Our preliminary research sought to answer the question, "What major environmental and health problems affect people today?" An important aspect of a biological engineering project is to first start with a problem that people want to have solved. Upon discussing this, we came up with more poignant and open-ended questions: "What problem are we trying to solve? What current methods exist in addressing the problem, and what new approaches might be tried? How does engineering biology provide a tool, or act as a component in a larger plan of action to solve the problem? Is engineering biology a necessary or desirable approach in this solution?"

Before attempting any wet-lab work, or making any major design considerations, we considered these questions carefully. Our process of asking these questions, reaching out to doctors, and looking at current synthetic biology solutions were crucial in helping us determine the direction of our project.

On this page, we’ll discuss the questions we asked ourselves and others, and how we decided to pursue our project.

Why Bugs Without Borders?

Or more specifically, why localized medicine production?

First and foremost: medicine is hard to ship. Current efforts to ship medicine are unsustainable and unreliable, and rarely do the shipments make it to the intended destination. So why keep trying to ship the medicine synthesized in centralized large pharmaceutical companies? Instead, let’s ship the factory, once, and make the medicine locally in the regions that need them the most.

We hope to accelerate a growing movement to shift production of medicine delivery to the regions that need them. While it is important for us to develop the technology, essentially a living factory synthesizing essential vitamins and medicines, it is also important for us to address aspects of the problem unsolvable with science alone. We hope to analyze and understand how our project fits into existing policies and attitudes surrounding poverty and malnutrition.