Recently, energy drinks have been shown to have a short-term effect on heart function. Research was conducted that showed an increase in strain in the heart's left ventricle, where oxygenated blood comes into the heart.
More research needs to be done to see what the long-term effects of drinking energy drinks have on heart health. The study will be ongoing, but currently research suggest that if you have a heart arrhythmia to stop drinking energy drinks. Personally, I have seen this work, as relatives of mine have had heart arrhythmia go away when the stopped drinking caffeinated beverages. It will be interesting to see what long term effects a study like this could have, including the potential for increased risk of heart disease. The original article can be found here.
News in Science
Tuesday, December 3, 2013
Monday, December 2, 2013
Delivery Drones
The online marketplace Amazon has plans in the future to use drones to deliver packages to doorsteps. Although it seems almost science-fiction, Amazon seems to be taking it seriously, even coming out with this video:
Amazon says that this technology would bring new meaning to same-day delivery, as they project that orders could be shipped within 30 minutes. It would also be more eco-friendly, reducing emissions. However this would take time to develop and perfect, as they would not have this available for 4-5 years. It also seems as though it would be extremely expensive to have anything shipped this way, but it is definitely an exciting new use for drones. The original article can be found here. This futuristic technology was also featured on "60 Minutes":
Amazon says that this technology would bring new meaning to same-day delivery, as they project that orders could be shipped within 30 minutes. It would also be more eco-friendly, reducing emissions. However this would take time to develop and perfect, as they would not have this available for 4-5 years. It also seems as though it would be extremely expensive to have anything shipped this way, but it is definitely an exciting new use for drones. The original article can be found here. This futuristic technology was also featured on "60 Minutes":
Sunday, November 24, 2013
Using Nanotechnology to Help Avoid Injections
Researchers from North Carolina have a developed a biodegradable nanotechnology-based device that gives diabetics to the ability to administer insulin without daily injections. First nanoparticles are filled with insulin and then injected into the patient. The insulin then diffuses from the nanoparticles to form an insulin reservoir beneath the skin of the patient. The patient can then use an ultrasound device to excite the insulin and "push" it into the bloodstream.
After the initial injection, administering insulin using ultrasound is painless. However, it is harder to pinpoint exactly how much insulin is being administered. The insulin supply can last up to ten days, after which the biocompatible nanoparticles then dissolve into the body, then a new "nanonetwork" of insulin must be injected. This technology could definitely make treating diabetes less painful in the future. The original article is located here.
After the initial injection, administering insulin using ultrasound is painless. However, it is harder to pinpoint exactly how much insulin is being administered. The insulin supply can last up to ten days, after which the biocompatible nanoparticles then dissolve into the body, then a new "nanonetwork" of insulin must be injected. This technology could definitely make treating diabetes less painful in the future. The original article is located here.
Saturday, November 16, 2013
3D Printer in Space
NASA is looking to put the first ever 3D printer in space on the International Space Station (ISS) in August of 2014. There are many exciting applications for how they will put this printer to use:
Currently whenever the ISS needs a tool or part replaced or made, it must be sent up from earth, costing a lot of money in fuel. However with this new technology, astronauts will be able to manufacture parts right on board the ISS. This will save time and money while further advancing space exploration. There is still work and testing to be done with different materials and metals, as well as microgravity applications, but the future looks promising. An article detailing more of how NASA will use this 3D printer can be found here.
Currently whenever the ISS needs a tool or part replaced or made, it must be sent up from earth, costing a lot of money in fuel. However with this new technology, astronauts will be able to manufacture parts right on board the ISS. This will save time and money while further advancing space exploration. There is still work and testing to be done with different materials and metals, as well as microgravity applications, but the future looks promising. An article detailing more of how NASA will use this 3D printer can be found here.
Tuesday, November 12, 2013
Converting Microwaves into Energy
A wireless device developed by researchers at Duke university is able to convert microwaves into electricity using metamaterials, which behave differently than normal matter. The device works similarly to a solar cell, except it harvests different frequencies than a typical solar panel.
The potential for a device such as this is enormous, as it could use stray signals from satellites and appliances, maybe even use wi-fi for conversion to electricity. It could also convert sound and vibrational energy due their frequencies. One impact of the device is allowing for longer battery life, as mobile devices could charge wirelessly while not in use. This is all possible because of the new-found ability to work with metamaterials. If this device could be made marketable it would help use a lot of wasted energy and make lives easier. The original article is located here.
The potential for a device such as this is enormous, as it could use stray signals from satellites and appliances, maybe even use wi-fi for conversion to electricity. It could also convert sound and vibrational energy due their frequencies. One impact of the device is allowing for longer battery life, as mobile devices could charge wirelessly while not in use. This is all possible because of the new-found ability to work with metamaterials. If this device could be made marketable it would help use a lot of wasted energy and make lives easier. The original article is located here.
Saturday, November 2, 2013
How Type 1 Diabetes Works
Chances are, if you live in the United States, you know
someone who has type 1 diabetes. When people hear the term diabetes, they often
think of a disease that is caused by a poor lifestyle. However, there are two
types of this disease. Type 1 Diabetes is a chronic condition that develops in
children and young adults. Type 2 diabetes, however, usually affects obese adults,
and is much more prevalent than type 1. Diabetes results in high blood glucose levels
which in turn affect the whole body to give a variety of symptoms. However,
those with type 1 diabetes are still able to live a normal life through active
monitoring of the disease. Before the advent of insulin discovery in 1921, those
diagnosed with type 1 diabetes would have a life expectancy of one year,
usually dying in painful process. Thankfully insulin is currently available to
help treat diagnosed type 1 diabetes, though the exact source of this disease
is unknown. In this paper, the causes, implications, and treatment will be
addressed to inform how type 1 diabetes works. First, one must understand how a
normal person functions and what makes a person with type 1 diabetes different.
Pumps:
Modern insulin pumps can function much like a pancreas located outside the
body. A three-day supply of insulin is placed in a reservoir within the pump,
and the pump is connected to the body through an injection site (see fig. 2).
The pump provides the basal dosage by continuously providing a small amount of
insulin for the body (the basal dosage). For bolusing, a user can simply plug
in the amount of carbohydrates he or she intends to consume, and the pump will
use a predetermined bolus rate to administer the correct amount of insulin.
What
Happens
Glucose is the simple
sugar that humans utilize for energy that supports muscles and tissues. When
glucose is consumed in the form of carbohydrates or produced in the liver, it
enters the bloodstream (Freudenrich 2).
In order to process the glucose in the bloodstream, a functioning pancreas
produces insulin (note fig 1.). The insulin essentially makes the glucose
available to cells, thus lowering the amount of amount of glucose in the
bloodstream, and supplying energy to cells. Insulin is the “key” which unlocks
the cell’s “door” to receive energy. Without insulin the cell does not get any
energy and starves. The problem with a type 1 diabetic, however, is that their
pancreas no longer produces insulin. Type 1 Diabetes is an autoimmune disease,
meaning that the body’s immune system thinks that the islets, which contain the
insulin-producing beta cells, are pathogenic and destroys them. This is like
friendly fire in a war, where the body thinks your pancreas is the enemy and devastates
your insulin producing cells. Exactly why this happens is unknown, but a
genetic link has been shown (JDRF). On rare occasion environmental factors,
such as ingesting a poison such as the rodenticide Vacor, kill the beta cells, yielding the same inability to produce insulin
(Karam 971).
Fig. 1. This graphic shows the components of the pancreas and the location of the beta-cells that produce insulin(MacDonald). |
In
a normal person, the pancreas will secrete insulin to monitor the blood glucose
levels, as insulin is needed throughout the day and in higher amounts when glucose
(carbohydrates) is consumed. In a diabetic person, insulin is no longer
available to monitor the blood-glucose levels, resulting in hyperglycemia—high
blood glucose levels. Hyperglycemia causes the major symptoms of untreated diabetes,
which include:
- · Frequent Urination
- · Thirst
- · Dehydration
- · Weight Loss
- · Irritability
As previously
mentioned, diabetes is generally associated with overweight inactive people, a
common characteristic in type 2 diabetes. In contrast, type 1 is characterized
by weight loss and decrease in energy. As
insulin is no longer produced, energy cannot be absorbed and fat and muscles
are depleted by the starving cells. Thus treatment of diabetes is crucial to
return the body to proper function.
Treatment
Insulin therapy begins
as soon as type 1 diabetes is diagnosed and continues for the rest of the
patient’s life. Insulin is manufactured by several companies through
biosynthesis, and plays the same role that insulin from the pancreas does. Simply
put, injecting insulin works similarly to and acid-base titration in chemistry.
If used in the right amount, insulin “neutralizes” the carbohydrates and high
blood glucose levels. Conversely, if excess insulin is administered, the blood
glucose levels will plummet to an undesirable low. Normally, insulin is
administered through injection. There are two major ways insulin is injected:
shots and pumps.
Shots:
With shots there are two types of insulin that are used. One is fast-acting
insulin which is taken before eating to account for carbohydrates that will be
consumed. Taking insulin for consumed carbohydrates is known as “bolusing”. The
other shot is a background insulin, known as a basal dosage, and is taken once
a day to help control blood glucose levels when a person is not eating.
Fig.2. This graphic illustrates how insulin is administered using an insulin pump(DiabetxCare) |
Another
important part of successfully treating type 1 diabetes is monitoring
blood-glucose levels. To check blood-glucose levels, one must prick their
finger to draw a drop of blood, and place the blood on a test strip which is
connected to a meter. The meter then displays the blood glucose level. A
diabetic is continuously involved in a balancing act between hyperglycemia and hypoglycemia (low blood glucose levels). If too
much insulin is administered, the blood glucose levels will decline. If levels
fall too low, it can result in coma and even death. On the other hand, if the
amount of insulin is administered for the food taken is inadequate,
hypoglycemia will result, which is also negative for your health, potentially producing
many of the symptoms that an undiagnosed diabetic experiences.
Conclusion
Currently there is no
cure for diabetes. Although much research has been done for transplantation in diabetics,
the body will usually reject the new pancreas or transplanted cells. Even if a
new pancreas could be built or transplanted into a type 1 diabetic, there is no
reason to suggest that the diabetic’s immune system would not attack the beta
cells all over again. Research should be continually pursued in order to find a
cure, as a cure would prolong and benefit many type 1 diabetics’ lives. If you
know someone with diabetes, understand that they can still live a normal life,
and give them support, as managing diabetes is no small task. Knowing how this
chronic disease works is fundamental to understanding what type 1 diabetics
need to live, and how to support them in their constant fight against diabetes.
Tuesday, October 22, 2013
Flaring Natural Gas in North Dakota
Due to the ever-increasing oil production in North Dakota, oil companies are choosing to burn off the natural gas. This is known as flaring.
Picture of natural gas being flared in North Dakota
The companies do this in order to access the more valuable oil, without having to transport the natural gas. There are so many fires that combine to produce lights that make North Dakota look like it has a cluster of cities in the western part of the state, as shown in the picture below:
This however is a terrible waste of gas and money, but currently there are no pipelines in this area of North Dakota. Oil can be transported by train, but pipelines or specially designed tanks are necessary for transportation of natural gas. Oil Companies are being sued by mineral owners for the lost income due to the burnt gas. Thus a solution needs to be reached where the natural gas can be transported, or refined nearby, to save money and use the valuable resources coming from the ground.
An article from NYT addressing this issue is found below:
http://www.nytimes.com/2013/10/18/business/energy-environment/oil-companies-are-sued-over-natural-gas-flaring-in-north-dakota.html?src=recg
Another article I found from geology.com addresses this issue as well:
http://geology.com/stories/13/natural-gas-flaring-in-north-dakota/
Picture of natural gas being flared in North Dakota
The companies do this in order to access the more valuable oil, without having to transport the natural gas. There are so many fires that combine to produce lights that make North Dakota look like it has a cluster of cities in the western part of the state, as shown in the picture below:
This however is a terrible waste of gas and money, but currently there are no pipelines in this area of North Dakota. Oil can be transported by train, but pipelines or specially designed tanks are necessary for transportation of natural gas. Oil Companies are being sued by mineral owners for the lost income due to the burnt gas. Thus a solution needs to be reached where the natural gas can be transported, or refined nearby, to save money and use the valuable resources coming from the ground.
An article from NYT addressing this issue is found below:
http://www.nytimes.com/2013/10/18/business/energy-environment/oil-companies-are-sued-over-natural-gas-flaring-in-north-dakota.html?src=recg
Another article I found from geology.com addresses this issue as well:
http://geology.com/stories/13/natural-gas-flaring-in-north-dakota/
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