2022年度入围的参赛者
2022年获奖者将在11月日的在线颁奖典礼上宣布。
2022年度入围的参赛者是…
游说奖
Prof Jae Sung Hwang
South Korea
National Center for Cosmetic R&D – Development of an animal alternative efficacy test method
Dr Alison Gray
UK
Policy intervention to replace animal derived antibodies with animal friendly affinity reagents
Center for Contemporary Sciences
USA
CCS Lobbying to End Animal Testing
Center for a Humane Economy and Animal Wellness Action
USA
The FDA Modernization Act of 2021
Dr Marize Campos Valadares
Brazil
Lobbying for the best science available and building confidence in New Approach Methodologies in safety science
The New Zealand Anti-Vivisection Society (NZAVS)
Aotearoa/New Zealand
Removal the social license of the Forced Swim Test in NZ
Omica Research and Innovation Ltd Comp
Turkiye/Turkey
Omic-A Skin
政治成就
Jytte Guteland MEP
Sweden
Tilly Metz MEP
Luxembourg
In-soon Nam
South Korea
公民意识奖 – 现有项目
Phoenix Zones Initiative
USA
Transforming Medical Research
Carlota Saorsa
Spain
Investigation at Vivotecnia laboratory
Jessica Lohmann
Germany
Lily Bowers and the Uninvited Guest
Humane Society International
USA
Save Ralph
Beagle Rescue Network
South Korea
Stopped animal testing on service dogs
Dr Costanza Rovida and Jean Knight
Germany
A systematic review on the conflicts between REACH and the EU Cosmetic Regulation: from awareness to action
Animal Testing
France
Investigating about households products experiments
公民意识奖 – 未来项目
ONG Te Protejo
Chile
Banning animal testing for cosmetics in Argentina
Altertox SRL
Belgium
Playing and coding for alternatives to animal testing
Animal Rights VZW
Belgium
Annual ‘Pure Evil’ award campaign
培训奖
Stichting Proefdiervrij
Netherlands
Proefdiervrij Venture Challenge
Centre for Predictive Human Model Systems, Atal Incubation Centre-Centre for Cellular and Molecular Biology (AIC-CCMB))
India
Training and education in 1R approaches in India
Animal Free Research UK
UK
Summer Student Programme: Next Generation
LIALT Laboratorio de Investigación Alternativa
Mexico
3D Tissues: An alternative to animal testing
Animal Welfare Academy of the German Animal Welfare Federation
Germany
Replacing Fetal Bovine Serum (FBS) in Research & Testing
EU Reference Laboratory for alternatives to animal testing (EURL ECVAM)
Italy
Introducing the Three Rs in education programmes and curricula
The European Society of Toxicology In Vitro (ESTIV)
Netherlands
ESTIV Applied Training Course
Ärzte gegen Tierversuche e.V.
Germany
NAT-Database: Raising public awareness for Non-Animal Technologies to promote a human-based research generating human-relevant results
Prof.dr. Pamela Bejdić, University of Sarajevo-Veterinary Faculty
Bosnia and Herzegovina
Dual Education System As a New Tool for Improving Practical Skills and Vocational Training of Veterinary Students
科研奖
Dr Baeckkyoung Sung
Germany
In silico toxicology platform based on endocrine organ-on-a-chip systems
Dr Marie-Gabrielle Zurich
Switzerland
Building a strategy to assess the neurotoxicity of solvents
Artificial Intelligence Innovation Lab
USA
Knowledge-guided deep learning models of drug toxicity improve prediction and interpretation
Joint Project Team of TissUse, Cosmetics Europe Long Range Science Strategy (LRSS) programme and Beiersdorf, namely: Katrin Brandmair, Thi Phuong Tao, Silke Gerlach, Nicky Hewitt, Jochen Kühnl and Ilka Maschmeyer
Germany
Demonstrating metabolism of a hair dye in the skin and liver in co-culture
Dr Daniel André Gonçalves Ferreira
Portugal
A Fast Alternative to Soft Lithography for the Fabrication of Organ-on-a-Chip Elastomeric-Based Devices and Microactuators
Dr Sejoong Kim
South Korea
Development of 3D tissue chip models mimicking multiple organs
The Acute Systemic Toxicity team within RTI International
USA
Mapping mechanistic pathways of acute oral systemic toxicity using chemical structure and bioactivity measurements
AlveoliX AG
Switzerland
A barrier-on-chip with integrated 3D stretching: an alternative predictive tool to support decision making
CN Bio Innovations
UK
Organ-on-a-Chip for better model of human physiology
Computational toxicology teams at Instem and Innovatune
USA
Addressing the acceptance of in silico toxicology
Micro-Tissue Engineering (MicroTE) Lab / Queensland University of Technology
Australia
Organs-on-chips (OoCs) for modelling drug responses mediated by multi-cellular interactions
Dr.-Ing. habil. Joachim Wiest
Germany
Systems engineering of microphysiometry
European Commission Joint Research Centre, Directorate F- Health, Consumers and Reference Materials
Italy
Use of human cell-based assays anchored to mechanistically relevant key events as a tool for the regulatory testing of developmental neurotoxicity
OECD Chemical Safety Programme
France
Efforts towards international harmonization of NAMs
Dr. Zhongze Gu
China
Develop Automatic Organs-on-Chip Systems
ReproTracker Team, Developmental Toxicology Department, Toxys B.V.
Netherlands
ReproTracker: an in vitro alternative to animal models for developmental toxicity testing
EU-ToxRisk – mitotoxicity case study team
Netherlands
New approach methods (NAMs) supporting read-across: Two neurotoxicity AOP-based IATA case studies.
青年学者研究奖
Dr Supratik Kar, Jackson State University
USA
In Silico modeling of Mixtures toxicity of hazardous Chemicals through multitude approaches
Xuelian Jia, Rutgers-Camden, Center for Computational and Integrative Biology
USA
Development of Mechanism-driven Virtual Adverse Outcome Pathway (vAOP) for Hepatotoxicity
Prof. Dr. Francesca Grisoni, Eindhoven University of Technology
Netherlands
Combining artificial intelligence and human organoids for animal-free drug discovery: towards a paradigm shift
Dr Andreia Verissimo Luis, THT Biomaterials GmbH
Austria
We make human placenta great again and an animal-free pepsin!
Dr Chrysanthi-Maria Moysidou, University of Cambridge, Dept of Chemical Engineering and Biotechnology
UK
Bioelectronic technology and Organs-on-Chips synergy: A 3D in vitro platform sheds light in the human microbiome-gut-brain axis interactions
Artur Silva, Federal University of Goiás
Brazil
Lung-sens-on-a-chip model for mechanistic assessment of chemically-induced pulmonary sensitization: Providing building blocks for the respiratory allergy AOP
Dr Sara Tirendi, University of Genoa
Italy
Improvement of an innovative 3D human-based model useful to identify the key events behind glaucoma pathogenesis
Dr Carlo Alberto Paggi, University of Twente
Netherlands
A joint-on-chip model to tackle arthritis
Farzaneh Fayazbakhsh, Tehran University of Medical Sciences
Iran
Using the microfluidic device for inducing oxidative stress on endothelial cells and assessing of antioxidant activity of gold nanoparticles attached to polyphenols
Dr Stefanie Klima, University of Konstanz
Germany
Advancing a human stem cell-derived test system for neurotoxicity
Dr Stephen Evans, Swansea University
UK
Development of healthy and immunocompromised dynamic lung co-culture models for toxicity testing
Dr Sebastian Eggert, cellasys GmbH
Germany
Identification of serum-free cell culture media formulations with automated and standardized microphysiometry
Thi Phuong Tao, TissUse GmbH
Germany
Use of a dynamic 3-organ co-culture in the HUMIMIC Chip3 to assess endocrine disrupting properties of test compounds
Dr Pouria Fattahi, University of Pennsylvania
USA
Inhalation toxicology‐on‐a‐chip
Dr Arunima Sengupta, ARTORG Center, University of Bern
Switzerland
Smoking alveolosphere on-chip to study COPD and lung cancer exacerbations
Dr Arthur de Carvalho e Silva, University of Birmingham
UK
Integrating physiologically-based pharmacokinetic modelling and ‘omics data to derive health-based guidance values for perfluorinated chemicals
Dr Sudeep Joshi, The Francis Crick Institute and King’s College London
UK
A robotic process automation system for biomanufacturing animal-free in-vitro 3D tissue and organoid models for drug screening
Dr Shagun Krishna, National Toxicology Program (DNTP), National Institute of Environmental Health Services (NIEHS)
USA
Computational Cardiotoxicology: Building an AI-assisted alternative method-based toxicity screening pipeline
Dr Paul Holloway, University of Oxford
UK
Using patient derived cells to build brain blood vessels in a chip: developing a new model to study cerebral small vessel disease and stroke
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