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Our team We help invention grow! Our team benefits from decades of know-how and experiences gathered in academic institutions, technology transfer and industrial companies. Using this knowledge, we are developing a pool of highly potent biotech projects originating in academia and finding commercial partners for them. JIŘÍ MOOS CEO, Board of Directors In addition to managing i&i Prague, Jiří is responsible for project analysis. He is a member of the GAMA Commercialization Council of the Institute of Molecular Genetics (IMG) and an external member of the Supervisory Board of the Institute of Biotechnology. Previously, he was a senior sales manager at Sigma-Aldrich and coordinator of regional activities of the Sigma-Aldrich Applied Business Unit. He also worked at Immunotech a.s. and has extensive experience as a researcher at the Centre for Assisted Reproduction at the General University Hospital in Prague and IMG. LinkedIn Mail DAVID STÍBAL Vice Director, Board of Directors David evaluates the business potential of scientific projects, establishes and initially manages startups, and works on the long-term development of projects all the way to their successful commercialization. David completed his bachelor’s and master’s degrees at the University of Chemistry and Technology in Prague, earned a Ph.D. from the University of Neuchâtel in Switzerland, and conducted postdoctoral research at the prestigious Massachusetts Institute of Technology (MIT). Prior to joining us, he worked in Lach-Ner s.r.o. as a research scientist. LinkedIn Mail IVA MACHOVÁ Incubation and Regional Manager for Poland Iva is responsible for the analysis of project technology. Before joining our company, Iva worked as a postdoc researcher at the Biomedical Center of the Faculty of Medicine in Pilsen. She holds BSc and MSc degrees from UCT Prague, Czech Republic, and she did her Ph.D. at the Institute of organic chemistry and biochemistry. Iva spent several months on a postdoctoral fellowship at Ludwig-Maximilians-Universität München. Due to her scientific experience in biochemistry, she is focused on projects in the field of drug discovery and cell therapy. LinkedIn Mail JIŘÍ RŮŽIČKA Incubation Manager Jiri is responsible for analyzing projects at i&i Prague. He also worked at the Institute of Experimental Medicine of the CAS (IEM), the University of Cambridge, and the University of Leeds. He has done his PhD at IEM and the 2nd Faculty of Medicine of Charles University. He has 14+ years of experience in neuroscience and regenerative medicine with a broad focus on brain/spinal cord injuries, neurodegenerative diseases, and ageing. He has been dealing with enzymatic, gene, or cell therapies, biomaterial applications, and genetic models of neurodegenerative disorders. Mail Mail KAMILA BURDOVÁ Incubation Manager Kamila is an Incubation Manager at i&i Prague. She brings over a decade of scientific experience in molecular biology, genome stability, and DNA repair, gained at leading research institutions including the Institute of Molecular Genetics in Prague, the University of Oxford, and the University of Sussex. At i&i Prague, she supports the development and growth of early-stage biotech projects with strong scientific foundations. Her deep understanding of academic research allows her to bridge the gap between science and commercialization effectively. LinkedIn Mail JAN BERKA Project Manager with a Focus on International Contacts Jan studied molecular biology and genetics at Masaryk University in Brno (Czech Republic). After his doctorate, he worked at the Barnett Institute, Northeastern University in Boston on the development of DNA sequencers. Later, he worked at CuraGen, 454 Life Sciences, Pfizer Rinat and Adaptive Biotechnologies, where he was involved in pioneering methods of DNA and immune system sequencing. Before joining i&i Prague, he worked at Roche Molecular Diagnostics in California, developing biomarker assays. Mail Mail ROBERTO FERNANDEZ Incubation Manager Roberto is responsible for the analysis of projects. Prior to joining us, Roberto completed his Ph.D. in Macromolecular Chemistry at Charles University in Prague. He holds a BSc in Chemistry from the University of Costa Rica and an MSc in Biochemistry and Biotechnology from Autonomous University of Barcelona. Parallel to his work in i&i Prague, Roberto works as a project manager in the MedTech start-up LAM-X a.s. Due to his experience, Roberto prefers to focus on projects in the field of medical devices and drug delivery. LinkedIn Mail SIMONA ŠANDOVÁ Office Manager Simona is responsible for making sure that everything works as it should in i&i Prague. During her career, Simona has worked as an Office Manager and a Junior Property Manager. She was responsible for training and conference organization, communication with clients and suppliers as well as administrative assistance for the project and property department. Simona has considerable experience in administration and office management. LinkedIn Mail MARTIN KOVALČÍK Communication Manager Martin is responsible for PR activities and communication of our incubator. Prior to joining i&i Prague, Martin worked for nearly 13 years as a media coordinator at the respected Czech non-profit organisation, People in Need, where he was responsible for regular media relations and media service for a team of 300 people. He also has experience working in several editorial offices. He left his most significant mark at the Metro newspaper, where he worked for over 5 years, the last two as the deputy editor-in-chief. Mail Mail

< Back Jiří Růžička Project Manager Jiri Ruzicka is a Project manager at i&i Prague. He is responsible for the analysis of projects, mainly from the scientific and technological aspect. Before joining our company Jiri worked as a Research Associate at the Institute of Experimental Medicine (IEM, part of the Czech Academy of Sciences), as well as within the international research center of IEM, University of Cambridge, and University of Leeds, called Neurorecon. He holds BSc. and MSc. Degrees from the Faculty of Science, Charles University. He has done his Ph.D. at IEM, AS CR, and the 2nd Faculty of Medicine of Charles University. During his postdoc as a member of the Neurorecon team he spent several months at Imperial College London and had close collaboration with the University of Cambridge, including several short research stays. He has 14+ years’ experience in the fields of neuroscience and regenerative medicine with a broad focus on brain/spinal cord injuries, neurodegenerative diseases, and aging. He has been dealing with enzymatic, gene, or cell therapies, biomaterial applications, and genetic models of neurodegenerative disorders.

< Back Mikuláš Vargic External Lawyer Mikuláš studied law at Masaryk University Brno and International and European Law at the University of Antwerp. He is an independent attorney with a specialization in technology transfer. Mikuláš joined our team in 2016 and has almost ten years of experience. He previously worked in a major Czech law firm in Brno and at the South Moravian Innovation Center (JIC). He also works for other clients from both the public sector (universities and research institutions) and the private sector (investors, start-up, and spin-off companies). Mikuláš helps i&i Prague with all legal matters and is involved in negotiating transaction documentation with our partners. His knowledge of business, technical and legal matters will help you to tailor the legal framework for your specific needs.

Notes from a trip to “The most startup friendly country in the world” At the end of April, Karel Kubias (one of the partners of i&i Biotech Fund) and Jiří Moos (CEO of i&i Prague) attended an event in Riga, Latvia, called Roche Latvia Innovations Day. Here you can read their blog where they describe their impressions from the event and, more importantly, provide further evidence that the Baltic States can serve as inspiration for the Czech Republic. At least in terms of technology transfer… At the end of April 2022, the Latvian representative office of the global pharmaceutical company, Roche, invited us as guests of the “Roche Latvia Innovations Incubator Day”. We gladly accepted the invitation as supporting and building technology transfer is in i&i Prague and i&i Biotech’s genes. It is commendable and positive (but not surprising) that Roche has decided to establish incubators in different territories to financially support primary research results and create an environment where innovative ideas can grow and mature. In Latvia, moreover, this initiative is closely aligned with significant state support. Developing the knowledge economy During the one-day event, two representatives of the Investment and Development Agency of Latvia (www.liaa.gov.lv ) spoke, among others, about how the Agency supports innovation and technology transfer, increases Latvia’s attractiveness for foreign investors and, last but not least, introduced us to its support programs for startups. Additionally, we learned that: in 2021 Latvia had over 400 startups from different sectors (from Fintech to Medtech and Healthtech to Biotech); the entire country (almost one-fifth smaller than the Czech Republic in size) is divided into 11 regional incubators, each of which provides startups with pre-incubation and incubation programs. Latvia has a “Startup Law”, designed to support startups, which allows them to receive co-funding from the state for qualified staff as well as tax benefits. However, the agency not only supports startups, but also the activities of entrepreneurs looking to develop new products or technologies in the form of Innovation Vouchers of up to €25,000. If you are interested in transferring your activities from abroad to Latvia and establishing a startup there, the Agency will arrange a visa for you. Thanks to all this, the Baltic country has been named “the most startup friendly country in the world” by Index Ventures. At times, we felt like we were at a conference in Germany or Austria, where the state also strongly supports technology transfer and startups in general. But Latvia? The targeted efforts to promote technology transfer here have a quite prosaic reason, this country does not have a strong industrial base, so they are focusing on promoting technology transfer in order to create favorable conditions for the development of the knowledge economy in Latvia. The meeting in Riga ‘one of the most exceptional’ As part of our contribution “What does your start-up need to be ready for investors?”, we shared our experience of the process of evaluating and supporting startups before i&i Biotech Fund decides to invest. We were delighted with the feedback from the audience who found our experience beneficial and did not hesitate to contact us with questions after the program. The full morning program can be viewed here. In the second part of the program, we were then introduced to the presentations of seven startups. Each of them received feedback from us and also recommendations for next steps. We continue to stay in contact with two of the teams and are considering investment in the future. Finally, we would like to acknowledge the Roche team for the excellent organization of the meeting. In our professional lives we have made dozens, if not hundreds of business trips, and only a few have stuck in our minds for their uniqueness. We dare to say that this visit to Riga will be one of those exceptional experiences. And we must also admit that we were pleasantly surprised by the level of support the Latvian government is dedicating to technology transfer. Our country can take inspiration from Latvia in this respect. Jiří Moos, i&i Prague (Executive Director) Karel Kubias, i&i Biotech Fund (Partner) THE CZECH VERSION OF THE BLOG CAN BE FOUND HERE . Contact: Martin Kovalčík, kovalcik@inibio.eu , +420 777 472 863

Smart bandages not only capture pathogens, but also destroy them in no time. All they need is ordinary light. LAM-X team Hospital-acquired infections are a problem that current technologies are not able to deal with effectively. In the European Union alone they cause around 100,000 deaths each year, with estimates of the costs associated with treatment in the EU around €7 billion per year. However, this could change in the future; the Czech spin-off LAM-X a.s. is working intensively on the development of a nanomaterial that not only passively prevents viruses or bacteria from entering open wounds, but can also actively destroy them. It is made up of nanofibres doped with a photoactive substance which, when activated by ordinary light, eliminates any microbes that are in close proximity to it. Current dressing materials provide a kind of mechanical barrier aimed at suppressing the transmission of infection into the patient's body. However, if the objective is also to destroy the pathogens that cause infections, cover materials containing active silver are available. However, this is potentially toxic to the patient if used for a long time, and over time bacterial strains that may be resistant to this metal emerge. The material from LAM-X a. s. works on a completely different principle. “Our technology works with nanofibres that are hundreds of nanometres in diameter. We use them to create a very dense network that effectively prevents the penetration of pathogens. However, this in itself is not groundbreaking; nanofibre coverings have been produced for some time, although their use is not yet widespread. The added value of our material lies primarily in the fact that we can add a photoactive substance (so-called photosensitizer) to our nanofibres, which, when illuminated with ordinary light, activates a sterilization process that eliminates any bacteria or viruses on the surface of the bandage,” says Roman Chaloupka, CEO of LAM-X a. s. The light-activated photosensitizer can convert virtually ubiquitous molecular oxygen into so-called singlet oxygen, a highly reactive molecule that oxidizes virtually anything that comes in its way. “By using the photooxidation process, we are able to destroy even those pathogens that have already built up resistance to antibiotics or silver. Another huge advantage of our technology is that it eliminates the problem of toxicity of active dressings, which allows their long-term use. The singlet oxygen is generated only on the surface of the nanofibers and, due to its high reactivity, it acts only in close proximity to the nanofibers, so it does not come into contact with the patient's own wound or skin at all. And last but not least, our material is cheaper, as there is no need to use precious metals such as silver in its production,” adds Chaloupka. Bandages, incision films, catheter fixation The development of a second-generation smart bandage with antimicrobial effect is currently moving towards a clinical trial. If its current potential is confirmed, it could help, for example, people with chronic wounds in a few years' time. “More than 50 percent of patients with chronic wounds have been on treatment for more than a year. One reason is that these wounds are repeatedly infected with other bacteria. Our material should prevent this,” says Roman Chaloupka. However, it could be used to treat virtually any wound. A prototype of this type of bandage already exists and is currently being tested preclinically. These are a set of tests that need to be carried out before the product receives the necessary approvals to conduct clinical trials on real patients. Recruitment and follow-up should then take about a year. “By the end of 2024 and the beginning of 2025 at the latest, we should have the data to certify this dressing material as a medical device and subsequently award the CE mark, which is necessary for placing it on the EU market. At that point, production can begin,” adds Roman Chaloupka. However, dressing materials are only one of the paths LAM-X a.s. wants to take in the use of its technology. “At the moment we are already working on the development of other products, because we are convinced that our technology has a much more versatile application. Our material could be used, for example, to drape an operating field, which would greatly reduce the incidence of bacteria that could get close to an open wound. Even better, they could replace incision films, which are glued directly to the patient's skin to enhance health protection, especially in more time-consuming operations. The increase in cleanliness during surgery using our material should clearly reduce the incidence of post-operative infectious complications,” says Roman Chaloupka, outlining further possibilities. The technology of LAM-X a. s. would also find application in intravenous catheterisation, especially in long-term patients. “Even in this case, doctors struggle with the transfer of bacteria into the bloodstream, which causes serious health complications in the form of infections. If we made the adhesive dressings that fix the catheters to the wound from our material, we could largely prevent infections,” explains Roman Chaloupka. Clinical trials, search for an industrial partner LAM-X a.s. was founded in 2020 thanks to the joint efforts of Charles University and the Academy of Sciences. Specifically, its creation is backed by Charles University Innovations Prague, a subsidiary of Charles University, and the i&i Prague bio-innovation centre. It is currently preparing an investment round to raise funds for the aforementioned clinical trials. “All our products fall into the category of medical devices, the production of which is, of course, highly regulated. In order to obtain the necessary permits, whether in the Czech Republic, the European Union or in non-European countries, we need to collect a large amount of data to confirm the safety and efficacy of the material,” explains Roman Chaloupka of the need for clinical trials. The company would like to use part of the funds raised to equip its own laboratory (including a semi-operational nanofibre production facility) and to develop further products using this technology. However, the plans of LAM-X a. s. do not end there. “After completing all the necessary testing of our wound covers, we would like to launch them on the market through an industrial partner in the form of a large multinational company. We are looking for someone who has been involved in the treatment and healing of wounds for a long time, which means they already have a distribution network and effective marketing. We could then continue to focus on what we do best, i.e. on the development of new products,” concludes Roman Chaloupka, CEO of LAM-X a. s. Conclusion The products that LAM-X a.s. develops are based on unique technology that can help improve the quality of life for millions of people. Thanks to their versatility, they can be used in many areas of healthcare. They are also cheaper to produce in many cases than the materials currently used. It is these attributes that give LAM-X the chance to develop its potential not only in the local market, but also to succeed globally.

The Prague.bio Conference 2024 welcomed 300 participants from all over the world The second edition of Prague.bio Conference (i&i Prague is a co-organiser of this event), held on this occasion, brought together global experts on technology transfer and the creation of biotech startups, awarded the best startup presentations and introduced the upcoming educational academy for future spin-off managers. What was accomplished during the year? · The Prague.bio Conference this September welcomed 300 participants from all over the world · The number of members of the organization doubled to 12 · Major players from the pharmaceutical business joined the association - Bristol Myers Squibb and Zentiva · A training academy for future founders and managers of spin-off and start-up companies is in the pipeline for Q1 2025 Prague, 24 September 2024: At the Prague.bio Conference 2024, the professional biotechnology association Prague.bio celebrated its 1-year anniversary. The conference, which took place on 24 September in Prague's Slovansky dum, welcomed 300 visitors from scientists, biotechnology experts and innovators from all over the world. The interest that the event had already registered last year was confirmed and even increased. Biotechnology, as one of the key technologies of the future, has its place and room for further development in the Czech Republic. This year's event focused more on technology transfer to university spin-offs and building successful startups or partnerships between industry and academia, areas that offer considerable potential for better exploitation. "There was a lot of interest in this year's Prague.bio Conference, so logically we see potential for further growth. In addition to the possible expansion of the conference, we are also going to launch an educational programme in the first half of 2025, which will focus on future founders and managers of spin-off companies from Czech research institutes. We therefore want to further develop the topic, which was also covered in detail at this year's conference," says Petra Kinzlová, Director of Prague.bio. The lectures of two experts on the transfer of intellectual property and the startup environment attracted a lot of attention this year. The conference was opened by Christian A. Stein, CEO of Ascenion GmbH, one of the largest technology transfer institutions in Germany, and founder of a several successful biotechnology companies. He spoke about the different models of IP licensing to start-ups from universities and research institutions, giving examples of models from the UK, the US and Israel, and a specific case study of Cardior, a spin-off of the Hannover Medical School, which was acquired this year by Novo Nordisk for €1.025 billion. Another speaker was Silicon Valley expert Petr Jansa, Executive Director for Medicinal Chemistry at Biomea Fusion (a publicly traded biotech company) and co-founder of other innovative start-ups. His expertise builds on his collaboration with Professor Antonín Holý and the development of new drugs at Gilead Sciences. His presentation summarized the sources of innovation that are currently driving the world of biotechnology in Silicon Valley. The conference also offered a showcase of 12 biotech startups from the CEE region. The expert jury then selected the 3 best presentations. The 1st place went to the Polish company nCage Therapeutics, which is developing technology for the creation of new types of vaccines. The jury selected the presentation of the Czech startup LAM-X as the 2nd best, in which they presented its antimicrobial nanotextile for wound dressings, significantly reducing the risk of infection. The third place was awarded to the Czech project ChemCell from the IOCB (Institute of Organic Chemistry and Biochemistry), whose team is developing cellular immunotherapy for the treatment of cancer. "Biotechnology is one of the key areas that can make a major contribution to our future, not only in health, but also in strengthening the competitiveness of our economy. Fostering technology transfer between research institutions and industry is essential if we are to translate cutting-edge scientific discoveries into innovative solutions that can succeed in the marketplace more quickly and efficiently. That's why I am glad that the Prague.bio Conference is of such interest and that in addition to the results of large research institutions or companies, innovative startup companies are also presenting here. I believe that the Czech Republic has great potential in this area," said Marek Ženíšek, Minister for Science, Research and Innovation. The conference was held under the auspices of the City of Prague and the Ministry of Industry and Trade, and the general partner was the global biopharmaceutical company Bristol Myers Squibb, which is now also a member of the Prague.bio association, and presented its vision of healthcare in the future. "We are pleased to support the Prague.bio 2024 Conference, which gives us the opportunity to get to know innovative ideas from Czech scientific institutions, as well as promising startups from the Central European region. At the conference, we also presented one of our visions of digital health, which combines digital technologies with diagnostic methods and has the potential to change clinical practice and ensure the best possible outcomes for every patient in the future," said Karin Bacmaňáková, CEO of Bristol Myers Squibb, Czech Republic. Prague.bio Prague.bio was founded in August 2023 with the aim of developing the biotechnology segment in the wider Prague region. The association connects important actors in the public, private and academic spheres and promotes the region as a biotechnology hub on the map of Europe. Members of Prague.bio are the Institute of Biotechnology of the CAS, Bristol Myers Squibb, dubanska & co., i&i Prague, Kapaji, MCB Lab, Institute of Microbiology of the CAS, Institute of Molecular Genetics of the CAS, Institute of Organic Chemistry and Biochemistry of the CAS, University of Chemical Technology in Prague, Wolf Theiss and Zentiva. Media contact: Kristina Svobodová Marketing manager Prague.bio +420 725 935 900 svobodova@prague.bio

New startup in our portfolio: Sophomer's technology will make immunoassays faster, easier and cheaper The originators of SophoMer in their chemical laboratory. Prague, February 7, 2023. The academic startup Sophomer today announced the signing of a licensing agreement to commercialize a technology that can replace the traditionally used bovine serum albumin (BSA) in immunoassays. The newly licensed technology has been developed in collaboration between the Institute of Macromolecular Chemistry of the CAS (IMC), Elisa Development and the bio-innovation center i&i Prague. The signing of the license agreement also officially accelerated the activities of the startup. Sophomer has also joined the portfolio of i&i Prague. BSA is one of the oldest industrially derived proteins. In immunoassays it is primarily used as a blocker, which makes the measurements more accurate by suppressing unwanted signals. It is derived from bovine serum, which poses a number of problems. These include the risk of pathogen transmission, which means that this material must be tested rigorously and expensively and its use is subject to certification to confirm its safety. "Logically, there is no such risk with our technology, as our product is fully synthetic. This eliminates other problems, whether it is the variability in reproduction of production, the relatively high price, which increases with the requirement for higher purity, or the complex disposal of the material. The ethical aspect of the whole matter is also not negligible," says Jan Plicka of Elisa Development and a leading expert in the development of diagnostic devices. Sophomer's technology will find application wherever immunoassays is a basic working tool. It has the potential to greatly assist in biochemical laboratories, in the development of In Vitro Diagnostic (IVD) devices, in the monitoring of environmental contaminations, in food laboratories for the determination of allergen content, or in immunoassays in veterinary laboratories. "Our ambitions continue to grow as our research progresses, but the main idea remains the same: to make the work of our fellow developers and researchers faster, easier and, to a large extent, cheaper. We want them to be able to focus without distraction on their own ideas and the challenges that their demanding, extremely important and at the same time low-visibility work brings to the public," adds Martin Burkhard, CEO of Sophomer. A great example of technology transfer The creation of the start-up Sophomer is a prime example of technology transfer and the linking of science and industry. "At the beginning of the story there was a need for diagnostic test manufacturers, which we were able to identify thanks to our network of contacts. We then searched academia for a technology suitable to address this need. We found a suitable technology at the Institute of Macromolecular Chemistry and, after successful validation tests, we assembled a joint development team," says Jiří Moos from the i&i Prague Bio-Innovation Center, which has been behind the project from the very beginning. Among other things, i&i Prague also participated in the creation of a startup that has been included in the portfolio of this bio-innovation center. "We are currently helping to find customers for the developed polymer Sophomer F10, while continuing to co-develop other products. We are also well on our way to arranging the first investment that will help kick-start the company's activities," adds Jiří Moos. Synthesis of a polymer product at a defined temperature in a bath. A team of scientists at the Institute of Macromolecular Chemistry began developing the technology that led to the establishment of Sophomer about two years ago. "I am very pleased that we have managed to bring our joint efforts to the successful signing of a licensing agreement. We have thus taken an important step towards ensuring that the quality work of our scientists finds its application in real life. This builds on our previous successful transfers of basic research results into practice. I believe that this technology from the Institute of Macromolecular Chemistry will significantly simplify the performance of immunoassays," adds Jiří Kotek, Director of the Institute of Macromolecular Chemistry of the CAS. Contact Martin Kovalčík, 777 472 863, kovalcik@iniprague.com The signing of a licensing agreement from the right: Jiří Moos, Martin Burkhard, Jiří Kotek, Jan Plicka and Alexandr Krajhanzl The signing of a licensing agreement Jiří Kotek, Director of the Institute of Macromolecular Chemistry of the CAS The signing of a licensing agreement Alexandr Krajhanzl, i&i Prague The signing of a licensing agreement from the right: Jiří Moos, Martin Burkhard, Jiří Kotek, Jan Plicka and Alexandr Krajhanzl 1/6 About Sophomer Sophomer Ltd. is an academic startup founded by a group of people who come from both industry and academia. Their vision is to bring together two seemingly unrelated fields: immunoassays and polymer chemistry to help anyone who uses immunochemical assays in their work. One of the startup's first and widely applicable products is SophoMer(TM), a polymer that can replace the widely used bovine serum albumin in immunochemical assays, currently a component without which the development of immunological analytics is seemingly unimaginable. Read more here: www.sophomer.com . About Institute of Macromolecular Chemistry of the CAS, v. v. i. (IMC) The Institute of Macromolecular Chemistry of the CAS, v. v. i. (IMC) is the largest research institution in the field of polymer and polymer materials research in the Czech Republic. In this field, it is also among the most important academic research centres in the world. IMC has a knowledge potential of more than 120 scientists in the key fields of macromolecular chemistry, physical chemistry and polymer physics, as well as in related fields such as biochemistry or biomedical or materials engineering. Although the institute is primarily focused on basic research, it also works closely with the application sphere, as evidenced by a number of applied basic research results. Read more here: www.imc.cas.cz/eng . About i&i Prague The i&i Prague Bio-Innovation Center focuses on the transfer of new technologies into practice. The company was established at the Institute of Organic Chemistry and Biochemistry of the CAS and is mainly dedicated to innovations in the field of drug development, diagnostics and medical devices originating from academic institutions. It supports the creation of spin-off companies and the sale of licenses. So far, the company has participated in the creation of or otherwise supported 15 spin-off companies from five countries, has an equity stake in nine of them and has invested over 70 million crowns. In total, the spin-offs in i&i Prague's portfolio have raised more than CZK 1.8 billion from other investors. In addition to direct financial investments, i&i Prague also assists more than 15 research institutions and universities in the Czech Republic and abroad in the commercialization of innovative technologies. In 2021, i&i Prague started up the i&i Bio investment fund. About Elisa Development Elisa Development, in cooperation with the Food Research Institute Prague, has previously developed and marketed several ELISA format immunoassay kits for the quantitative detection of food allergens in food and food raw materials. During this development, the company's staff has repeatedly faced the problem of variable quality of BSA, which is very often used as a blocker of non-specific interactions. These problems were the impetus for the idea of replacing BSA derived from bovine serum with a synthetic polymer, which led to the approach to i&i Prague and subsequently to the collaboration with the Institute of Macromolecular Chemistry.

We focus on unique ideas that have the potential to succeed on a global scale. We are dedicated to innovations in Drug Discovery, Diagnostics, MedTech and other Life Science fields that originate from academic institutions. Incubation We help inventions grow! For scientists aiming to commercialize their innovations, i&i Prague offers step-by-step support, including market analysis, initial funding, and early industry feedback. We connect you with experts from science, law, and industry to ensure your project’s success. Our exits Our role is to help launch new startups or spin-offs. The moment our role ends, the exit follows. Here is an overview of our exits: DIANA BIOTECHNOLOGIES Focus: Pharmaceuticals and highly sensitive diagnostic methods Field: Diagnostics Country: Czech Republic Read More ELPHOGENE Focus: Liquid biopsy technology for cancer diagnostics Field: Diagnostics Country: Czech Republic Read More RIOCATH Focus: New technology used in the production of catheters Field: MechTech Country: Czech Republic Read More

< Back David Stíbal Board of Directors, Vice Director David Stíbal is the Vice Director at i&i Prague. He holds BSc and MSc degrees from UCT Prague, Czech Republic, and a Ph.D. from the University of Neuchâtel in Switzerland. After his doctorate studies, David worked as a PostDoc at the Massachusetts Institute of Technology. Prior to joining our company, David worked in Lach-Ner s.r.o. as a research scientist, developing modular catalytic systems. His international scientific experience has allowed him to develop a detail-oriented approach to projects from various fields, spanning organic and inorganic chemistry, pharmaceutical sciences, bioinorganic chemistry, and biochemistry. At i&i Prague, David has been focusing on biotechnology evaluations, intellectual property rights, and start-up formation. He will therefore be happy to help assess the scientific background of your project, offer advice during the start-up set-up and early management, and assist in the long-term project development all the way to the successful commercialization.

i&i Prague and other Prague.bio members participate in a business mission with Czech president in Switzerland Prague, November 7, 2024 – Key representatives from Prague.bio, (incl. i&i Prague) and other leading members of the Czech biotech community, participated in a high-profile business mission in Switzerland, which accompanied the President of the Czech Republic, Petr Pavel, on his state visit. Organized by the Czech Chamber of Commerce, this mission aimed to deepen commercial and research partnerships between the Czech Republic and Switzerland, particularly in the fields of biotechnology, pharmaceuticals, and innovation. Switzerland, recognized globally for its leadership in biotech and pharmaceuticals, is an ideal partner for the Czech Republic’s rapidly growing biotech ecosystem. Over the three-day mission, the delegation visited Zurich, Basel, and Bern, where they engaged in forums, expert meetings, and institutional visits that highlight the mutual commitment to advancing science and technology. In Zurich, the Czech delegation took part in a prestigious business forum at ETH Zurich, one of the world’s foremost technical universities. The event was inaugurated by President Petr Pavel and Swiss Confederation President Viola Amherd, featuring speakers such as Ruth Metzler-Arnold, President of Switzerland Global Enterprise, and Christoph Mäder, President of the Swiss Chamber of Commerce. The discussions focused on opportunities for collaboration between Czech and Swiss biotech companies, positioning Prague as an emerging biotech hub in Europe. The mission continued in Basel, where delegates were touring the Biozentrum at the University of Basel, a center known for groundbreaking research in molecular biology and biotechnology. Global pharmaceutical giant Roche was also hosting the delegation for an exclusive visit, offering insights into cutting-edge research in biotech and pharmaceuticals. The agenda included a roundtable discussion on funding opportunities for biotech and life sciences, a key area of growth for both Switzerland and the Czech Republic. "Switzerland represents an extraordinary opportunity for Prague.bio to connect with one of the most innovative biotech ecosystems in the world," says Petra Kinzlová, CEO of Prague.bio. "This mission was not just about strengthening commercial ties; it was about fostering collaborations that can drive scientific progress and bolster the international competitiveness of Czech biotech. By connecting with top Swiss institutions and industry leaders, we were opening doors for new ideas, partnerships, and growth." Contact for media: Martin Kovalčík, kovalcik@iniprague.com +420 777 472 863

Dracen Pharmaceuticals Announces the Initiation of First-in-human Study of DRP-104 in Adult Patients With Advanced Solid Tumors! Dracen Pharmaceuticals, Inc. has announced the start of a clinical trial of DRP-104, an anti-cancer substance developed by the team of Pavel Majer at IOCB Prague in collaboration with Johns Hopkins University in Baltimore (USA) @johnshopkinsu . The first patients have received the substance, and the initial phase of the trial will last approximately three years. “The initiation of the phase one clinical trial of our substance is excellent news and an important milestone on the path towards a new treatment for oncology patients,” said Pavel Majer, Head of the drug discovery group at IOCB Prague. Learn more on IOCB page or Dracen page !

PANC-CKI Consortium led by CasInvent Pharma Secures €4M Eurostars Grant for Pancreatic Cancer Research October 1, 2024. The PANC-CKI consortium, led by the Czech biotech, CasInvent Pharma, has been awarded a €4M Eurostars grant for a project entitled 'Developing a Novel Casein Kinase 1 Inhibitor for Pancreatic Cancer Treatment: An AI-Integrated Approach.' The project aims to validate CI-CK1i, a new inhibitor targeting casein kinase 1 (CK1), for the treatment of pancreatic cancer patients who urgently need new treatment options. The Casein Kinase 1 inhibitor developed by CasInvent Pharma effectively and selectively blocks all three isoforms of CK1, enhancing responses to ongoing treatments like chemotherapy and reducing tumor growth as a single agent. CasInvent Pharma, in collaboration with its international partners, achieved outstanding success in the 6th call of this program with the PANC-CKI consortium. The consortium will conduct Proof-of-Concept studies to generate a data package for initiating IND/CTA studies. PANC-CKI consortium employs a completely novel drug development, process synergistically combining cutting-edge technologies including creation of digital twin using AI/ML (Artificial Intelligence/Machine Learning) technologies with rapid screening of drug combination using state-of-the-art cancer patient-derived organoids at the University of Bern (Prof. Marianna Kruithof-de Julio). Safety testing will be performed by a new organs-on-chip technology developed by Alveolix (Switzerland). "We see the success of CasInvent Pharma in the Eurostars programme as further proof of the excellent potential of our platform and its ability to be successful internationally. In addition, the association with our partners opens a new chapter in our research, which will focus on treatment options for pancreatic cancer, one of the most aggressive and difficult to treat diseases," says Alexander Scheer (CEO) from CasInvent Pharma. “Deeplife is optimistic about advancing this CK1 inhibitor to tackle pancreatic cancer, a currently hopeless disease,” says Jonathan Baptista (CEO) from DeepLife, (France) Eurostars is the largest international funding programme for SMEs wishing to collaborate on R&D projects that create innovative products, processes or services for commercialisation. CasInvent Pharma, in collaboration with its international partners, achieved outstanding success in the 6th call of this program. Competing among participants from 37 countries, CasInvent Pharma received an exceptional score of 51 out of 54 from the international evaluation panel. The project ranked 1st in the Czech Republic, Switzerland, and France. Such a great outcome among European competition underlines the potential of the CK1 inhibitors and creates a momentum for our ongoing fundraising activities of CasInvent to bring our drug to the patients as soon as possible. Contact for media: Alexander Scheer, scheer@casinvent.com , +33 78 40 43 43 ABOUT THE COMPANIES CasInvent Pharma is a drug discovery spin-off company established in 2020 by Masaryk University and biotech incubator i&i Prague. The mission of the company is to develop new therapeutic options for the treatment of resistant tumours. The CasInvent platform is based on the use of proprietary, best-in-class highly selective inhibitors of enzymes belonging to the casein kinase 1 (CK1) family that are responsible for the regulation of different cellular mechanisms leading to resistance to targeted therapies. More information: www.casinvent.com OTHER PARTNERS University of Bern (UBERN): The Urology Research Laboratory at the Department for BioMedical Research of UBERN conducts advanced research in patient-derived organoids and possesses a collection from various cancer types such as prostate, bladder, and renal cell carcinoma to understand cancer biology. UBERN has demonstrated the translational potential of patient-derived organoids and is currently engaged in clinical studies. AlveoliX AG: AlveoliX, a leader in organs-on-chip technology, is expanding its impact with the patented AXBarrier-on-Chip System, a platform enabling advanced safety and efficacy models for pre-clinical testing. Its current AXBiomodel portfolio includes validated lung and intestine models, with kidney and bladder models in development. AlveoliX’s participation in a new grant will enable the company to enter the fast-growing oncology market, supporting cancer drug development with more precise, predictive pre-clinical models. For more information, visit alveolix.com or contact nina.hobi@alveolix.com . DeepLife: DeepLife, a Paris-based biotech company founded in 2019, uses multi-omics data, machine learning, and systems engineering to accelerate drug discoveries. Its AI technology creates digital twins of human cells, enabling rapid evaluation of drug responses, deciphering mechanisms, and identifying biomarkers and targets. DeepLife collaborates on identifying new targets and drug repositioning projects with this technology. For more information, visit DeepLife.com or contact kevin.carvalho@deeplife. co .