Carbohydrates, fats and other food groups are broken down into glucose and other components during digestion.
Actually the glucose level in our blood varies, depending on the time of the day and the time since our last meal. If this balance is somehow disturbed, it can lead to a host of health issues, the most common being diabetes. There are certain simple lifestyle choices you can make that go a long way in helping your body maintain a normal blood glucose level. Watch the video below to find out what the blood sugar roller coaster  is and why you might be riding it today. Think about how you feel 1-3 hours after you eat – if you have you ever been hangry, get the shakes, get brain fog or just want to put your head on your desk and have a nap in the afternoon at work, fixing it might be easier than you think! Sign up below and receive my FREE checklist:"Seven Simple Swaps for a Healthier Home"It doesn\'t have to be complicated.
These figures come out when you measure your blood sugar level in the morning after have been fasting for at least 8 hours.This is the time between the dinner and your breakfast. Is your Diabetic Heart Killing you softly?Get to know about Diabetes Heart Failure link to more severe complications. An Oral Glucose Tolerance Test (OGTT) may be done by your doctor to test for Type 1 or Type 2 diabetes or gestational diabetes. If you are a pregnant woman being tested for gestational diabetes, the liquid you must drink will have less sugar (glucose) dissolved in water. Join tens of thousands of doctors, health professionals and patients who receive our newsletters. Blood sugar or blood glucose refers to sugar that is transported through the bloodstream to supply energy to all the cells in our bodies.
Sugar is a simple, crystalline, edible carbohydrate and comes in a variety of forms, all of them sweet. The human digestive system breaks down the carbohydrates from food into various sugar molecules - one of them is glucose, the body's principal source of energy.
After we eat, blood sugar concentrations rise, the pancreas releases insulin automatically so that the glucose enters cells, as more and more cells receive glucose, blood sugar levels come down to normal again. If you have not eaten for a while and blood glucose concentrations keep dropping, the pancreas releases another hormone called glucagon. Blood sugar or blood glucose are shortened terms for blood sugar concentration or blood glucose level. Long-term hyperglycemia may eventually lead to complications that affect the small blood vessels that supply the nerves, kidneys, retina and other organs.
Slight blood glucose increase raises heart disease risk - researchers from Copenhagen University Hospital found that after checking data on 80,000 people, that even slightly elevated blood sugar concentrations can eventually lead to a 69% higher risk of ischemic cardiovascular disease. One third of community hospital patients have high blood sugar concentrations - experts from Emory University in Atlanta, Georgia, USA, found that from 32% to 38% of all patients in community hospitals suffer from hyperglycemia.
The human brain is a voracious consumer of glucose, it neither manufactures nor stores glucose - the brain depends completely on glucose coming from the bloodstream.
Too much alcohol - if you drink too much without having eaten, your liver may not release glycogen. Some illnesses - especially critical ones, such as severe hepatitis and disorders of the kidney. Excessive insulin production - certain illnesses may have insulinoma as one of its symptoms, for example, some tumors produce insulin-like chemicals; in some cases the tumor itself consumes so much glucose that there is not enough for the rest of the body. Disorders of the endocrine system - some pituitary and adrenal gland disorders may lead to abnormally low production and release of some hormones which play a key role in the production of glucose. Typically, the diabetes patient tests blood glucose levels with a glucose meter - which comes with lancets (tiny needles), a logbook and test strips. Keep a log of each glucose reading; this helps the doctors find the best treatment plan for you. Regulatory authorities need to keep a close check on the accuracy of medical devices used for testing blood glucose levels. In general, patients with diabetes type 2 test their blood sugar concentrations at least once each day. Source: Roche Diagnostics, Medical News Today archives, Wikipedia, Wikimedia Commons, National Health Service, Diabetes UK. Please use one of the following formats to cite this article in your essay, paper or report:MLANordqvist, Christian.
For any corrections of factual information, or to contact our editorial team, please see our contact page. Please note: Any medical information published on this website is not intended as a substitute for informed medical advice and you should not take any action before consulting with a health care professional. Learn all about diabetes, a lifelong metabolism disorder that causes high blood sugar levels. Learn all about type 1 and type 2 diabetes and the differences between the two conditions in our article about the diabetes mellitus metabolism disorder.
When blood glucose goes LOW, however, (such as between meals, and during exercise) more and more glucagon is secreted.
The effect of glucagon is to make the liver release the glucose it has stored in its cells into the bloodstream, with the net effect of increasing blood glucose.
The purpose of the Patient Guide to Insulin is to educate patients, parents, and caregivers about insulin treatment of diabetes. If you are like many people, you may think that osteoporosisa€”a condition marked by low bone mineral density, which leads to lowered bone strength and a heightened risk of fracturesa€”is something you will not have to worry about until later in life. Sign Up for the FREE EndocrineWeb eNewsletter and receive treatment and research updates, news, and helpful tips on managing your condition.
Some familiarity with electronic circuits and using breadboards would be helpful, though it is not required for this project. Build a model of an artificial pancreas to investigate the challenges of getting such a device to work.
First, let us step back for a moment and have a quick crash course (or a refresher if you are already familiar) on diabetes. This video shows how blood glucose levels change over time for people with and without diabetes (Khan Academy, 2011).
However, in people with type 1 diabetes (which is caused by an autoimmune response, and was formerly known as juvenile diabetes), the pancreas no longer makes insulin. While the solution for many diabetics is to take insulin, it is not that simple; many things have an effect on insulin levels in a person's body, including exercise, stress, what and how much they eat, just to name a few.
As previously discussed, to take away the difficulties of managing type 1 diabetes, scientists and engineers have set out to create improved insulin pumps and an artificial pancreas. Now that you have a better understanding of type 1 diabetes and what an artificial pancreas is, you may be wondering how you can work on something like that for a science fair project.
When enough electrical current travels through the conductivity sensor, it causes a transistor in the circuit to activate a pump. Lastly, the conductivity sensor is combined with other electrical components called potentiometers, which are a type of adjustable resistor. Do you think it will be difficult to get the artificial pancreas to stop when it is supposed to, when the right amount of baking soda solution has been added to the vinegar solution? What do the different parts of the artificial pancreas model in this project represent in a real artificial pancreas system?
If you are using a graduated cylinder, you will also want to have a funnel that fits with the top of the graduated cylinder. Scissors; in addition to cutting Styrofoam and a plastic straw, you will also need to cut some copper wire. We also do our best to make sure that any listed supplier provides prompt, courteous service. Proceeds from the affiliate programs help support Science Buddies, a 501(c)(3) public charity.
In this part of the procedure, you will make a conductivity sensor and connect it to your breadboard circuit.
If possible, one end of the segment should have the ridged, bendable part of the straw on it; this will help keep the wire on the sensor. Wrap the end of each copper wire tightly around the straw, looping it about four times with each wire, as shown in Figure 5. The wire should be wound tightly around the straw so that the wire does not easily slide around on the straw. However, even if the wires do move some, this should be fixed when you add the Styrofoam piece next. Carefully poke the copper wire tails from the straw through the Styrofoam piece, keeping the wires the same distance apart that they are on the straw piece, as shown in Figure 6.
On the top side of the Styrofoam (opposite the side where the straw is), make a sharp bend in each wire, right above the Styrofoam, as shown in Figure 7. The sensor will be going into a bowl of liquid, and the amount of copper wire submerged in the liquid can change how much conductivity the sensor detects.
Lastly, attach the unconnected alligator clip leads from your circuit to the copper wires on the sensor, as shown in Figure 8.
For labeling, you can use masking tape and a permanent marker or small sticky notes and a pen or pencil. On a scale, place a measuring cup or other small container to weigh baking soda on the scale. Use the graduated cylinder, or a metric measuring cup, to measure out 200 milliliters (mL) of distilled water. Measure out 100 mL of distilled white vinegar and very slowly add it to the "Neutralized" bowl. Caution: Mixing an acidic solution with a basic solution can cause a powerful chemical reaction. Once the reaction has slowed, slowly mix the solution to make sure the vinegar and baking soda have completely reacted. Measure out 200 mL of distilled white vinegar and carefully pour it into the "Vinegar" bowl. To find out what the pH of the baking soda solution, the vinegar and the neutralized solution is, add about 1 teaspoon of bromothymol blue indicator solution to each bowl. Carefully place your conductivity sensor in the "Neutralized" bowl, letting the straw part be submerged and the Styrofoam piece float on the surface, as shown in Figure 11. If the Styrofoam piece is not floating evenly, you can try taping the test leads onto the rim of the mixing bowl to keep things in place. The pump may start running as soon as you put the conductivity sensor in the neutralized solution, but do not worry if the pump is not running yet. Remember that a potentiometer is a variable resistor; you can change its resistance by turning the white knob.
Once the pump is running, very slowly turn the potentiometer's knob in the opposite direction to turn the pump off. While you are adjusting the potentiometers, identify which pump tube has liquid flowing out of it.
Make sure all of the jumper wires and components are pushed firmly into the breadboard's holes. Make sure no exposed metal parts (like the leads of the resistors) are touching each other, as this will create a short circuit. Be especially careful to avoid creating a short circuit by having wires from the red and blue bus strips touch each other. Once you have normalized your artificial pancreas model so that the pump does not run when the conductivity sensor is in a neutralized solution, carefully remove the conductivity sensor from the neutralized solution (leaving the pump's tubes in the "Vinegar" bowl), and rinse the sensor briefly with some baking soda solution (over a sink or a different bowl).
Note: Make sure the sensor is floating the same way that it was in the neutralized solution. While the pump is running, carefully and continually move the end of the pump tube in the "Baking Soda" bowl so that the vinegar mixes well with the baking soda solution throughout the bowl (including under and around the sensor).


When the pump stops, measure how much vinegar solution is left in the "Vinegar" bowl by carefully pouring it into a metric measuring cup or a graduated cylinder using a funnel.
Note: There may be more liquid in the bowl than can fit in the measuring cup or graduated cylinder, so you may need to fill it up (and empty it out) multiple times to measure the total amount of baking soda.
Since the baking soda solution you prepared is at the same concentration as the vinegar, they should make a neutralized solution when the same amount of each have been mixed together.
Note: Because pH reactions occur on a logarithmic scale, the error measurements can be on a logarithmic scale, too. What could you physically change about your circuit, conductivity sensor, or experimental setup? Clean and dry the mixing bowls and repeat steps 1–18 to test your model again, with the changes you decided on in step 19, and analyze its results. You can make a bar graph of your results, with a bar for each time you tested the model (labeled on the x-axis) that shows how much vinegar remained when testing each time (labeled on the y-axis in mL).
Following the indicator color change of your solutions, you can analyze the pH results as well. How did the pH, or the indicator color, of the vinegar solution change by the addition of the baking soda? Was the indicator color (pH) of the original neutralized solution the same as the indicator color (pH) of the solution when the pump stopped running? Tip: You may want to refer to the Introduction in the Background tab to help you answer this last question. In the testing you did for this project, you should have found that the artificial pancreas model could be automated for the part you tested. Some people may want an artificial pancreas to turn on and pump insulin when they have a specific, different blood glucose level compared to other people.
How could you use the artificial pancreas model you made in this project to model the delivery of other types of medicines?
How could you make the artificial pancreas model used in this project more similar to what a real artificial pancreas would be like?
For an advanced chemistry challenge, instead of the chemical reaction used in the artificial pancreas model in this project, you could try using a different chemical reaction. You could look into doing a titration (which is typically a color-changing reaction that depends on the exact chemicals involved). Alternatively, instead of bromothymol blue as an indicator you could use cabbage juice, which also changes color based on the pH of the solution. For science projects on measuring sugars in foods and relating this to diabetes, see How Sweet It Is!
Compared to a typical science class, please tell us how much you learned doing this project.
If the amount is too high (Hyperglycemia), or even too low (Hypoglycemia), our body stops functioning properly. So, the glucose level is lowest in the morning, when we wake up, and continues to be low till we have the first meal of the day. This also happens when we consume alcohol – there is a huge surge of glucose in the body which later falls drastically. Other problems could include memory loss, heart disease, infertility and even coma (in case of extreme hypoglycemia). When you eat bread with simple carbohydrates, it dumps a huge load of glucose in your blood which the body finds difficult to regulate.
People who have one grapefruit every day (ideally split up between two meals) tend to lose weight and have a normal blood sugar level. But make sure that each of these meals are about half of what your regular meals are today. Alba, What would be the glucose reaction if I eat 2 scrambled eggs with 2 slices of salt-cured bacon and one slice of wholegrain toast? Glucose, one type of sugar, is the one in the bloodstream that feeds cells and matters to us. The glucose goes straight from the digestive system into the bloodstream after we have consumed and digested food. Glucagon triggers the breakdown of glycogen into glucose, thus pushing blood glucose levels back up to normal.
They are at their lowest point before our first meal in the day, which for most people (not shift workers) is breakfast. People with poorly controlled diabetes, Cushing's syndrome and some other illnesses frequently suffer from hyperglycemia. There is a risk of becoming blind, developing renal disease, erectile dysfunction, foot ulcers and other illnesses and conditions. They added that people should have their blood glucose levels checked as soon as they are hospitalized, as this would most likely reduce the numbers of hospital complications in surgery and general medicine patients. Most people with hypoglycemia can tell by the symptoms associated with the condition (a significant minority cannot).
If the kidneys and liver do not work properly, it is harder for the body to break down and excrete medications. Many have to check several times each day so that they can plan for activities, meals, and when to take their medications. There are several meter manufacturers which make a wide range of different devices - however, they all do the same, measure the patients' blood-glucose levels. In 2009, the US FDA (Food and Drug Administration informed that blood glucose meters that used GDH-PQQ test strips could be giving false readings - and that that some patients might have been using too much insulin as a result. Those needing to take insulin, which includes everyone with diabetes type 1 and some with type 2, have to test their blood several times a day. Like insulin, glucagon has an effect on many cells of the body, but most notably the liver. Glucagon also induces the liver (and some other cells such as muscle) to make glucose out of building blocks obtained from other nutrients found in the body (eg, protein).
Learn about these diabetic neuropathies: peripheral, autonomic, proximal, and focal neuropathies.
As we always do here on EndocrineWeb, wea€™re going to break down that concept for you, and thata€™s why wea€™ve put together this Patient Guide to Treating High Cholesterol and Diabetes. By reviewing this information, youa€™re taking an important step to learn about diabetes and how insulin controls the disease to help you live a healthier life. You may feel a lump, notice one side of your neck appears to be different, or your doctor may find it during a routine examination. Here, you'll learn about some of the most important aspects of managing your child's condition.
One area in which that motivation is readily apparent is in the field of biomedical engineering, where an intense focus of research right now is on creating better insulin pumps and an artificial pancreas. See Figure 1 for typical blood glucose level fluctuations for a person over the course of a day. This graph shows how a person's blood glucose levels may change over the course of a day, and how eating a meal with lots of sugar (sucrose) can affect blood glucose levels.
The level of glucose in your blood is regulated by insulin, a hormone made by the pancreas. If left untreated, the blood glucose levels of a person with type 1 diabetes could be dangerously high, which is a condition called hyperglycemia. And having blood glucose levels that are too high (hyperglycemia), or too low (hypoglycemia), can cause serious health problems.
Diabetics who take insulin supplements take them in the form of insulin injections (using a needle) or infusions using an insulin pump, like the one shown in Figure 2. This picture shows an insulin pump attached to a person's body to infuse specific amounts of insulin. In this project, you will get to find out by building a simplified model of an artificial pancreas system and investigating the challenges of getting such a device to work. This flowchart shows how an artificial pancreas would work (on the left) and how those steps are similar to what is done in the model used in this project (on the right). A solution of vinegar (acetic acid, or CH3COOH), which is an acid, will represent high blood glucose levels, and a solution of baking soda (sodium bicarbonate, or NaHCO3), which is a base, will represent insulin.
It has to do with the fact that acidic solutions are fairly conductive, which means that they can conduct electricity, or allow electrical current to flow through them. A transistor is an electrical component that acts like a switch; if the transistor receives a high enough voltage, it can allow electrical current to travel through a different path of the circuit.
It's not as smart as you are, and it may occasionally give humorous, ridiculous, or even annoying results!
We recommend purchasing the exact parts from Jameco, listed below, unless you are confident that you can find appropriate parts with equivalent specifications. Because of this, you will need a pair of scissors that you do not mind denting, or you could use a pair of wire cutters. If you have never used a breadboard before, you should refer to the Science Buddies reference How to Use a Breadboard before you proceed. The sensor will be made using bare copper wire, a straw, scissors, and a small piece of flat Styrofoam.
Note: Cutting the wire with scissors may dent the scissors, so use a pair of scissors that may be alright to dent, or use a pair of wire cutters. If the wires move much, they could change the amount of conductivity detected by the sensor. Wrap the ends of two copper wires around a segment of straw, making about four loops with each wire. Make sure the bend is sharp enough to keep the wires from sliding down through the Styrofoam. Because of this, it is important that the amount of wire submerged in the liquid is always the same. After attaching the alligator clips to the copper wires, the conductivity sensor should look like the one here. You will do this by first normalizing it to a neutralized solution to make sure the pump will turn off once your solution is neutralized. You must pour the vinegar into the bowl very slowly to give the two solutions time to slowly react, otherwise you may end up with a big mess and will need to make up fresh solutions!
Final colors of the vinegar, baking soda solution and neutralized solution according to the bromothymol blue indicator color scale. Place the conductivity sensor in the neutralized solution so that the Styrofoam piece floats and the straw part with wrapped wire is submerged. When you are equilibrating the artificial pancreas circuit in a neutralized solution, your setup should look like this one.
Try turning it all the way clockwise and all the way counter-clockwise find out which way turns the pump on (which way you need to turn it will depend on which way you put the potentiometer into the breadboard). Stop turning the knob when it reaches the point that makes the pump very slow and almost turn off. When the pump is not running, dry the end of this tube and mark it with a small dot using a permanent marker.
Note that the transistor may become warm while the pump is running, but it should not become dangerously hot.
This can make the circuit get dangerously hot and can even melt some of the plastic components. If needed, tape the alligator clip test leads to the side of the bowl to hold them in place so that the Styrofoam piece is floating evenly.
When you are neutralizing the baking soda solution with vinegar, this is what the setup should look like. It is very important to have all of the vinegar and baking soda mixed well together to neutralize the baking soda solution.
If this happens, the conductivity sensor may still detect a basic solution, even though parts of the solution in the bowl have been completely neutralized (or may even be acidic).


For example, could you improve the stability of your sensor if it was moving around, or build a new sensor with some changes to the design?
For example, if you find that mixing is a problem in your procedure, try different ways to increase the mixing of both solutions, starting by stirring them with a spoon, swirling them or even using the conductivity sensor to stir the solution. You can draw a horizontal line across the graph at the "100 mL" point to show the ideal amount of vinegar left.
In other words, when the solution is very basic (representing high blood glucose levels), the pump turns on and adds an acidic solution (representing insulin) to neutralize the solution (representing normal blood glucose levels). You could try modeling this by making solutions with different amounts of baking soda solution and vinegar mixed together (instead of equal amounts, as you use in this project) and then normalize the artificial pancreas model to the different solutions, one at a time (each one representing a different person). A Science Buddies project idea that uses the titration method is Which Orange Juice Has the Most Vitamin C? For information on how to make this pH indicator solution, check out the Science Buddies project idea Cabbage Chemistry. Name Email WebsiteSubmit Comment Recent Posts One Size May Not Fit All on GI Foods Low GI Foods May Help You Sleep What Exactly Is the Glycemic Index Diet? When the blood glucose level rises, the Pancreas produces Insulin which facilitates the breakdown of glucose bringing the level down.
This ensures a steady flow of sugar into your blood and helps in maintaining a normal blood glucose level.
Stress relief activities can go a long way in ensuring that the body becomes more capable of maintaining normal blood glucose level.
The human body regulates blood glucose levels so that they are neither too high nor too low - maintaining a condition of stability or equilibrium in the blood's internal environment (homeostasis) is necessary for our bodies to function. It normally occurs when there is not enough insulin in the body, or the body is not responding to the insulin properly. It is possible to estimate a person's 10 year risk of retinopathy by measuring their blood glucose levels. Both insulin and glucagon are secreted from the pancreas, and thus are referred to as pancreatic endocrine hormones.
Above 180 is termed "hyperglycemia" (which translates to mean "too much glucose in the blood"). If the tumor is large, it may cause neck or facial pain, shortness of breath, difficulty swallowing, cough unrelated to a cold, hoarseness or voice change. Be very careful with your wiring to prevent short circuits from happening; short circuits can get very hot and cause plastic parts of the circuit to melt.
When blood glucose levels rise after eating a meal, the pancreas releases insulin, which causes cells in the body (such as liver, muscle, and fat cells) to take up glucose, removing it from the blood and storing it (as glycogen) to use for energy later. This leaves many type 1 diabetes patients constantly checking their blood glucose levels, calculating how their actions will change their levels, and adjusting their insulin doses to avoid a critical high or low.
However it is a done, currently a person who takes insulin must closely monitor his or her blood glucose levels to determine when, and how much, insulin to take. The video will give you a basic understanding of the goals of an artificial pancreas and the path to making one, but because this is a rapidly progressing field, you should do your own internet search to see what the current status of the research is. Clearly, blood, insulin, and glucose are not readily available for a science project, but you can use other components to mimic some of the interactions and start designing and fine-tuning a model of an artificial pancreas. When acids and bases (like vinegar and baking soda, respectively) are mixed, a chemical reaction occurs (shown in Equation 1) that produces water (H2O) and bubbles of carbon dioxide gas (CO2). In the circuit you will build for this project, the transistor will be connected to a pump so that when enough current flows through the conductivity sensor, it outputs a high voltage to the transistor, which allows current to flow through the pump and make it run.
The conductivity sensor and the potentiometers together make up what is called a voltage divider, and this is technically what lets the conductivity sensor send the high voltage to the transistor to make the pump turn on. When the solution has a neutral pH, the sensor outputs a low voltage, so the transistor does not let any current flow through the pump. How are the challenges encountered when making this model similar to the challenges that engineers who are trying to make a real artificial pancreas system would face? You can follow a step-by-step slideshow that will show you how to put components in the breadboard one at a time. Since Styrofoam floats, the Styrofoam piece will help keep the wires submerged at the same depth in the liquid for your tests.
The vinegar should turn yellow, the baking soda solution blue and the neutral solution green. In this step, you will normalize your artificial pancreas model so that the pump does not run in a neutralized solution, but still runs in a solution that is slightly more acidic (which will be more conductive). If it is very hot, or if you notice any smoke or a burning smell, this probably means that you have a short circuit. The pump should start running, pumping vinegar (a drop or a few drops at a time) into the bowl with baking soda solution, and you should see bubbles being made as the acid-base reaction takes place. It is very important to make sure that the sensor is submerged in the liquid to the same depth that it was in the neutralized solution or your results may be inaccurate. You will see that at the spot where vinegar drips into the baking soda solution, the color of the indicator will change from blue to yellow. How does the color of the indicator (the pH) now compare to the pH of the neutralized solution you made in step 7?
Note that changing the concentration of the baking soda solution will also change the amount of vinegar that you need to neutralize this solution.
How are the challenges you faced in designing this model similar, and different, to the challenges faced in designing a real, accurate artificial pancreas?
However, you did not test how the model works for other parts of an artificial pancreas, such as continuing to add insulin when the blood glucose levels are consistently high over time.
For some ideas, check out the Science Buddies science project idea Electrolyte Challenge: Orange Juice Vs. When the level goes lower than normal, Glucagon, also secreted by the Pancreas, induces the liver to release stored glucose bringing the level back to normal.
No: People who have a glass of wine every day have less chance of having abnormal blood sugar level. Not only will you be maintaining your blood sugar at a normal level, but you will be on your way to living a healthier life as well.
Over the next few hours, your doctor will test the sugar in your blood again and check your numbers against standard numbers. The picture on the left shows the intimate relationship both insulin and glucagon have to each other. Such devices would help eliminate the procedures that a person living with diabetes has to do, as well as remove the nearly constant health decisions they have to make.
Both table sugar (sucrose) and other types of carbohydrates, such as starch (found in large quantities in pasta and other grain-rich foods), are broken down by our bodies to make glucose. When the blood glucose levels start falling, the pancreas stops releasing insulin, and the stored glucose is used for energy.
Insulin pumps are typically small, about the size of a cell phone, and the system usually includes a continuous glucose sensor that detects the amount of glucose in the person's blood and an electronic interface that is told how much insulin to give to the person.
Because of this conductive difference, an electrical sensor can be made that can detect if a solution is acidic or neutral.
For a detailed explanation of how the circuit works, including a circuit diagram, see the FAQ section. When the solution has a high pH, the sensor outputs a high voltage, which activates the transistor, causing current to flow through the pump, which then pumps liquid. This lets you make coarse, medium, and fine adjustments respectively to the total resistance value.
Immediately disconnect the battery pack from the breadboard, and make sure that everything else is connected correctly by referring to the diagrams above. The color change of the solution gives you an indication of what the pH of the solution in the "Baking Soda" bowl is during neutralization.
Try adding more baking soda solution to the "Baking Soda" bowl after it is neutralized; does it turn the pump back on again? Walking can not only keep your blood sugar levels normal but also increase HDL cholesterol (good cholesterol). Your body wants you to get your blood sugar back up again and the quickest way to do that is to….eat sugar!
Specifically, the devices would help people with diabetes control how much sugar is in their blood.
If blood glucose levels get too low, the pancreas may produce glucagon, a hormone that increases the levels. To see what it is like to use an insulin pump and continuous glucose sensor to manage type 1 diabetes, you can check out the video in the article by D.
For a refresher on these topics, see the Science Buddies page on Acids, Bases, & the pH Scale. Keep in mind that this is not the reaction that occurs when insulin is added to change the blood glucose levels in a person! Specifically, in the artificial pancreas model you build in this project, a conductivity sensor is made from two metal wires (or electrodes) that are a certain distance apart in the solution. You can also read more about basic electricity concepts in the Science Buddies Electricity, Magnetism, & Electromagnetism Tutorial. When you change the total resistance of the potentiometers, this affects how much voltage is sent to the transistor, which controls whether the pump is turned on or not. Play around with adjusting the knobs of all three potentiometers until you are satisfied that the pump does not run in the neutralized solution (but will still run if turned slightly).
It is a daunting goal; the pancreas has a very complex biological role that has to be mimicked by a combination of electronics, chemistry, and biology. This process is how the pancreas and the hormones it produces are in charge of regulating blood glucose levels.
A conductivity sensor will represent the glucose sensor, and control whether a pump in the electrical circuit turns on or not.
You are using these chemicals as substitutes in your model since baking soda and vinegar are easy-to-obtain household materials. The more conductive the solution is, the more electrical current can flow through it from one electrode to the other.
If you want to find out more about how this works (it involves forming a voltage divider with the conductivity sensor), try re-reading the Introduction in the Background tab and check out the FAQ section in the Help tab. Remember to make sure that the exposed metal parts of different components, like the resistors and alligator clips, are not bumping into each other, as this will also create a short circuit. This project will allow you to explore some of the complexities engineers and scientists face as they strive to create an artificial pancreas. Watch this video to see how blood glucose levels can change over time for different people. When the solution is very acidic, the conductivity sensor will make the electrical circuit run a pump. You could measure the amounts of baking soda and vinegar that are added over time and graph your results.
The pump will move a basic solution, which represents insulin, into the acidic solution to neutralize it.
When the acidic solution becomes more neutralized, the conductivity sensor will make the circuit stop powering the pump.
This represents high blood glucose levels being lowered by the addition of insulin, until the glucose levels are normal and no more insulin needs to be added to the bloodstream. Figure 3 helps summarize the important information, and shows how the artificial pancreas model you will make in this project is similar to, and different from, a real artificial pancreas.



Blood sugar 135 fasting
Quintet blood glucose monitoring system manual template


Comments

  1. 11.12.2015 at 14:36:33


    Mental Status in persons with diabetes may new people or pets.

    Author: oskar
  2. 11.12.2015 at 11:33:33


    Briefly applying pressure to the incision medical nutrition therapy follow all the advice of the doctor so that.

    Author: GENERAL333
  3. 11.12.2015 at 17:47:41


    Intensity, a stress test should not be necessary in the absence with time the.

    Author: Sabishka
  4. 11.12.2015 at 13:49:32


    Variables were compared, before and insulin, physical activity can the.

    Author: Q_R_O_M