Tag Archives: UBC

UBC Researcher Develops a Game Changing Drug

Posted on November 28, 2012 by | Leave a comment

Image courtesy of:
http://www.orkin.com/flies/sand-flies/

Dr. Kishor Wasan is an independent researcher currently working at the University of British Columbia. His research team at the UBC Faculty of Pharmaceutical Sciences is dedicated to developing a treatment for Visceral Leishmaniasis (VL) VL is a parasitic disease spread by infected sand flies that targets the liver, spleen, and bone marrow and can lead to symptoms such as fever, weight loss and fatigue. Once infected with VL, the individual is unable to fight off the disease and will ultimately die if left untreated.

People living in developing nations and third world countries are at high risk for this disease, and an estimated 60,000 deaths occur annually due to VL in these areas. It is common in areas with high population density and climates that frequently experience droughts and famines. Many North Americans are unfamiliar with VL, even though it is a lot more relevant to us than we may realise. India, Brasil, and Africa have become popular sites for tourists which has resulted in an increase in North American exposure to this disease. Therefore, the number of VL cases are rising because people that visit these countries are contracting the parasite.

Image courtesy of:
http://bit.ly/Y82rCn

Unfortunately, there are only a few treatment options available that eliminate the deadly effects of VL. Currently, the most effective treatment being used is an antibiotic called Amphotericin B, or AmB. The version of AmB being used for the initial treatment is Liposomal AmB, and it is composed of AmB along with several other chemical compounds that form a lipid vesicle around the molecule.  Liposomal AmB has proven to be less toxic to the patient which allows for increased dosages. However, Liposomal AmB must be given by IV to the patient, requiring the need for a sterile hospital setting and trained personnel. As a result, the high cost and complex methods of administering the drug makes it unattainable for most infected patients in developing countries. People are dying every day because they don’t have access to medication.

Dr. Kishor Wasan and his team of researchers set out on a study to solve the barriers caused by Liposomal AmB. They aimed to develop an oral version of AmB that would be stable at tropical climate temperatures (30-43°C) while effectively treating VL. They developed and tested four new oral AmB drugs on mice subjects. Out of these four drugs, they discovered that one in particular was quite successful in treating the disease. This new oral AmB, which is known as iCo-010,  showed results of VL inhibition as high as 99%.  iCo-010 is the first oral AmB that has successfully shown to have such an impact on eradicating VL from an infected host.

As advancements in developing an effective drug to treat VL progress in the Wasan lab, the future of this disease seems brighter. Dr. Wasan refers to his development of the oral form of AmB as a “game changer” in the playing field of this infectious disease. The success of iCo-010 functioning as a stable and effective drug in treating VL may overcome the limitations set by the current treatment options. Combined with prevention techniques and Dr. Wasan’s new oral treatment, thousands of lives can be saved and the eradication of Visceral Leishmaniasis has become a possibility in the near future.

A descriptive look on biological processes behind the contraction of Visceral Leishmaniasis:

A discussion with Dr. Kishor Wasan about Visceral Leishmaniasis:

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By: Nadia Kari, Mokhan Kim, Deborah Lo & Alexandra Warren

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Posted in Biological Sciences, Issues in Science, Outreach Project

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Lower Grades Caused by CO2?

Posted on October 29, 2012 by | 1 comment
http://www.creativeeducation.co.uk/blog/wp-content/uploads/2011/06/exam_1356851c-300x187.jpg

Students Taking an Exam
http://www.creativeeducation.co.uk/blog/wp-content/uploads/2011/06/exam_1356851c-300×187.jpg

Did you know that when you are in a room full of people taking an exam, their exhaling of CO­2 could actually be inhibiting your cognitive function and causing you to get a lower grade? CO­has long been a topic of interest and debate in the world of climate change but new findings suggest that CO­is also to blame for the inability to think!

According to a recent study published in Environmental Health Perspectives (EHP), every room should be ventilated such that the CO­levels are kept at the optimal level of 600 ppm. When CO­2  concentrations exceed this level, people are at risk of suffering reduced cognitive function. They found that high levels of CO­2 in classrooms is often associated with students cutting class and doing poorly on school related activities. The evidence that was provided for their findings was found through an experiment conducted by William Fisk  where the research team exposed a group of 22 college students to three different levels of CO­2: 600 ppm, 1000 ppm, and 2500 ppm. It was found that with increasing levels of  CO­resulted in decreased level of decision making abilities.

CO2 Monitor
http://homeharvest.com/homeharvest2000pics/TIM10CO2Monitor350.jpg

As a preventative  measure, classrooms can install a CO­monitor that gives readings of the CO­2 levels and make ventilation changes accordingly. However, with larger scale modifications such as ventilation changes, further research and experimentation needs to be done in order for the results of the experiment to be replicated.

The good news is that the mechanical engineers at UBC keep the  CO­2  levels in classrooms and lecture halls  at the very acceptable levels of less than 1000 ppm. So we don’t need to worry about  CO­preventing us from doing well on our exams. If you do want to do well on your exams, this short clip of brain exercises that might be helpful:

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Blog Submitted by Elsie Ng

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Posted in Science Communication, Science in the News, Uncategorized

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Biomarkers in transplantation

Posted on October 1, 2012 by | 3 comments

A way to predict and diagnose organ rejection without the need for invasive biopsies

Source: http://bit.ly/PTa5tl

For patients with end stage organ failure, transplantation is often the only possible treatment. It involves the replacement of a failing organ with a healthy one from a donor. Although the surgery itself may go smoothly, the patient’s immune system may react to the new organ and reject it.

Biopsy needle.

Biopsy needle.
Source: http://bit.ly/hHKPJP

At present, when doctors want to detect if the recipient’s immune system is attacking the transplanted organ, they take a small sample from the tissue in a procedure called biopsy. Tissue biopsies are costly, painful procedures and in the first year post-transplant, patient would typically undergo around 14 of them. The use of blood biomarkers could decrease or completely eliminate the need for biopsies. The biomarkers would diagnose organ rejection using a simple blood test. This would be a simple and non-invasive method.

Biomarkers explained

In the context of graft rejection, a biomarker is a molecule produced by the action of genes. It can be messenger RNA, a protein or a metabolite, which is produced as a result of body’s immune response. Because people with organ failure express different types and/or quantities of these molecules than healthy people, they can be used as a reliable measure of body’s reaction to the transplanted organ. Their presence can be detected in a blood sample and used as an indicator of the impending organ rejection.

The development of biomarkers is currently underway by the PROOF Centre research team as a part of ongoing movement towards a personalized medicine approach – a patient-centered care providing treatment that is “particularly suited to that patient at that particular time”.

Dr. Scott Tebbutt, Chief Scientific Officer for the PROOF Centre of Excellence, talks about biomarkers:

YouTube Preview Image
Source: http://www.proofcentre.ca/what-is-a-biomarker/

 

For more information about the PROOF Centre and biomarkers, please read here.

Hopes for the future

Laboratory tests currently being used for graft monitoring do not provide a clear measure of immunological risk or accommodation between graft and host. Tissue biopsy thus still remains the primary diagnostic tool for monitoring graft status despite its many limitations. By implementing the use of biomarkers in post-transplant care, researchers hope to completely eliminate or decrease the frequency of biopsies in transplant recipients. Replacing biopsies with a simple blood test would not only reduce patient’s emotional and physical discomfort but would also decrease healthcare costs by preventing disease and improving health.

Submitted by: Nesim Lichy

 

References

1. Biomarkers: A new way to predict and diagnose organ rejection. Transplant Research Foundation of British Columbia Web site. http://www.trfbc.org/site/PageServer?pagename=News_Biomarkers. Accessed 09/20, 2012.

2. Keown PA, McMaster WR, McManus BM. Tools to identify organ rejection and immune quiescence for biological understanding and personalized medical care. Biomarkers in medicine. 2010;4(1):115-121.


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Posted in Biological Sciences, Issues in Science

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Could coconut oil be the solution to creating an all natural toothpaste?

Posted on September 16, 2012 by | 4 comments

Image source: http://www.cbc.ca/news/technology/story/2012/09/03/sci-coconut-oil-tooth-decay.html

Oral hygiene affects everyone and with the increasing number of children and adults affected by dental caries, more commonly known as tooth decay, has some dentists suggesting we are undergoing an epidemic.  Tooth decay is caused by specific bacteria that erode the hard tissues of the teeth through the production of acid by hydrolysis of food debris.  When left untreated, this infection can spread and possibly lead to serious health complications such as Ludwig’s Angina.

Research done at the Athlone Institute of Technology’s Bioscience Research Institute in Ireland, suggests that coconut oil inhibits the growth of tooth decay causing bacteria and is comparable to the current toothpastes being used.  The research team led by Dr. Damien Brady tested the antibacterial action of coconut oil in both its natural state and when treated with enzymes.  Testing was performed on various strains of Streptococcus bacteria, the most commonly found bacteria in the mouth.  Dr. Brady and his team of researchers found that the enzyme-modified coconut oil substantially inhibited the growth of several strains of Streptococcus.  One of the acid producing, decay causing bacterium, Streptococcus mutans, was found to be strongly inhibited by the modified oil.  An earlier study demonstrating the effects of enzyme-modified milk and its reduction on the binding of Streptococcus mutans to tooth enamel encouraged Dr. Brady’s study on coconut oil.

Dental Caries
http://en.wikipedia.org/wiki/Dental_caries

 

Dr. Brady’s team presented their work at the Society for General Microbiology’s autumn conference at the University of Warwick on September 3, 2012.  Further work will be done on the molecular level interaction between coconut oil and Streptococcus bacteria.  The team will also be testing the modified-oil’s effect against yeast Candida albicans that can cause thrush.

 

 

 

Why do we care?

With the increase of dental caries being reported today, oral hygiene has become the center of public concern.  Excellent oral hygiene and fresh breath demands that we brush our teeth multiple times a day.  Although the frequency of tooth brushing has become the main focus, attention is lacking as to what ingredients in tooth paste are essential.  Tooth brushing has become a part of our daily routine, but have you ever wondered what your tooth paste is made from?  With ingredients like Sodium Hexametaphosphate, glycerin, hydrated silica and propylene glycol it’s no wonder we don’t question it more.  The public has demanded an increase in organic and health food products yet toothpaste seems to be overlooked.  The research being performed by Dr. Brady and his team could have potential benefits for the oral health care industry.  With the results from their research, there is the potential to reduce the amount of chemical additives in toothpaste and substitute modified coconut oil and other natural ingredients.

This blog post was submitted by: Layla Vera

 

 

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

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