Project Detail |
Our goal is to create a virtual tissue-staining device to replace manual chemical-staining techniques by integrating optics and deep
learning.
Chemical staining of cell components plays an essential role in biomedical and pharmaceutical research and practice. Cell structures
of interest are highlighted using various chemical stains and imaged with the appropriate optical setup. However, these techniques
are often invasive and sometimes even toxic to the cells, in addition to being time consuming, labor intensive, and expensive.
Recently, the use of deep learning has been proposed as a way to create images of virtually stained cell structures, thus mitigating the
inherent problems associated with the conventional chemical staining. However, these methods are usually specialized for a specific
application and, thus, highly dependent on the setting of the optical device used for acquiring the training data.
In order to make virtual tissue-staining more accessible to end-users, we propose a device based on a simple optical system with an
integrated deep-learning-powered virtual-staining software.
This is an ideal moment to enter the virtual tissue-staining market because we can gain a first mover advantage. Further, we can take
advantage of the fact that the tissue-staining market is expected to grow with a compound annual rate of roughly 8.5% until 2025 (up
to 3400M USD), and to continue to grow for the foreseeable future.
As part of this project, we aim to launch the startup company IFLAI to commercially exploit our virtual-staining technology and the
prototype we will develop. With the startup IFLAI, we aim to provide ~20 jobs to university-educated individuals in the EU within the
next 5 years. IFLAI has already received initial funding and support from two different organisations that support and believe in its
venture. |