Nano-assisted digitalizing of cancer phenotyping for immunotherapy

HORIZON.1.1HORIZON-ERCID: 101045415
EC Contribution
€19,939
Consortium Size
1 orgs
Summary

Every day cancer takes about 30000 lives worldwide, despite multiple treatments developed in the last 50 years. True revolution in the therapy is demonstrated by the immunooncology relying on multiple routes to activate the immune system, using e.g. Chimeric Antigen Receptors, checkpoints inhibitors. Although demonstrating success in the treatment of e.g. lymphoma, the percentage of patients responding to the immunotherapy is less than 30%. Even more, the activation of immune system does not happen at no cost, leading to severe auto-immune reactions, sometimes with lethal consequences. Therefore, the main question of clinicians is: how to efficiently predict the response/no-response of the patient to the immunotherapy? At present, there is no predictive technological platform combining both, highly sensitive analysis of the cancer immunity and the planning of the strategy for potential therapy. I consider cancer as a smart self-adapting machine that plays its own set of rules: it generates and quenches the biochemical signals; initiates the iterative loops and builds up feedback controls to create an immune suppressive environment. My idea is to digitalize these mechanisms. ‘ImmunoChip’ will develop a device combining microfluidics with the specific nanosensory network to study elements of the cancer-immunity cycle to bring a new dimension in the field of preclinical immunotherapeutic cancer phenotyping. The information about the immunosuppressive activity of the cancer microenvironment, immune checkpoints, T cells, efficiency of the immunotherapy, will be collected into respective data patterns. The developed ‘ImmunoChip’ platform will help to answer the questions: can the patient be treated with the immunotherapy? How does the tumor protect itself? Which immunotherapy to use? I am sure that improved decision-making in immunotherapy will lead to a transformative treatment results for more patients and will help to save more lives.

Consortium (1)

Project Results (19)

Source: CORDIS, the EU research results database.

Publications (19)
Integration Strategies and Formats in Field-Effect Transistor Chemo- and Biosensors: A Critical Review
ACS Sensors· 2025DOI
Zeljko Janicijevic; Larysa Baraban
Janus Particles in Acoustofluidic Setup: The Interplay between Self-Propulsion and Acoustic Trapping
Micro· 2025DOI
Lisa Marie Benko, Vyacheslav R. Misko, Larysa Baraban, Denys Makarov, Antonio Maisto, Wim De Malsche
Microphysiological Solid Tumor Models in Hydrogel Beads for CAR T Cell Immunotherapy Evaluation
Advanced Science· 2025DOI
Xuan Peng, Željko Janićijević, Liliana R. Loureiro, Lydia Hoffmann, Poh Soo Lee, Isli Cela, Benjamin Kruppke, Alexandra Kegler, Anja Feldmann, Ielizaveta Gorodetska, Anja Madleine Markl, Anna Dubrovska, Anne Kathrin Offermann, Michael Bachmann, Larysa Bar
Toward Personalized Immunotherapeutic Drug Monitoring with Multiplexed Extended‐Gate Field‐Effect‐Transistor Biosensors
Small Science· 2025DOI
Trang‐Anh Nguyen‐Le; Christin Neuber; Isli Cela; Željko Janićijević; Liliana Rodrigues Loureiro; Lydia Hoffmann; Anja Feldmann; Michael Bachmann; Larysa Baraban
Biosensors and Bioelectronics
Biosensors and Bioelectronics· 2024DOI
Larysa Baraban; Xinne Zhao; Fiona Kolbinger; Marius Distler; Jürgen Weitz; Denys Makarov; Michael Bachmann
Design and Development of Transient Sensing Devices for Healthcare Applications
Advanced Science· 2024DOI
Željko Janićijević; Tao Huang; Diana Isabel Sandoval Bojórquez; Taufhik Hossain Tonmoy; Salvador Pané; Denys Makarov; Larysa Baraban
Heterogeneity of tumor biophysical properties and their potential role as prognostic markers
Cancer Heterogeneity and Plasticity· 2024DOI
Anja Madleine Markl, Daniel Nieder, Diana Isabel Sandoval-Bojorquez, Anna Taubenberger, Jean-François Berret, Artur Yakimovich, Eduardo Sergio Oliveros-Mata, Larysa Baraban, Anna Dubrovska
Selecting active matter according to motility in an acoustofluidic setup: self-propelled particles and sperm cells
Soft Matter· 2024DOI
Vyacheslav R. Misko, Larysa Baraban, Denys Makarov, Tao Huang, Pierre Gelin, Ileana Mateizel, Koen Wouters, Neelke De Munck, Franco Nori, Wim De Malsche
A novel ACE2 decoy for both neutralization of SARS-CoV-2 variants and killing of infected cells
Frontiers in Immunology· 2023DOI
Alexandra Kegler, Laura Drewitz, Claudia Arndt, Cansu Daglar, Liliana Rodrigues Loureiro, Nicola Mitwasi, Christin Neuber, Karla Elizabeth González Soto, Tabea Bartsch, Larysa Baraban, Holger Ziehr, Markus Heine, Annabel Nieter, Andres Moreira-Soto, Arne Kühne, Jan Felix Drexler, Barbara Seliger, Markus Laube, Domokos Máthé, Bernadett Pályi, Polett Hajdrik, László Forgách, Zoltán Kis, Krisztián Szigeti, Ralf Bergmann, Anja Feldmann, Michael Bachmann
Advanced healthcare materials
Advanced Healthcare Materials· 2023DOI
Xuan Peng; Željko Janićijević; Sandy Lemm; Sandra Hauser; Michael Knobel; Jens Pietzsch; Michael Bachmann; Larysa Baraban
Biosensors and Bioelectronics
Biosensors & Bioelectronics· 2023DOI
Janićijević, Ž.; Nguyen-Le, T.-A.; Alsadig, A.; Cela, I.; Žilėnaite, R.; Tonmoy, T. H.; Kubeil, M.; Bachmann, M.; Baraban, L.
Correction to Impedimetric Nanobiosensor for the Detection of SARS-CoV-2 Antigens and Antibodies
ACS Sensors· 2023DOI
Diana Isabel Sandoval Bojórquez; Željko Janićijević; Brenda Palestina Romero; Eduardo Sergio Oliveros Mata; Markus Laube; Anja Feldmann; Alexandra Kegler; Laura Drewitz; Ciarán Fowley; Jens Pietzsch; Juergen Fassbender; Torsten Tonn; Michael Bachmann; Larysa Baraban
Extended-gate field-effect transistor chemo- and biosensors: State of the art and perspectives
Next Nanotechnology· 2023DOI
Željko Janićijević, Trang-Anh Nguyen-Le, Larysa Baraban
Frontiers in Microbiology
Frontiers in Microbiology· 2023DOI
Xinne Zhao; Philip Ruelens; Andrew D. Farr; Andrew D. Farr; J. Arjan G. M. de Visser; Larysa Baraban
Impedimetric Nanobiosensor for the Detection of SARS-CoV-2 Antigens and Antibodies
ACS Sensors· 2023DOI
Diana Isabel Sandoval Bojórquez; Željko Janićijević; Brenda Palestina Romero; Eduardo Sergio Oliveros Mata; Markus Laube; Anja Feldmann; Alexandra Kegler; Laura Drewitz; Ciarán Fowley; Jens Pietzsch; Juergen Fassbender; Torsten Tonn; Michael Bachmann; Larysa Baraban
Impedimetrische Nanotechnik Für Bioanalytik Und Diagnostik
Wiley Analytical Science Magazine· 2023DOI
Diana Isabel Sandoval-Bojorquez; Zeljko Janićijević; Larysa Baraban
Micromachines
Micromachines· 2023DOI
Trang Anh Nguyen-Le; Xinne Zhao; Michael Bachmann; Philip Ruelens; J. Arjan G. M. de Visser; Larysa Baraban
Nanoelektronik für immuntherapie
Krebs im Fokus· 2023
Trang Anh Nguye Le; Daniel Nieder; Larysa Baraban
Shell engineering in soft alginate‐based capsules for culturing liver spheroids
Biotechnology Journal· 2023DOI
Xuan Peng, Željko Janićijević, Sandy Lemm, Markus Laube, Jens Pietzsch, Michael Bachmann, Larysa Baraban