The scientific description above may not reflect the importance of this topic; yet the reality is different. Ischemia is related to the most serious conditions of today's medical problems. The well-known heart attack, which is responsible for most of the deaths worldwide, is actually an ischemic condition. In addition to this, the loss of a specific region of the brain because of poor blood perfusion is highly associated with ischemia too and is famously known as stroke.
- In fact, every year, about 1.5 million Americans have heart attack causing 500,000 deaths. A heart attack occurs every 20 seconds which results in a death approximately every minute. (1) Ischemic heart disease is the most common cause of death in most Western countries and a major cause of hospital admissions. In 2011, heart attack was one of the top five most expensive conditions seen during inpatient hospitalizations in the U.S., with an aggregate cost of about $11.5 billion for 612,000 hospital stays.
- The phrase "heart attack" is often used non-specifically to refer to a myocardial infarction and to sudden cardiac death. An MI is different form, but can cause cardiac arrest, which is the stopping of the heartbeat. It is also distinct from heart failure, in which the pumping action of the heart is impaired. However, an MI may lead to heart failure.
- Heart attack is known in medical literature as coronary heart disease, or coronary artery disease, due to atherosclerosis, or the buildup of fatty acid as a plaque on the inner lining of coronary arteries. The plaque and resulting blood clots block the artery partially or completely, reducing the amount of blood that can flow through the artery to the heart. This cuts off the oxygen supply to part of the heart muscle.(2) If impaired blood flow to the heart lasts long enough, it triggers a process called the ischemic cascade; the heart cells in the territory of the occluded coronary artery die (chiefly through necrosis) and do not grow back. A collagen scar forms in their place which also puts the patient at risk for potentially life-threatening arrhythmias, and may result in the formation of a ventricular aneurysm that can rupture with catastrophic consequences. A heart attack requires immediate medical attention. Treatment attempts to save as much viable heart muscle as possible and to prevent further complications, hence the phrase "time is muscle”.
- Although the main symptoms of heart attack are well-known and described, some of these attacks can be mild and unrecognized. This results in the weakening and the loss of heart tissue which may pave the way of more dangerous heart attacks that can end up with death. In many cases, in some estimates as high as 64%, the person does not have chest pain or other symptoms. These heart attacks that occur without any symptoms or with very mild symptoms are called silent heart attacks (3). At least one-fourth of all heart attacks are silent, without chest pain or other symptoms. These cases can be discovered later on electrocardiograms, using blood enzyme tests or at autopsy without a prior history of related complaints, which all of these are late for an effective treatment. This latency nature of heart attacks obliges us to find a more effective prevention or solution that can initiate the healing process instantly.
The Calm Before Storm
- Of course, the treatment of ischemia includes the removal of the blockage. However, the real problem is only beginning here. So far, we are able to dissolve the clot ingredients with specific medications. However the hypoxic tissue have adapted to this new hard conditions in order to survive by accelerating and multiplying energy providing pathways and oxygen dependent reactants. The absence of oxygen and nutrients from blood during the ischemic period creates a condition in which the restoration of circulation results in inflammation and oxidative damage through the induction of oxidative stress rather than restoration of normal function.
- These oxygen consuming reactions may cause some leakages that can produce some toxic chemicals called reactive oxygen species (ROS). ROS are some oxygen intermediate products that have a lack of electron in their covalent bonds, which makes them ultimately undetermined. By means of this, ROS can disrupt almost every cation and anion structures in cell media.
- The removal of clot brings fresh blood with high oxygen concentration to hypoxic tissue. This restoration of blood supply to ischemic tissues can cause additional damage known as reperfusion injury that can be more damaging than the initial ischemia. (5) Reintroduction of blood flow brings oxygen back to the tissues, causing a greater production of free radicals and reactive oxygen species that damage cells. Hypoxic cells could use excessive oxygen because of their boosted oxygen consuming systems which results with high production of these ROS particles. Further inflammation would attract white blood cells to the perfused site inducing them to secrete more ROS to the field because of recognizing the inflammation as a threat to the body. These ROS can damage all of cell components including DNA, cell membrane and organelles.
- The prolonged ischemia (60 minutes or more), hypoxanthine is formed as breakdown product of ATP metabolism. The enzyme xanthine dehydrogenase acts in reverse that is as a xanthine oxidase as a result of the higher availability of oxygen. This oxidation results in molecular oxygen being converted into highly reactive superoxide and hydroxyl radicals. Xanthine oxidase also produces uric acid, which may act as both a pro-oxidant and as a scavenger of reactive species such as peroxynitrite. Such radicals and reactive oxygen species attack cell membrane lipids, proteins and cell components causing further damage.
- Because of these, an effective and safe treatment of ischemia must allow us to both remove hypoxia and prevent reperfusion injury caused by ROS production and its related pathways such as xanthine degradation.
References
- 1-http://www.allheartattack.com/statistics.php
- 2-http://www.allheartattack.com/overview/heart-attack-overview.php
- 3-https://www.goredforwomen.org/about-heart-disease/facts_about_heart_disease_in_women-sub-category/silent-heart-attack-symptoms-risks/
- 4-http://www.nhlbi.nih.gov/health/health-topics/topics/heartattack/signs.html
- 5-http://www.mayoclinic.org/diseases-conditions/myocardial-ischemia/basics/treatment/con-20035096
- 6-http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2549784/