The risk of CVDs is usually predicated by a blood test that measures the level of lipoprotein because atherosclerosis is caused by high triglyceride levels, increases in low density lipoprotein (LDL) cholesterol levels, and decreases in high density lipoprotein (HDL) cholesterol levels (5). The majority of HDL consists of Apolipoprotein A-1 (ApoA-1) protein, where it exists mostly in the lipid-bound form in human plasma. ApoA-1 has anti-atherogenic properties (6), where it helps protect against the formation of abnormal fatty deposit within the walls of arteries. It has a specific role in lipid metabolism where it removes cholesterol from issues to the liver for excretion using a process called reverse cholesterol transport (7). Both ApoA-1
The unknown bacterium that was handed out by the professor labeled “E19” was an irregular and raised shaped bacteria with a smooth texture and it had a white creamy color. The slant growth pattern was filiform and there was a turbid growth in the broth. After all the tests were complete and the results were compared the unknown bacterium was defined as Shigella sonnei. The results that narrowed it down the most were the gram stain, the lactose fermentation test, the citrate utilization test and the indole test. The results for each of the tests performed are listed in Table 1.1 below.
Anne Zhang 3/6/14 BSGE 7-1 Lab Report Problem Paragraph 1 Question: What is the effect of temperature on the dissolving time of an Alka-Seltzer? Alka-Seltzer is made up of baking soda, aspirin, and citric acid which gives the tablet the fizz when dropped in any temperature water. “Alka-Seltzer is a medication that works as a pain reliever and an antacid.
That familiar fizzing you hear when you drop an Alka Seltzer tablet into a glass of water is the result of a chemical reaction, and chemical reactions are extremely prevalent when it comes to what living things do to carry out life processes. In addition, environmental conditions can alter the results of chemical reactions, and in this lab, we will be answering the
The weight of the final product was 0.979 grams. A nucleophile is an atom or molecule that wants to donate a pair of electrons. An electrophile is an atom or molecule that wants to accept a pair of electrons. In this reaction, the carboxylic acid (m-Toluic acid), is converted into an acyl chlorosulfite intermediate. The chlorosulfite intermediate reacts with a HCL. This yields an acid chloride (m-Toluyl chloride). Then diethylamine reacts with the acid chloride and this yields N,N-Diethyl-m-Toluamide.
Because it is a way of knowing the pressure that the blood is putting on the walls of arteries and veins.
When the flame was blown out and the glowing wooden splint was placed halfway into the test tube containing H2O2 and MnO2 crystals, the splint reignited and caught flame once again. This demonstrates the decomposition of H2O2 into water and hydrogen. MnO2 is a catalyst that increases the rate at which H2O2 decomposes. Adding oxygen to a fire will cause it to burn faster and hotter and the oxygen rich test tube allowed the splint to reignite.
Obesity a risk factor in which excess body fat accumulates and can have negative effects on your health. Here we identify how the hormone insulin reacts in 3T3-L1 fibroblasts and its role on adipogenesis. Adipogenesis is the development of fat cells from pre adipocytes. Insulin is an important factor in the differentiation of 3T3-L1 pre adipocytes to mature adipocytes. Oil Red O (ORO) is used to demonstrate the presence of lipids in each different treatment. A spectrophotometer is used to get the optical density of liquid at the different insulin concentrations. One factor CREB is revealed from preadipocytes to mature adipocytes. By demonstrating how insulin triggers transcription factors. When cells are insulin induced CREB is activated in differentiation. Insulin increased the rate of differentiation and the amassing of triglycerides in 3T3-L1 cells . Insulin was able to induce adipogenesis by observing cell morphology and optical density of liquid from ORO stain. Insulin at 1 µg/ml had the optimal rate of differentiation compared to the other insulin concentrations. Morphology of cells changed significantly from Day 0 to Day 7 at 1 µg/ml and appeared larger and
Hypercholesterolemia is the presence of high levels of cholesterol in the blood. Cholesterol is a waxy fat-like substance and is a major class of lipid, so it gets into the blood by lipoproteins [1]. A high level of lipoproteins is unhealthy. A high level can result in an elevated risk of atherosclerosis and coronary heart disease [2]. The high levels of lipoproteins are often influenced by a combination of genetic and environmental factors such as obesity or dieting habits [2]. High cholesterol can be caused by mutations in the following genes: APOB, LDLR, LDLRAP1, and PCSK9 [3]. Mutations in the LDLR gene are responsible for causing familial hypercholesterolemia, which is the most commonly seen form of inherited high cholesterol [3]. The LDLR gene contains instructions for making LDL receptors or low-density lipoprotein receptors. LDL receptors play critical roles in regulating levels of cholesterol in the blood by removing low-density lipoproteins from the bloodstream. Mutations in the LDLR gene can make the amount of LDL receptors produced less than normal or affect their job of removing the low-density lipoproteins in the blood [4]. People who have these mutations will have higher levels of cholesterol. There are many ways that the environment can affect the levels of cholesterol in the blood. Reducing the amount of dietary fat you consume lowers the total amount of cholesterol in the blood [5]. Sucrose and fructose can raise the amount of LDL in the blood. Reducing fatty foods will however lower the amount of LDL [5]. Having a healthy body and maintaining physical exercise plays a key role in keeping your cholesterol at a healthy level. If you are overweight or obese you can lower your cholesterol levels by simply losing ...
CAD is a leading cause of morbidity and mortality throughout the worldwide. The prevalence of biological and metabolic risk factors were also found to be high in development of coronary artery disease. Patients with hypercholesterolemia are at increased risk to experience cardiovascular events and to die from vascular disease [2]. .Statins, among the most commonly prescribed drugs worldwide, are cholesterol let downing agents used to manage cardiovascular and coronary heart diseases and to treat hypercholesterolemia. Statin’s therapy ...
Coronary heart disease came in the public eye in the mid-20th century as a disease of pandemic magnitudes and it continues to be a major cause of death in the western world. The fundamental cause of coronary heart disease is Atherosclerosis. The term “atherosclerosis” is the combination of two Greek words which correctly imply the elements of the lesion. The first being “athero” the greek work for gruel which parallels to the necrotic core at the base plaque formation, and “sclerosis” from the Greek word hardening, corresponding to the fibrous cap on the outer layer of the plaque. (Vulnerable Atherosclerotic Plaque : Strategies for Diagnosis and Management, 1, 2)
Atherosclerosis or arteriosclerosis is the main cause of coronary artery disease. Atherosclerosis or arteriosclerosis is the gradual buildup of cholesterol inside the artery. When this happens in a coronary artery, the space inside the artery where blood flows becomes narrow, making it difficult for blood to flow freely. The result is less blood flow through the artery and less blood supply to heart tissue. Symptoms can include chest pain, shortness of breath, and fatigue that can be mild, or abrupt and severe, such as a heart attack. –http://www.heartpoint.com
Coronary artery disease (CAD) is the number one killer in America, affecting more than 13 million people. CAD occurs when a fatty substance called plaque builds up in the coronary arteries. These arteries disperse oxygen-ric...
Atherosclerosis is the most common cause of CAD. Atherosclerosis is a progressive disease characterized by fat deposits in the arteries causing them to block the normal passage of blood. No one is quite sure how atherosclerosis develops. The plaque consists mostly of cholesterol, phospholipids and smooth muscle cells. They also reduce the size of the lumen of the affected artery which impairs the blood flow of this artery and later on could form a thrombus that will completely occlude the vessel. “Unfortunately, signs and symptoms of atherosclerosis usually don’t develop until at least 70% of an artery’s lumen has become obstructed. Angina is almost always the first symptom to appear.”(Journal: The killer behind CAD,2010). Modifiable factors that could prevent the occurrence of CAD include cigarette smoking, obesity, physical inactivity, atherogenic diet like diet high in cholesterol, use of contraceptive and hormone therapy replacement. “Women continue to ...
When one or several lipids combine with proteins this forms lipoproteins, these transport fat throughout the bloodstream. High-density lipoproteins, also known as HDL, carry fat away from body cells, therefore preventing its growth in the artery walls. Low-Density Lipoproteins, also known as LDL, contain a high amount of cholesterol and seem to help the build up of fatty materials in the artery walls. The situation that you should go for would be high HDL and low LDL levels. Your goal should be to keep your overall cholesterol at below 200, with LDL lower than 40, and your HDL should be at around 160. This will lower the risk of heart disease and other related problems with cholesterol.
The high blood cholesterol can lead to narrow the arteries that will slow the flowing of blood this is called atherosclerosis. In addition, there are some of things can elevate the risk factor of high blood cholesterol like smoking, being overweight and excess alcohol.