DCAT Awards Scholarship at Intel ISEF 2018 24th May 2018
The Drug, Chemical & Associated Technologies Association (DCAT) is proud to announce the winners of four scholarships presented at the Intel International Science & Engineering Fair (Intel ISEF) Special Awards Ceremony on May 17th in Pittsburgh, Pennsylvania. As a Special Awards Organization, DCAT awarded $3,000 to four student projects and contributed $3,000 to the ISEF Education Outreach that brought 2,500 local students, many from underserved communities and schools, to view the exhibits and participate in hands-on science activities.
Intel ISEF is the world’s largest international pre-college science competition. Each year, Intel ISEF brings together approximately 1,800 high school students from more than 75 countries, regions and territories to showcase their independent research and compete for an average of $5 million in total prizes.
“This event brings together such a diverse group of accomplished young individuals,” said Scott Price, Chairperson of DCAT’s Science & Scholarship Committee and Vice President, Sales at Ren-Pharm International, Ltd. “The level of knowledge and enthusiasm these kids have for STEM fields is unbelievable and gives us all a strong sense that our future is in good hands.”
Prior to the event, DCAT’s Science and Scholarship Committee evaluated hundreds of project abstracts to establish a target list to be judged at the fair. Mr. Price and Jennifer Lavanture, a committee volunteer and Associate Director, Business Development at Rhodes Pharmaceuticals, traveled to Pittsburgh to evaluate the science fair exhibits, interview the students, and determine the winners.
As an ISEF alumni and Grand Award winner, Ms. Lavanture has first-hand knowledge of the benefits of participating in this event. “ISEF expands student’s horizons. They meet committed, capable students from around the globe and are exposed to a broad range of ideas from both a theoretical and practical perspective. It is an experience that they will carry forward into their education and career.”
DCAT’s participation as a Special Awards Organization at Intel ISEF is an investment in the future of science by supporting young scholars who represent the geographic regions and areas of study that reflect the global membership of DCAT.
Colette Benko a senior at St. Mary’s High School in Calgary, Alberta, Canada won for her project, A Novel Pediatric Cancer Therapy Targeting Epigenetics and Neuroblastoma Differentiation. A cancer survivor herself, Colette was motivated to study new therapeutics for Neuroblastoma with limited side effects after observing the suffering of young children at the oncology ward where she was treated.
Working independently in a pediatric research lab at the University of Calgary, she investigated seven distinct inhibitors based on their ability to alter gene expression and protein regulation, similar to those induced by Cis Retinoic Acid ((CRA), a common treatment used today that has harsh side effects. Her study confirmed the ability of epigenetic altering drugs to induce differentiation in NB cells in vitro and provided pre-clinical evidence of some essential, desirable properties of the drugs DZNep and Selinexor in the evaluation for new therapeutics for this disease.
Colette hopes to publish the results of her study and will study medical sciences in college with the goal of becoming a pediatric cancer researcher.
Sasha Ronaghi, a sophomore at Sage Hill School in Newport Coast, California won for her project, Designing a Water Repellent and Breathable Material for Wound Dressings Using Nanotechnology. After struggling with commercially available wound dressings that trapped moisture and did not prevent the penetration of water following surgery last summer, Sasha was inspired to create a material that is hydrophobic, breathable, and biocompatible using nanotechnology.
Working independently in a lab at UC Irvine, she coated hydrophobic polystyrene sheets, used in contact lenses and medical devices, with different thicknesses of gold film and then exposed them to high heat. The gold wrinkled as the polystyrene sheets shrunk transferring the wrinkles to the polystyrene and making it super hydrophobic. The final material had a contact angle with water of 135 degrees (very hydrophobic) and after perforation was 230% more breathable than a leading commercially available brand.
Sasha hopes to continue her research to explore the use of other metals as molds and the possible reuse of the gold molds created during the process.
Daniel Zhang and Brandon Zhu, seniors at Herbert Henry Dow High School in Midland, Michigan won for their project, Release of Active Pharmaceuticals Using Hyperbranched Polyesters. Their research was conducted during a summer internship at Michigan State University.
They studied the rate of release by hydrolysis of three APIs: naproxen, salicylic acid and hydrocortisone from hyperbranched polyesters (HBPEs) of different hydrophilic/hydrophobic balance and solubility. They found that altering the composition of the HBPE, significantly changed the release rate of the API, demonstrating that the HBPE platform can be used for sustained release of APIs and to control the rate of enzymatic release.
Daniel and Brandon will both be attending Michigan State University in the fall where they will study computer engineering and biochemistry respectively.
Fionn Ferreira a junior at Schull Community College in Schull, County Cork, Ireland won for his project, An Investigation into the Removal of Microplastics from Water Using Ferrofluids. Concerned by the microplastics washing up on the shore in his hometown, and discovering that no screening or filtering for microplastics takes place in any European wastewater treatment plants, Fionn was inspired to develop a method for extracting microplastics from water that could be used commercially.
The method he used is based on a process used to clean up oil spills. Known concentrations of microplastics in water where mixed with oil. After the microplastics migrated into the oil phase, he added magnetite powder (non-toxic iron oxide) and the resulting microplastic-containing ferro-fluid was removed using strong magnets. Because he lives far from any testing facility, all of his experiments were conducted in his home and he built a visible light spectrometer to measure the concentration of microparticles in each sample. Using this method on the 10 most commonly found microplastics, he found an average of 87.6% ±1.1% extraction.
In the future, he hopes to investigate how to breakdown and recycle both the microplastics and ferrofluid produced by the process.