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How does caffeine affect the heart rate
What is the scientist take on caffeine affect heart rate
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Investigating the effect of caffeine concentration on the heart rate of Daphnia
Introduction
Daphnia, commonly known as water fleas, are tiny crustaceans which live in water. The diameter of adult female bodies is approximately 3-5 mm. The upper skeleton is transparent, making the internal organs visible. This allows the heart rate of the Daphnia to be calculated by observing them under a microscope.
Background
Caffeine occurs naturally in some plants such as coffee beans and tea leaves. Caffeine is also added to other beverages.
Beverage containing caffeine (100ml) Amount of caffeine (mg) Caffeine per 1ml of beverage
Coffee 55 0.55mg
Tea 35 0.35mg
Coca Cola 15 0.15mg
Caffeine is medically known as trimethylzanthine. Caffeine acts as a cardiac stimulant which means that it increases heart rate.
Adenosine is a natural chemical found in the body which binds to respective adenosine receptors in the sinoatrial node and slows down the activity of the nerve cells. Caffeine also binds to these receptors which results in the activity of these nerve cells to increase.
Caffeine consumption also causes the adrenaline hormone to be released into the body, further increasing the speed of bodily functions. Caffeine also constricts blood vessels which is why some headache medicine and painkillers contain sources of caffeine. 2 cups of strong coffee has been shown to increase heart rate in humans by about 15 beats per minute.
Hypothesis
As the caffeine concentration increases, so does the heart rate of the daphnia.
Prediction
The prediction for this experiment is that the higher the concentration of the caffeine, the higher the heart rate in beats per minute. This is because caffeine acts as a stimulant, causing the adrenaline hormone b...
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...d by the lamp being on cannot be easily controlled and could be a factor for the increasing heart rate. The heart rate may also increase as a result of the efforts of the Daphnia in escaping from the cavity slide due to limited water supply.
Conclusion
The results of the experiment indicate that the initial hypothesis was acceptable as the higher the caffeine concentration, the higher the heart rate of the Daphnia. The results do not show this link in all cases; this could be down to temperature rise because of the heat produced by the microscope lamp, leading to the heart rate of the Daphnia increasing. This could explain the results for the 0.2% caffeine concentration.
To improve the accuracy of the results, the same person should conduct all of the experiments as different people may count the heart rate at different speeds, leading to variation in the results.
I predicted that the blackworms in higher caffeinated solutions would have higher pulse rates, because caffeine is known to increase blood pressure and heart rate. However as far as scientists know, invertebrates are not expected to have a strong response to caffeine like vertebrates do. Also, caffeine in low doses is known to lower pulse rate. The results do not support my hypothesis. The results show that when black worms are placed in caffeinated solutions, their pulse rates on average are lower than those placed in a solution with no caffeine. A possible flaw that may have occurred during experimentation is that the petri dishes were not properly cleansed, or that there were other properties in the water that influenced the outcome. To eliminate these flaws, I could have boiled the petri dishes and water to insure that there were no other properties to influence the data. Further experimentation should be performed with higher doses of caffeine to further insure that caffeine does in fact lower their pulse rate. The insufficient number of trials performed lead to less confidence in my conclusion that caffeine lowers the heart rate in
Planaria usually live in water, water doesn’t have any effect on them which the reason why it is used as a control group in this experiment. Planarian will be put near the edge in a two-chamber tray containing water, in the side that is not covered with a dark piece of paper. Five planaria will be tested in a 2- chamber tray. We will measure how long it takes the planaria to move from the edge of a chamber receiving light, to the dark chamber. Subsequently, start by adding the lower concentration of caffeine in the water, replacing planarian in the same position and measuring how long it takes now to go back to the dark chamber in the presence of caffeine. We will duplicate the same procedure with higher concentrations of caffeine and additionally take the average of the time all five planaria took to move from the edge of the chamber in brightness, to the dark chamber in different concentrations of
The Daphnia magna species in this experiment were kept and preserved in jars of suitable water that acted as small ponds. Each Daphnia Magna was transported individually using a wide-mouthed pipette to a depression slide. The stability of the Daphnia Magna on the slide was attained by using a drop of pond water that acted as a boundary of movement for the Daphnia on the depression slide, small pieces of cotton wool were also used to act as an extra boundary to stop the Daphnia Magna from swimming in circles in the pond drop it was placed in; the stability factor was important in counting the heart beat rate more accurately. The depression slide was then placed under the stereomicroscope, over a cooling chamber that was used to slow down the
Also, we learned that depressants decrease the heart rate because they influence the parasympathetic nervous system which responsible for the rest and digest and depress the sympathetic nervous system (Silverthorn, 2010). The main stimulator in Red Bull is caffeine, it functions by blocking the effects of the adenosine, a brain chemical involved in sleep. When caffeine blocks adenosine, it causes firing of neurons that stimulate the sympathetic system, that triggers "fight or flight" response by releasing adrenaline. Adrenaline is a hormone that increases the heart rate and dilate the eye; another effect of Caffeine is changing the levels of dopamine, responsible for pleasure in the brain (Kollmorgen, 2011). We will be comparing the components individually to the baseline, we will also be testing the components in combination compared to their results individually and baseline. Our baseline will be aged tap
Fortunately, when making its descent of hundreds of metres, the Plesiosauroid would have been able to exploit traits possessed by many of the reptile class. Many reptiles hold the ability to temporarily slow their heart rate to reduce their oxygen consumption, via bradycardia. This effect may be caused by low temperatures, such as is found deeper in the ocean, or may be voluntarily triggered by the animal.
The use of model organisms in pre clinical trial is relied upon for the collection of safety and efficacy data prior to first in human clinical studies. The crustacean Daphnia magna is one model organism, whose heart rate is reported to react similarly to the human heart rate, when exposed to identical compounds (3).
The study of cardio physiology was broken up into five distinct parts all centering on the cardiovascular system. The first lab was utilization of the electrocardiogram (ECG). This studied the electrical activities of the heart by placing electrodes on different parts of the skin. This results in a graph on calibrated paper of these activities. These graphs are useful in the diagnosis of heart disease and heart abnormalities. Alongside natural heart abnormalities are those induced by chemical substances. The electrocardiogram is useful in showing how these chemicals adjust the electrical impulses that it induces.
Caffeine is a mild stimulant that occurs naturally in at least 63 plant species. Caffeine can be found in the leaves, stems, seeds, and roots of these various plants. Caffeine is part of the methylxanthine family. It consists of a xanthine molecule with three methyl groups attached to it. Caffeine can be found in many products like sodas, tea, and coffee, but it also occurs in several other products such as prescription medications, diuretics, and pain relievers. Caffeine’s widespread use and popularity have caused many people to view the substance as an addictive drug. Thus making caffeine the most inexpensive and readily available drug known to man. Then on the other hand there are people who view caffeine as a helpful stimulant that increases the individual’s concentration and awareness as well as many other physical traits. The important thing to remember is that caffeine’s affects vary based on the person, the amount ingested, the frequency of consumption, and individual metabolism. (http://www.pp.okstate.edu/ehs/kopykit/caffeine.html)
A lot of people often wonder what caffeine is. When isolated in pure form, caffeine is a white crystalline powder that tastes very bitter. The chief source of pure caffeine is the process of decaffeinating coffee or tea. Caffeine is used to provide“boost energy” or a feeling of heightened alertness. It is often used to stay awake longer and late into the night. Many people feel as though they “cannot function” in the morning without a cup of coffee to provide caffeine and the boost it gives them. Caffeine is an addictive drug. It operates using the same mechanisms that amphetamines, cocaine, and heroin use to stimulate the brain. Caffeine effects are more mild than amphetamines, cocaine, and heroin, but it is manipulating the same channels, and that is one of the things that gives caffeine its addictive qualities. If you feel like you have to have caffeine everyday and cannot live without it, then you are considered addicted to caffeine.
Caffeine is a stimulant that has not been given the attention that some says it deserves. Caffeine is found in many everyday substances. It can be found in coffee, tea or sodas. Caffeine can be found on almost every street corner. There is a coffee place in just about every town. Sodas and coffee are found...
AIM: - the aim of this experiment is to find out what the effects of exercise are on the heart rate. And to record these results in various formats. VARIABLES: - * Type of exercise * Duration of exercise * Intensity of exercise * Stage of respiration
Caffeine acts much like stress, increasing heart rate, blood pressure and levels of stress hormones, Caffeine consumption can double your blood levels of the stress hormones cortisol and epinephrine causing
The reason why heart rate increased more when the sweet tea was used was because it contained a lot of caffeine and caffeine acts as a stimulant by exerting an effect on the body's central nervous
Coffee is the first thing that people associate with instant energy on a groggy morning. “In the U.S., coffee is king of beverages” (Reinke) Research has been done that has named coffee as an addiction to the people who consume large quantities of it. Coffee was named the top source of antioxidants. This is partly because of the amount consumed each day. Some of the antioxidants that coffee has are quinines and chlorogenic acid. It also contains trigonelline, an antibacterial compound. This is where coffee acquires its delicious aroma. Now let’s step back for a minute and just think about how much caffeine people consume. In an 8oz cup of coffee it has about 85 milligrams of caffeine. This is about double the amount that tea contains. Studies have shown that caffeine stimulates the brain and nervous system. This is where you get that energized feeling. After about the third cup, knees start to bounce, pens are clicking and people start running laps around the office. Caffeine can become addicting if you drink too much. Coffee can become that addictive habit people are unable to shake.
Preview: The potential effects are related to the main ingredient in coffee – caffeine. Caffeine is a drug that stimulates the central nervous system that increases alertness and energy, but it is also very addictive.