Tag Archives: treatment

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.
YouTube Preview Image

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:
YouTube Preview Image

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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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.

512px-Artificial_Bacterial_Transformation.svg

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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Nanotechnology: The Cure for Cancer?

Posted on February 20, 2016 by | 2 comments

What is Cancer (disease)?

Cancer is a very well known disease plaguing human society for the last century. It is characterized by abnormally rapid cell division often accompanied by tumor growth; the type of tumor mainly being malignant to be more precise. It is

Cigarette, Source: Wikimedia Commons

Cigarette, Source: Wikimedia Commons

known to sprout from sources known as carcinogen (such as ultraviolet radiation and smoking cigarettes) as well as genetic dispositions.

 

Current Treatment

Current treatments are quite limited and do not have an 100% success rate since there are so many mutations and varieties in cancer. Treatments such as chemotherapy often have lasting side effects. Additionally, there is a likelihood that cancerous cells are not completely eradicated and may resurface in years to come.

The following is the background behind chemotherapy and the effects it has on the human body provided by Dnews on YouTube.

What the Future Holds?

What scientists are trying to obtain is a sustainable as well as safe method of treating cancer. Scientists are looking into stem cell research, protein inhibition (protein Kinase inhibition) and artificial intelligence as potential methods. But, perhaps one of the most promising of the potential treatments is nanotechnology.

*Credit to Inquisitr.com for providing these different potential treatment methods.*

Nanotechnology and Cancer Treatment

Nanoparticles are as small as cell organelles with great flexibility when it

Mesoporous silica, Source: Wikimedia Commons

Mesoporous silica, Source: Wikimedia Commons

comes to shape, size and composition. Research by scientists have found a mesoporous silicon nano particle that is able to encase azobenzene molecules within its membrane pores as well as carry different sized substrates inside the particle itself.  It is important to note the fact that azobenzene switches its orientation/ configuration (cis/trans) when exposed to light and its size changes when going from cis to trans. This  means that the permeability of the silica nanoparticle can be regulated by the azobenzene molecular configuration.  Small pellets of anti-cancer drugs can be inserted into the silica nanoparticles and injected into the human body. With controlled light exposure and intensity, the size of azobenzene changes releasing the substrate into the cancer cell targeting either just the cancerous components or the entire cell.  The following video uploaded by FGRGAnimation made by Frank Gu from the University of Waterloo outlines the process of osmosis and cell substrate concentration in regulating and controlling transport in a nanoparticle.

This process will be safe due to the high control levels in the real (in vivo) environment. We are able to selectively insert the amount of substrate into the nanoparticles to control concentration and light intensity. Thus, the correct dosage is always applied. Interestingly, the treatment  process can be both selective or general meaning scientists are able to use substrate specifically targeting cancerous components in a cell or the entire cancer cell.

Although the focus was on nanoparticles and nanotechnology, any of the the aforementioned 4 methods can be an important breakthrough in cancer treatments if proven experimentally successful.

Posted by Ming Lun (Allan) Zhu

 

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Posted in Biological Sciences, Issues in Science, Science Communication

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There is Hope: Body Fat Transplant May Be Effective in Treating Rare Metabolic Diseases?

Posted on January 25, 2016 by | 4 comments

People who have rare metabolic diseases, such as Maple syrup urine disease depend highly on donor transplantation. But is there an alternative treatment if donors are low? Not to mention the high expenses of a transplant?

But… you might be wondering… what exactly is maple syrup urine disease and where does it get its name?

Maple syrup urine disease (MSUD) is a rare disease because it follows an autosomal recessive mode of inheritance, one of the ways a disease can be passed down through families. This means patients inherit MSUD if both their parents have an abnormal gene.  MSUD  causes a defect in the way our body breaks down the three essential amino acids: leucine, isoleucine, and valine.

Maple syrup urine disease (MSUD) follows a autosomal recessive mode of inheritance. Source: Wikipedia Commons

Maple syrup urine disease (MSUD) follows a autosomal recessive mode of inheritance. Source: Wikipedia Commons

It is characterized by the distinctive maple-syrup scent found early on in urine samples of infants. They are important because essential amino acids cannot be made from the body, so they must come directly from our diet. The defect causes these three amino acids and their by-products to build up in the body. As a result, MSUD patients need precisely monitored diets (measured to the very milligram!) to avoid consumption of these amino acids, while still obtaining the other essential amino acids the body needs.

If MSUD conditions are left untreated, they can lead to coma, seizures and even death before reaching three months in age.

Liver transplantation is shown to be effective in treating MSUD because the liver is composed of an abundance of enzymes which appear to normalize amino acid levels, sometimes even allowing patients to fully adopt their normal diets again.

So organ transplantation is usually the solution to metabolic diseases but because of the high demand, is there a more accessible alternative?

Noting the high activity of fat tissue relative to muscle tissue in the body, researchers from Penn State College of Medicine tested the effect of body fat transplantation with genetically engineered mice with MSUD. They transplanted two grams of fat into the mices’ back or abdomen and found that when they implanted fat into the mices’ back, the amino acid levels dropped greatly in the transplanted MSUD mice compared to non-transplanted MSUD mice.

Transplanting fat into the abdomen of the mice did more harm than good and caused inflammation in the process. The results of this study were recently published in the journal Molecular Genetics and Metabolism.

Their study concluded that the amount of fat injected had no effect on the results. So this must mean that there will be further experimentation with fat transplantation. Fat transplant can be an alternative to liver transplant because it may be a more efficient approach as it is relatively inexpensive and it may be easier to find donors.

Wayne and Chad’s personal account on their child living with MSUD: YouTube Preview Image
Posted on January 25, 2016 By Jenny U

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Posted in Biological Sciences, Issues in Science, Science Communication, Science Communicators, Science in the News

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