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Ashley Malkin

Ashley Malkin

2024 Davidson Fellow
$10,000 Scholarship

Age: 17
Hometown: Greenwich, CT

Technology: “Identification of Therapeutics for Neurological Disorders through Development of a Novel Machine Learning System for Predicting Drug-Gene Interactions in the Glymphatic System

About Ashley

My name is Ashley Malkin, and I am a rising senior at Greenwich High School in Connecticut. I am passionate about exploring the intersection of neuroscience and computer science, with a goal of developing cutting-edge technology to understand and combat neurological disorders.

I am also passionate about the ethical development of neurotechnology, and my writing and speaking on this topic has been honored nationally and internationally by the NIH, Harvard International Review, and Simply Neuroscience. I founded ScienceGirls!, a free STEM mentoring program for elementary school girls, and have led interactive science workshops for over 250 girls. In addition to science, I also love creative writing, and my fiction and poetry have been nationally and internationally honored. At school, I am Co-Captain of the Debate Team, President of the Economics Club, and on the Squash Team.

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"I feel incredibly honored to have been selected as a Davidson Fellow, and I hope to inspire other young people to explore STEM. I am looking forward to sharing my research with the other Fellows and learning about their work. Together, I hope we will serve as role models to encourage others to deeply engage in a project, pursue research, and make an impact in the world."

Project Description

My research uses machine learning to find new treatments for a wide array of neurological disorders, including strokes, Alzheimer’s disease, and epilepsy, by predicting drug-gene interactions in the glymphatic system, the brain’s waste clearance system. I developed GlymDS, a new glymphatic-specific database, and GlymRx, a novel machine learning system utilizing three customized models to target drug candidates. Together, these tools narrowed a field of 11,575 FDA-approved drugs to 273 potential drug candidates. Comparable to the first stage of the FDA drug development process, which can take up to six years, this research can save years of crucial drug development time in the fight against neurological disorders.

Deeper Dive

I first heard about the glymphatic system – the brain’s waste clearance system – while browsing neuroscience articles. A body system with links to a plethora of neurological disorders, ranging from epilepsy to Alzheimer’s disease, seemed like the sort of thing that scientists everywhere should be working on. As someone who has been reading neuroscience textbooks since childhood, I was surprised that I hadn’t heard of it before. Upon further investigation, I learned that the glymphatic system was so newly discovered that it wasn’t in my textbooks, and scientists were currently researching it under new grants and projects worldwide. However, there is a long path from discovering a new system to developing drugs to aid it. Since few drugs are known to treat irregularities in the glymphatic system, drug discovery in this area has the potential to make a meaningful impact on the treatment of a wide array of neurological disorders. I had spent the previous year developing research at the intersection of machine learning and neuroscience for concussion diagnostics, and I wanted to be able to apply my machine learning background to aid scientists in this endeavor. Over the next year, I developed GlymDS – the first glymphatic-specific database of proteins and genes associated with the glymphatic system and drugs known to interact with them – and GlymRx – a novel, multi-model machine learning system designed to find new drug-gene interactions in the glymphatic system. 

One of the biggest challenges in developing my project was finding the right data for my machine learning models to train on. After spending weeks scouring for glymphatic-specific databases, I realized that there simply weren’t any. It became clear that I would have to create my own, and so I developed GlymDS, a database containing 400 newly assembled protein and drug structures. GlymDS not only made my project possible, but my hope is that it can be a resource for other glymphatic system researchers in the future, both independently and connected with my machine learning system GlymRx. In the world of data-driven biomedical science, access to clean, high-quality data is crucial for computation. 

The importance of my GlymRx machine learning system is twofold. First, it identified drugs never linked to the glymphatic system before that could be future treatments for glymphatic-related neurological disorders such as Alzheimer’s disease or Parkinson’s disease. Second, the GlymRx model provides proof-of-concept of an early-stage drug discovery machine learning system in a young field of study. The machine learning methods of GlymRx could be modified and implemented for early-stage research targeting a variety of biological systems. As GlymRx narrowed the field of available drugs by ~98%, a process that typically can take up to six years, methods such as these could be very valuable in early-stage drug discovery across disciplines.

Q&A

What is your favorite hobby?

Writing poetry and flash fiction inspired by everything from little moments in life to big discoveries in science

What is your favorite tradition or holiday?

Celebrating half-birthdays

What is one of your favorite quotes?

“It doesn’t stop being magic just because you know how it works” – Terry Pratchett

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In The News

Greenwich, Conn. – The Davidson Fellows Scholarship Program has announced the 2024 scholarship winners. Among the honorees is 17-year-old Ashley Malkin of Greenwich. Malkin won a $10,000 scholarship for her project, “Identification of Therapeutics for Neurological Disorders through Development of a Novel Machine Learning System for Predicting Drug-Gene Interactions in the Glymphatic System. She is one of only 20 scholarship winners in the 2024 Fellows class.

Download the full press release here