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Understanding Absence Epilepsy

Posted on April 4, 2016 by | Leave a comment

Did you know that epilepsy is the fourth
most common neurological problem of our society?

Epileptic seizures are the result of abnormal activity in the brain. Source: Youtube

Epileptic seizures are the result of abnormal activity in the brain. Absence epilepsy is one form of epileptic seizures, characterized by a momentary loss of awareness, usually lasting less than ten seconds. What differs an epileptic seizure from a non-epileptic seizure is that it is recurrent and non-epileptic seizures may be induced by psychological issues or stress-related factors.

Absence epilepsy is often associaed with children who have trouble in school, social problems, or who misbehave often. Source: Flickr

Absence epilepsy is often associated with children who have trouble in school, social problems, or who misbehave often. Source: Flickr

This condition is more common among children than in adults. As a result, absence seizures are often mistaken as daydreaming or periods of blanking out. Symptoms of absence seizures include fluttering eyelids, smacking of the lips, or rubbing fingers together. Absence epilepsy is often associated with children who have trouble in school, social problems, or who misbehave often. Most children will outgrow their seizures by age 18, however in some cases they can continue throughout the rest of their lives.

To understand a bit more about absence epilepsy, the podcast below depicts a scenario of a child experiencing absence seizures and how current research will fuel further medical studies to help with this disorder.
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There are current studies being conducted on the causes of this condition at the University of British Columbia, and we interviewed Dr. Stuart Cain at the Djavad Mowafaghian Centre for Brain Health about his research on absence epilepsy.

The main focus of Dr. Cain’s research is on calcium channels in the brain, and the role they play in absence epilepsy. It is found that the overactivity of certain calcium channels located specifically in the cells of the brain leads to a phenomenon known as “burst-firing”, and this is thought to be what triggers absence seizures.

The causes of absence epilepsy are still unknown, although there are many theories as to what causes an absence seizure. Dr. Cain believes that when overactive brain cells in one specific region communicates with two other regions of the brain and causes them to be stuck in a synchronous loop; this is what causes absence epilepsy.

The video below explains further on how absence seizures occur, and what the main findings of Dr. Cain’s research were:
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There are currently two types of drugs available to treat absence epilepsy, and although they work for most people in stopping absence seizures from occurring, they have not been shown to be 100% effective.

Dr. Cain and his team of researchers’ study serve as foundation for further development of anti-seizure medications to control absence seizures. He believes that in order to find a drug that will be completely effective in controlling absence seizures, the drug will need to target the calcium channels in the brain which cause burst-firing. Dr. Cain suggests that the next move is to push pharmaceutical industries to create a drug capable of doing just that. If this proves to be successful, perhaps then children will not have to worry about absence epilepsy affecting their lives.

Posted on April 4, 2016
By Emma Peachey, Jenny Ung, Karanvir Gill, Harsh Bhatt

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Posted in Biological Sciences, Outreach Project, Uncategorized

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Is Anybody Out There..?

Posted on March 14, 2016 by | 3 comments

While it is easy to get caught up in our day-to-day activities, it’s always nice to step back and get some perspective about our place in the Universe. One question that may come up, is whether we are alone in the Universe, or if there is intelligent extraterrestrial life out there somewhere. However, despite what some people may believe, there has been no confirmed evidence of intelligent life existing outside of Earth. However, considering the vast size of the observable universe, this is actually quite surprising from a statistical viewpoint. The Milky Way alone, on the low end, is estimated to have over 100 billion stars like our sun. Furthermore, the Milky Way is just one galaxy, and there are known to be over 100 billion galaxies in the Universe. This means that there are approximately 1 billion trillion stars in the Universe, or 10,000 times as many stars in the Universe as there are grains of sand on Earth. Each one of these stars has its own planets, and data from the Kepler spacecraft has shown that on average, each star would have at least one planet in its habitable zone.

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The Milky Way above the Paranal Observatory. Source: Wikipedia Commons.

The point is, given this astoundingly large amount of stars and their associated planets in the Universe, even if the chances of intelligent life evolving were incredibly low, given the age of the Universe, we would expect there to be billions of examples of intelligent life. However, if intelligent life is so common, we should have seen at least some piece of evidence of its existence by now. Yet, astronomers, and efforts such as the search for extraterrestrial intelligence (SETI) have yet to detect any evidence of intelligent life.

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The Hubble Ultra-Deep Field. Each shape is a distinct galaxy. Source: Wikipedia Commons.

This apparent disconnect between the high probability of intelligent life, and the utter lack of evidence for its existence is known as Fermi’s Paradox. There are a number of different proposed solutions to Fermi’s Paradox that argue for, or against, the existence of intelligent life. One of the most widely accepted explanations would be the existence of some sort of Great Filter, that makes the emergence of advanced civilizations exceedingly rare. While this filter may already be behind humanity, we may also have yet to face it. Human triggered activities such as climate change or the possibility of nuclear war, show that humanity may not survive to be a species that ever leaves our Solar System. While this may seem pessimistic, humanity should realize that the Universe does not seem to be friendly to long lasting, advanced civilizations.

The fact is that at this point we only have one example of intelligent life arising, which would be ourselves. Therefore, given this sample size of one, we cannot know how common intelligent life is in the Universe is, unless we find another example of it. Whether the solution is something like the Zoo hypothesis, the Rare Earth hypothesis, or the fact that we just have not been looking for long enough, humanity should try to take better care of our own planet for now.

The YouTube video below is a great summary of Fermi’s Paradox.

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Credit: Kurzgesagt on Youtube.

By: Gulaab Sara

 

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Posted in Issues in Science, Science in the News, Uncategorized

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Energy Drinks And Health Effects

Posted on March 14, 2016 by | 3 comments

The consumption of energy drink is common in all age groups and is significantly increasing. Energy drinks are almost available in all countries in different brands. It is assumed by most people that drinking it, is safe and guarantees its purpose which is giving energy but the health effects are mostly forgotten.  The health effects can range from mild to severe or even dead. Even with all the health issues, the energy drink market will increase to about $21 billion in annual sales by the end of 2017.

The health effects of energy drinks are cardiac arrest, headaches, type 2 diabetes, vomiting, high blood pressure, increased anxiety, insomnia, risk behaviour and nervousness. It has been reported in the United States that due to energy drinks there have been 18 deaths, 150 serious injuries and the number of hospital beds doubled, from 2004 to 2012. The health issues of energy drinks are clear but still the consumption of it, keeps increasing and reasons might be that people either ignore the facts or they need to be educated. In the United States, the consumption of energy drinks have always been on a rise and it is expected that from 2014 to 2019 it will increase up to 52%, which is an enormous amount.  

Energy drink volumes

Image source: Market Realist

Internationally, energy drink market has raised by 15% and will continue to increase. Surprisingly, the largest consumer is Latin America and interesting North America is the second lowest.

Energy Drinks Shows Impressive Stamina

The customers of energy drinks are almost everyone ranging from teenagers, adults and maybe even kids. Also, it is consumed by male and female. It is found that 66% of energy drink consumption are by people ages 13 to 35. But it is considered that males consume it more than females. In a study by Nowak and Jasionowski, they had 1481 female and 1148 male participants from which they concluded that males usage of energy drinks are higher than females. It was found that 60.8% females and 74.5% males, consumed energy drinks. An interesting fact found in the study was that about 21% of teenagers took energy drink for no specific reason whereas it is mostly taken for the reasons of tiredness, physical activity or caffeine consumption. 

One sad story related to energy drinks was in the case Lanna Hemann, a 16-year old who died from consuming the drink while being on vacation without her parents. To make the long story short, she consumed an energy drink from which she went into cardiac arrest and passed away.

In conclusion, the consumption of energy drinks is related to many health issues which may result in even death. With the increase in energy drink market, it possesses a risk to everyone but especially young people because they might not be aware of the health effects. Therefore, avoiding energy drinks completely is the best way to live a healthier life.

 

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source: National Science Teachers Association

March 14th, 2016

Hamed Hussaini

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The Resurrection of the Antibiotic?

Posted on March 13, 2016 by | 2 comments

Antibiotics?

Antibiotics are bacteria-killing drugs that either inhibit the growth of bacterial cell walls (the protective wall surrounding the bacteria) or stop bacteria from replicating by manipulating bacterial DNA. Evidence of the use of antibiotics such as tetracycline

tetracycline, Source: wikimedia commons

tetracycline, Source: Wikimedia Commons

have been found in fossils dating back to 350 Common Era and has since evolved alongside human technology to become more effective and accessible to the everyday consumer. Common uses of antibiotics include disinfecting wounds, mediating safe child birth and curing food poisoning. Using antibiotics, countless lives have been saved in human history especially in major historical events such as World War II. The following link demonstrates the effects of the drug Penicillin on the outcome of World War II which was discovered by Alexander Fleming in 1928 (http://classroom.synonym.com/did-invention-penicillin-affect-world-war-ii-8709.html).

Bacteria vs. Antibiotic?

But, antibiotics are double-edged swords. Bacteria has been slowly adapting to various antibiotics and evolved so that some antibiotics are no longer effective. This is due to mainly two reasons:

  1. People have been misusing and overusing antibiotics for the last couple of decades which allowed bacteria to have an easier time adapting and building resistance to the antibiotics.
  2. Bacteria is a very flexible life from in the aspect that it adapts quickly and have quick mutation cycles.

Dangerous cases have resulted where Super Bugs which are bacteria resistant to antibiotics have started to grow in hospitals infecting patients receiving various treatments. These cases have often resulted in mortality in these patients. The following illustration demonstrates the quick adaptability of a bacteria cell to an antibiotic.

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Bacteria/ Antibiotics, Source: Wikimedia Commons

The Battle is Won?

The information presented above must be shocking to some but rest assured because scientists believe that they have found an antibiotic that does not induce bacterial resistance. Teixobactin

Teixobactin, Source: Wikimedia Commons

Teixobactin, Source: Wikimedia Commons

discovered  earlier last year appears to successfully combat the development of bacterial resistance. The key in why this antibiotic is so effective in prohibiting bacterial resistance is the fact that it is able to inhibit bacterial growth in two methods as opposed to the normal one method attack of alternative antibiotics. Teixobactin prohibits the formation of both lipid II and lipid III in a bacteria which are detrimental in the formation of bacteria cells walls. Even if the bacteria is able to adapt by restoring the ability to produce of one of these lipids, the other lipid would still be inhibited.

The following is a YouTube video provided by Newsy Science which outlines the basics of what this new antibiotic can do and the mechanism behind it.

Hopefully, this new antibiotic marks the oncoming of a new age of drug use where antibiotic will no longer induce bacterial resistance.

By: Ming Lun (Allan) Zhu

 

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Posted in Biological Sciences, Issues in Science, Science in the News, Uncategorized

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The Epigenetic Relationship Between Income and Aging

Posted on March 7, 2016 by | Leave a comment

You are probably familiar with the old nature versus nurture debate if you have ever taken a course in psychology or philosophy. It inquires whether our development is induced by our DNA, individual choices we make or by our environment and circumstance. Twins are often used to demonstrate the effects environmental factors have on phenotype.

In the early 1990’s a scientist by the name of Conrad Waddington found that environmental stress was causing certain phenotypes of the Drosophila fruit fly to assimilate. In other words, these phenotypes that were first induced by the environment were becoming permanent and hereditary! Waddington named this area of research Epigenetics; a now growing field of research that looks at how environmental factors can change our phenotype.

Dr. Courtney Griffin, a member of the Cardiovascular Biology Research Program at Oklahoma Medical Research Foundation discusses the importance of Epigenetics in this TedX video.

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Many studies in recent years have attempted to reveal a connection between low income and risk for diseases such as heart disease and cancer. What all of these studies have looked at is telomere degradation. As cells divide, the length of these chromosome-caps contracts implying aging. As an indicator of aging, telomere degradation remains unreliable and results from these studies have proven inconsistent.

A new study by Ronald Simons et al. has demonstrated a correlation between accelerated aging and income by a new method. The researchers were able to identify certain epigenetic markers that can be linked to aging by way of DNA methylation. This process involves adding methyl groups to DNA. As the methylation level of a gene increases, the expression of the gene decreases (Read more about DNA methylation here).

A sample of 100 middle-aged, American black women were chosen for the study as the population of black men in America had high incarceration rates (forcing the financial burden on the mother of a family) and low family incomes. The study controlled for other influences of socio-economic status (SES)  such as education, and used a new method of structural equation modeling to find that low income was associated with biological aging.

Income inequality is one of the largest problems the United States faces today as 99% of new income is being distributed to merely one percent of the population. This study implies that this problem may be even worse than previously understood. If these biological effects are in fact hereditary, the vast population of low-income wage earners in America can expect their children and grand children to live shorter lives.

-Johnny Lazazzera

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Organisms Inside Us

Posted on February 29, 2016 by | 2 comments

Have you ever wondered how many micro organisms are living inside us? Micro organisms are living organisms that cannot be seen with our naked eyes. They may be multicellular (made out of more than one cell) or unicellular (made out of one cell). Our human body is packed with trillions of microbes (or micro organisms). In fact, our own body cells are out numbered with a ratio of 1:10. So, we are technically 90% germs and 10% human. Microbes are found in all parts of our body in different proportions. Our lung has approximately 1000x less microbes than our mouth and has approximately 1 billion times less microbes than our intestines. Although most microbes are harmless to us, some may cause bacterial infections in humans.

The Human Body = 90% Germs + 10% Human

Top three functions microbes in our body:

  1. Defense mechanism: Microbes in our lungs, intestines and our skin provide the first line of defense against harmful bacteria that enters our body. Good microbes found in these areas play an essential role in preventing the spread of harmful microbes by occupying space so less space are available for harmful microbes to settle down inside us. Thus, preventing us from bacterial infections that may cause fever, diarrhea or other problems. Other than that, researchers have found evidence that microbes that live inside us help promote our immune system cells to grow and replicate.
  2. Keeping us in shape: The trillions of microbe colonies in our intestines help digest fats and carbohydrates, facilitating the absorption of nutrients in cells. Our intestinal microbes also ferment food that we consume. The fermentation process produces chemicals that speeds up our metabolic processes. As a result, the microbes in our gut helps us keep in shape by increasing our metabolism.
  3. Detoxifies us: Microbes living in us are also capable of digesting toxins that we accidently ingest into less harmful substances. Therefore, preventing us from being poisoned. For example, the microbe Lacrobacillus probiotics found in food help the human body detoxify heavy toxic metals such as aluminum.

Good microbes that keep us healthy

Where do we get microbes that live in our body? Most of our microbes that inhabit our intestines comes from the food we ingest. Our skin and lung microbes come from the air we are exposed to. Recently, researchers discovered that newborn infants get their microbes from their mother’s breast milk and vagina. Researchers found that the method of delivery may have an effect on the diversity of intestinal microbes in newborns. They discovered that infants born vaginally and infants born by caesarean section have different intestinal microbe composition. This indicates that we start to develop our microbe colonies from the day we were born.

Microbes inside our body

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Wind and Sun are key to end Africa’s Energy Poverty

Posted on February 28, 2016 by | 2 comments

Energy poverty and the problems with accessibility that many developing countries have is a problem of the 21st century, whether it be affordability by the average person, to excessive time spent collecting fuels to meet basic needs, to the cleanest types of energy available.

 

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This article highlights the major issue of energy poverty in Africa and the possibilities that wind and solar power have to help alleviate the problem. It is scientifically relevant as these types of technologies are being developed and progressing, and we already see more investment in renewable energy sources in developing countries than developed countries.

Wind and solar power have already become the cheapest option for new power generation projects in South Africa. Finance and costs play a major role in decisions to build new projects. Therefore, there is great potential in the developments being made. Wind and solar projects carry lower risks than hydro and coal. Countries such as Germany have successfully integrated these renewable energy challenges, offering a promise to the doubts that Africa’s electrical grids cannot handle energy sources such as wind and solar.

The following video describes the most energy efficient countries, and the ones that are doing the best have policies weaning them off the use of fossil fuels.

 

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After reading these articles, I think wind and solar power will be the key to alleviating the energy poverty of Africa in the future. As they become cheaper options and the technology improves, more financial incentives and investments will be made. For such a large continent, there is tremendous potential by combining renewable energy with a energy poverty ending agenda.

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Combination Treatment of Agressive Brain Cancer

Posted on February 28, 2016 by | 1 comment

Can cancer get any worse when someone tells you the treatment you are given might be recurrent?

Radiotherapy is a type of therapy that is used to treat cancer patients by using high energy radiation to control and kill cancer cells. The high energy radiation used in radiotherapy permanently damages the DNA of cancer cells while the surrounding cells suffer temporary DNA damage in which they eventually repair themselves. The following video shows how a radiotherapy is performed on brain tumor patients. YouTube Preview Image

It isn’t surprising to know that cancer cells are able to repair themselves after a full treatment of radiotherapy on brain tumors. After all, cancer cells can live on! Studies have shown the high percentage of relapse after having brain tumor radiotherapy treatment. 8 out of the 12 patients that had radiation therapy had recurrent glioblastoma while the rest of the patients had recurrent anaplastic astrocytoma, another form of agressive brain cancer.

But thanks to combination therapy, a type of therapy involving both radiotherapy and a drug. This drug or targeting agent, known as Panobinostat makes initial and repeated radiation much more effective, and is currently being tested in a variety of other cancers. It is a histone deacetylase inhibitor that modifies gene expression of about eight percent of RNA molecules produced from genes. This allows changes in protein production, which can unsettle the growth of cancer. The highest dose was tested in patients and was well-tolerated along with improvement in survival.

Combination therapy for brain tumor sounds pretty promising. The next step is to validate it in more and future studies.

Posted on Februrary 28, 2016 by Lorraine Yu

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