By developing the IVBM, we plan to implement a gold standard instruments for biomechanical measurements, opening the way to many different clinical-oriented applications (tissues engineering, inter-cells signaling, tumor dissemination, chronic diseases, age-related diseases, ...).
With the development of IVBM we will introduce in the market a cost-effective instrument suitable to investigate mechanobiology in living cells and tissues and to demonstrate its power in two paradigmatic N&ND. The success of this program will have tremendous impact on the field of mechanobiology and biophotonics, providing an innovative technology whose application will result into societal and medical benefits for the affected patients and their relatives.
By defining the features of pathologically relevant biomolecular condensates, unveiling their mechanical properties in living cells and relate them with physiological parameters, we will make a crucial step towards the improvement of the diagnosis/prognosis of PTMPs and their responsiveness to therapeutic treatments. Specifically, developing patient-derived stem cell cultures and analyzing potential biomarkers by for specific diseases in the academic sector by the use of IVBM and then using those biomarkers in the clinical sector will open a new diagnostic path. On the treatment side, drug screening and development strategies using disease-specific cellular models and the IVBM platform will have a tremendous impact on patients and more broadly on the society as it will allow to define the most appropriate treatments for each specific patient, depending on the degree of measured mechano-alterations by IVBM. By combining the proposed stem cell-based disease models with IVBM, we will move in the direction of personalized medicine for a large set of patients affected by these chronic diseases.
The introduction of the EOM, finally, will pave the way for long-term, user-independent and high-precision biomechanical measurements in a fully automated workflow. This implementation is part of a preprint (DOI: 10.48550/arXiv.2412.20516) that will result in a scientific paper of next publication. We also successfully submitted a patent application (Pontecorvo, E. et al. SISTEMA PERFEZIONATO DI RIVELAZIONE BRILLOUIN 102024000005674. Italy patent (2024)).