Lionheart Biotechnology - Miniaturizing the Test Tube

Votes: 6
Views: 191
Medical

Every year 10 million people die from cancer, 6.8 million die from neurological disorders, and half a million die from neglected tropical diseases. Although there are tremendous advancements being made in these fields every day, there's still a dire need for better, cheaper, and more accessible treatments. By miniaturizing the test tube, Lionheart Biotechnology is making it possible to cut down the cost of discovering new therapeutic drugs by 75%. Our technology has the potential to drastically speed up the drug discovery process while reducing the environmental impact of chemical usage in laboratories.

We're achieving miniaturization by encapsulating thousands of drug candidates into microscopic structures on the surface of a glass slide. Biological structures are cultured over this array and imaged to detect hits. Quantitative dose-response models can be generated with data gleaned from these assays. In essence, we're making it possible to run thousands of experiments on a single chip.

Lionheart's work presents an immense leap forward in the field of drug discovery and development. Backed by years of research, Lionheart's chip platform aims to transform biotechnology and medicine, with the potential to be involved with the discovery of every new therapeutic treatment for a wide range of diseases. Our team is comprised of scientists, entrepreneurs, and students who are passionate about medicine, healthcare, and life saving technology.

Voting

Learn how to vote for your favorites.

  • ABOUT THE ENTRANT

  • Name:
    Max James
  • Type of entry:
    team
    Team members:
    Max Samuel James, Founder of Lionheart Biotechnology
    Dr. Steven Lenhert, Scientific Advisor, FSU Dept. of Biology
    Dr. Jeff Whalen, Business Advisor, Founder of Magnetics Corporation
    Brad Wollman, Marketing Advisor, IPX Marketing
  • Profession:
    Student
  • Max is inspired by:
    I'm inspired by my father, who was diagnosed with prostate cancer when I was in high school. Although he was eventually cured of the disease, it was only after several long months of chemotherapy, surgeries, and physical therapy. It was incredibly tough on my father, as well as my whole family. This left me wondering if there were any possible treatment modalities that would have sped up the treatment process, or made it less painful. Today, my team is developing methods to find better, more gentle treatments for diseases such as cancer, which takes millions of lives each year, and impacts countless more.
  • Software used for this entry:
    CAD
  • Patent status:
    patented