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Projects: BioTarget Database
Institutions: University of Ljubljana

Projects: Environmentally-friendly bioadhesives from renewable resources (WooBAdh)
Institutions: University of Ljubljana
The recent COVID19 pandemic infection has undisclosed long-standing issues in the translation of drugs from animals to humans or vice-versa. Nearly 75% of emerging human infections worldwide originated from animals; existing drugs for human and animal (H&A) vector-borne diseases (VBD) are scarce, with limited efficacy, toxicity, and finite resources. Emerging environmental problems in pharmaceutical use/manufacturing increase attention in the field. The two drug pipelines are developed ...
Projects: WG1 - Compound libraries coordination and integration of compound design, WG2 - Integration of early phase studies and low environmental impact actions, WG3 - Coordination of in vitro-to-in vivo translation of OneHealth leads and candidates, WG4 - Integration of R&D process-environmental studies and translation in informed whitepaper, WG5 - Promote dissemination, WG6 - Promote the transfer of knowledge, BioTarget Database, Compound Data
Web page: https://onehealthdrugs.com/
WooBAdh project aims to study the feasibility of replacing formaldehyde in wood adhesives by natural components derived from wood or other vegetable matter. The consortium will develop new bioadhesives which are able to provide a holistic solution to the current emissions challenges facing the wood-based composites industry. The proposed solution is focused on different modifications of polyphenols, namely lignin and tannins, for producing bioadhesives that do not contain formaldehyde in its ...
Projects: Environmentally-friendly bioadhesives from renewable resources (WooBAdh), Ultreia, MPW-Val, Enzymatic biorecycling of PET (PETzyme), Integrated BIOfactory for the multiproduct valorisation of PIG MAnure (BIOPIGMA)
Web page: Not specified
Public web page: Not specified
WooBAdh project aims to study the feasibility of replacing formaldehyde in wood adhesives by natural components derived from wood or other vegetable matter. The consortium will develop new bioadhesives which are able to provide a holistic solution to the current emissions challenges facing the wood-based composites industry. The proposed solution is focused on different modifications of polyphenols, namely lignin and tannins, for producing bioadhesives that do not contain formaldehyde in its ...
Programme: WooBAdh
Public web page: http://www.usc.es/biogroup/woobadh
Organisms: Ganoderma lucidum, Irpex lacteus