Collaborated with a group of the world’s premier scientists, professors, and professionals in the fields of neuroscience and neuroethics.

Synthesized new neuroscience knowledge into a research proposal for a cutting-edge neuroscience experiment.

Engaged in interactive activities with discussions about cognitive neuroscience and neuroethics in a cross-cultural setting through a biophysical lens.

Elise Adams

Bob Jones High School

Class of 2023

Learn more about Elise here.

Elise Adams is delighted to be participating in the Advanced Medical Neuroscience Internship this summer. She is excited to work directly with doctors and medical experts from Georgetown University, Gallaudet University, and Walter Reed Hospital.

As a rising senior at Bob Jones High School, Elise is a dedicated student who is enrolled in both Advanced Placement and honors courses. Elise is very proud of her participation in Health Occupations Students of America (HOSA) & FIRST® robotics club. She also maintains her own art business to save for college.

In the future, Elise would like to study Cybernetic Enhancements. Her interest in bionics began when she was seven years old, when her school’s library received a shipment of medical science books. Through reading Elise discovered how financially inaccessible effective prosthetics can often be. She then began to study the effects of classism in the medical industry, and discovered that combining robotics and neuroscience to develop prosthetics could make their manufacturing cheaper & increase their effectiveness. Elise aspires to pursue a career in biomedical engineering to make prosthetics and other medical technologies more economical.

Read more about Elise's achievements here.




My Research ProposalThe aim of this study is to explore the dose-response relationship between intracranial fluid dynamics in an artificial gravity (centrifuge) environment versus a microgravity environment. This study will enable us to better understand the potential solutions to the issue of space headaches (caused by increased intracranial pressure) in astronauts during the extended duration of space travel.It is hypothesized that the rate of progression of increased intracranial pressure caused by microgravity environments can decline when a mouse is placed in a centrifuge for extended periods of time during exposure to microgravity conditions on the ISS.What are the effects of artificial gravity on intracranial pressure in mice exposed to an actual microgravity environment?


My Research Proposal PresentationView my research proposal presentation here.At the conclusion of the internship, I presented my research proposal to a panel of judges including Dr. James Giordano, Dr. Rachel Wurzman, and Dr. John Shook.In the Advanced Medical Neuroscience Internship, I worked directly with some of the world’s leading brain scientists to learn about neuroethics, neurocognitive health, and revolutionary developments in the field.
View my research presentation video here.


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The Frontier of Neuroscience

Center for Functional and Molecular Imaging

The Center for Functional and Molecular Imaging (CFMI) at Georgetown is one of the world’s leading institutions with expertise in structural, functional, and brain imaging.

While visiting the CFMI, I met Dr. John VanMeter, Director of the Neuroimaging Corps at Georgetown University, who described to me the rationale, protocols, capabilities, and limitations of Functional Magnetic Resonance Imaging and tract tracing.

I not only learned about the science behind fMRI, but also had the opportunity to see the machine that possess a magnetic power of 30,000 times the strength of Earth’s magnetic field.

Neuromodulation

Neuromodulation is a technology that electrically stimulates nerves or chemically targets neurological sites to treat nearly any disease or symptom.

I specifically learned about the HALO device, an application of neuromodulation that provides external electrical stimulation through a helmet of electrodes. It is primarily used to improve cognitive function and wellbeing, like learning, memory, and performance.

To further demonstrate the applications of neuromodulation, we learned aboutelectrical stimulation, perception of stimuli, and free will in order to control cockroaches from an iPhone.



Internship Highlights

Dr. James Giordano

Deep Brain Stimulation

The Creative Brain

Experts & Mentors

I had the chance to work and collaborate directly with Dr. James Giordano, Chief of Georgetown University’s Neuroethics Studies Program.

In addition to his involvement with a variety of educational institutions, Dr. Giordano is the author of over 350 publications in neuroscience and neuroethics.

During our first meeting, Dr. Giordano guided us through an exploration of our own brains, minds, and selves, probing for the problems, meanings, and questions within the world that surrounds us.

In subsequent meetings, Dr. Giordano frequently prompted both introspection and extrospection to encourage familiarity with the our own minds, as well as our environment, and how the two can interact to our benefit.

I had the unique opportunity to learn from Dr. Michael Okun, a neurologist, neuroscientist, and founder of the University of Florida’s Movement Disorders Program.

The university’s program aims to provide interdisciplinary and integrated care that facilitates communication between all members of their team to provide the best care possible.

Within his work, Dr. Okun utilizes Deep Brain Stimulation (DBS), which operates like a pacemaker within the brain and is often inserted via conscious surgery.

During this operation, electrodes are put in the brain to regulate electrical signals and help with conditions like Epilepsy, Parkinson’s Disease, Dystonia, Obsessive Compulsive Disorder, and Essential Tremor.

I had the opportunity to discuss stimulating creativity through brain science with Dr. Adam Green, the Director of the Lab for Relartional Cognition at Georgetown University.

Dr. Green maintains that creative insights are “the product of connections made between things other people didn’t put together,” and we explored the neurological foundations of this theory.

In one of his most prominent experiments, Dr. Green had participants draw the analogies to evaluate semantic distance and creativity as explained above, but also regarded the potential role of neuromodulation.

tDCS is transcranial direct current stimulation, which is a non-invasive "helmet" of sorts that allows for the modification of the neural pathways' firing in the brain. The external stimulator is placed on the scalp and then provides electrical stimulation to a broad region in order to control the neurons' firing.

Along with Dr. Giordano, I had the opportunity to work closely with Dr. Rachel Wurzman, a Fellow with the Center for Neuroscience & Society and Postdoctoral Research Fellow in Neurology with the Laboratory of Neural Stimulation at the University of Pennsylvania.

Dr. Wurzman promoted us to think critically about the questions that help drive science forwards and improve our understanding of the world around us biopsychosocially. She also lent her expertise of neuroplasticity, neurodiversity, and neuroethics to help our team develop our research proposal.

In addition to our work with Dr. Wurzman, we had the opportunity to meet with a variety of neuroscientists with a variety of unique specialities.

One such professional was Dr. Bill Casebear, a Lieutenant Colonel in the US Air Force, who holds a joint PhD in cognitive science and philosophy. Dr. Casebear used his expertise to discuss using neuroscience to drive policy, public health, and social responses for global issues and generate sustainable peace