Fasting? – A Comparison Between A Diabetic And A Non-diabetic Essay, Research Paper
How is the blood glucose changes while fasting? – A comparison between a diabetic and a non-diabetic male student Abstract The research question of my Extended Essay is: “How is the blood glucose changing while fasting – a comparison between a diabetic and a non-diabetic male student.” I am a diabetic and have in nine years learned to eat regularly and take insulin, and have never or at least on very few occasions skipped meals. But now I thought that it is time to explore what happens to the body, and the blood glucose when I don’t get food. So I decided to fast and measure the blood glucose, in different combinations with insulin. I also asked a friend of mine, who is a non-diabetic, to do the same test and act as a reference. My plan was to first take a blood glucose profile on an ordinary day, with normal dose insulin and food. And on the second day I would skip the insulin as long as I could, and on the final day, I would take as much insulin as I thought was necessary. The three experiments should not be in a serial. The result really confused me. On the second day of the experiment, when I didn’t take any insulin at all, the glucose level was actually almost perfect. So I decided to do the test again and found the same result. I can say that I have come to learn a lot about my diabetes during the test, and found many interesting things for the future. Submit an EssayEssay Submitted by: Thomas Blom Research Question and Theory Research question: “How is the blood glucose changes while fasting – a compassion between a diabetic and a non-diabetic male student” Theory When I think of this experiment and try to predict what is going to happen, I more and more realize how important it really is for me. If, by any strange way, I don’t get any food I must know how to handle the situation. And the only way to find out is to simulate. I also realize more and more how important it is to be careful and check my glucose level, so that nothing goes wrong. My theory then is that my blood sugar will rise approximately at eleven o’clock to 15-20 mmol/l, maybe later. The reason for the rise is that the effect intermediate-acting insulin will decrease and I shall need more insulin. I expect to manage to around lunchtime without insulin the first day. The next time I do the tests I will try to keep the blood glucose level down with insulin, but still no food, and see how long I can make it without any production of ketons. I believe that I will make it for about ten to twelve hours. My fellow student Adam will also go through the same tests. In his case, since he is a non-diabetic, I think that his blood glucose level will drop to 3.0 mmol/l at ten o’clock when he hasn’t had any breakfast. He will probably be tired, hungry and quite irritated. In his case I believe that the glucose level will remain rather steady. The body is supposed to work that way, but we will see what happens. Extended Essay: Introduction In this essay I am going to investigate how the blood sugar will behave when fasting. I will test on myself and on a fellow student and I will compare the results and examine patterns and differences. I myself am a type 1 diabetic, or Insulin-Dependant Diabetic Mellitus. I have been a diabetic for nine years, and have during that time come to learn very much about what it is all about. I believe that it is now time to explore even more what happens when I exert myself to extreme conditions, but of course under controlled circumstances. Since I am a diabetic I have access to the glucometers that will be used during the experiments. I have consulted with my doctor how to behave when fasting. His opinion was that it is okay once or twice. He also agreed on that it is important to learn how the blood sugar reacts when I do not eat in case something happens later in life, I will then have experienced the situation once before and will be able to handle the situation. (His letter can be found in Appendix A). It is of utter most importance that I, before I start, set the limits, and that I during the experiment is prepared to abort when the glucose level raises to high (hyperglycemia), or drops to low (hypoglycemia). I will set the lower limit to 3.0 mmol/l and the upper to 18.0 mmol/l. If the blood sugar drops under or rises above these two limits I must abort, eat and take insulin. There is an other case when I must abort the experiment and eat and take insulin, and that is when I start to produce ketons in the urine. Since insulin is needed to convert sugar into energy, there will be a problem when there is none. So if there is a lack of insulin, the body will seek other ways to get energy into the cells, and this is done by combusting fats. In this process, ketons will be produced as a by-product. This is the first warning, and I must, if this happens, take insulin. If the production of ketons continues, the insulin sensitivity will drop and the blood glucose will rise quickly and I might fall into coma, this might cause severe damages on the internal organs, like the eye, and the liver. I will fast three to four times, in two different ways. During the first time I will not take any insulin at all, and study how long it takes for the blood sugar to start rising. The next time I will take insulin to keep the blood sugar at a constant level, when and how much will be decided from the first experiment. My goal is to be able to fast with a constant glucose level. I will some days before the experiment is to take place check the level of my blood sugar a normal day, and adjust the insulin so that is as normal as it can be. I will also let a friend of mine, who is a non-diabetic, do the experiment. He will fast for one day, and take blood tests and make a profile. I will then use this as a reference and compare with my profile. Preparations Presentation of insulin and testing tools Humalog(c), Rapid-acting insulin Normally, I take insulin before each meal. This is a human insulin zinc suspension, Humalog(c) (insulin lispro), produced by Lilly France SA. It is a synthetic humaninsulin, produced in a laboratory using DNA-method. It is closely related to normal insulin, which is produced in the pancreas. I take this kind of insulin intravenous direct or some minutes before I eat. This kind of rapid-acting insulin only works for about five hours with maximum effect after 15-45 minutes. Monotard(c), Intermediate-acting insulin Once every night I take an intermediate-acting insulin that has a duration of 24 – 25 hours, starts working within 2.5 hours and has a maximum effect after seven to fifteen hours. It is called Monotard(c) and is produced by Novo Nordisk, also by using the DNA-method. It is also a human insulin zinc suspension. This insulin-type is like a base and should be approximately fifty percent of the total daily usage of insulin. I will of course take this insulin the day before I do the tests, otherwise I would not be able to accomplish the task at all. It will make it harder, if not impossible to draw conclusions from and compare with non-diabetics because this kind of insulin does not exist naturally in the human body, a smaller amount of insulin is produced constantly, or when required. A healthy body can make that decision automatic. This is the Humalog(c) And this is the Monotard(c) My daily dose of insulin is 43U rapid-acting insulin when eating, divided on four times a day, and 38U intermediate-acting insulin every night. (100 U/ml à U-100) The testing-tools The two kinds of tests I take are the blood glucose test and the urine test. The first and most common one measures the level of glucose in the blood, and the apparatus I use for this is called Acutrend(c). Acutrend(c) (figure 1, page 6) The unit is mmol/l, millimole per liter – a unit of concentration. You take a drop of blood and put it on a test strip. The test strip consists of an indicator that changes color with the change in concentration of glucose. You then put the strip into the Acutrend(c) and a laser scans the indicator and gives you the answer in twelve seconds. There are quite a number of companies that make these glucometers. Boehringer Mannheim GmbH makes the one I use and the production name is Acutrend(c). It takes twelve seconds to get the answer and the apparatus can store fifty results with date and time, a very useful function when taking profiles, especially at nights. It can measure glucose within the range 1.1 to 33.3 mmol/l. The laser has a wavelength of 660 nm and simply measures the color of the indicator. This kind of test gives an instant hint of how you feel at the moment. The other kind of test, the urine test, reveals how the glucose levels have been for the last couple of hours. When the glucose level is above approximately 11 mmol/l the body wants to get rid of the glucose and therefor lets it out in the urine. So if you can trace how much glucose there is in the urine, you can see if you have had a high blood glucose level for a longer period of time. This is very useful, and is very often used in the mornings to check if the blood glucose has been too high during the night. The urine test also lets on you if you have ketons in the urine, so that is why I will take this test when I fast. Keto-Diastix Keto-Diastix(r) is a visual reacting-tool to determine glucose and ketons (acetoacetat) in the urine produced by Bayer Diagnostics. This method has been used for almost thirty years. The strip contains two testing fields, one for testing glucose and one for testing ketons (acetoacetat). The field that measures the glucose consists of a two step enzymical reaction. The enzyme, glucoseoxidas, catalyses the production of gluconacid and hydroperoxide through oxidation of glucose. Another enzyme, peroxidas, is a catalyst in the next process where hydroperoxide and a calciumiodide cromogene react and the cromogene changes color from