The Science Olympiads (Science Olympiaderne)
Grantee: Niels Hartling, Science Olympiaderne
Amount: DKK 1,800,000
Grant category: Education and Awareness Grants
Year: 2023
Geography: Denmark
The Science Olympiads aim to stimulate the interest of Danish high school students in the fields of chemistry, physics, mathematics, biology, geography, and computer science. The Olympiad builds on six tracks – one in each of the six fields – which each follow the same structure, kicked off with annual nationwide competitions. Around 20,000 students participate in the national competitions, often as an integrated part of their high school education. The most talented students can qualify to participate in the international Science Olympiads. The Science Olympiads challenge gifted students to expand their talent, promote future careers in science, and provide them with a valuable network of peers
Influence of dietary derived gut microbial metabolites on skin barrier and atopic dermatitis development in early life (Infant AD)
Grantee: Clarissa Schwab, Associate Professor, Aarhus University
Amount: DKK 3,910,741
Grant category: Research Grants in open competition
Year: 2023
Geography: Denmark
Clarissa Schwab’s project aims to investigate the role of switching from liquid to solid diet in the development of AD during infancy.
Atopic dermatitis (AD) is one of the first manifestations of allergic diseases that occur in early life. In industrial countries, up to 30% of children suffer from AD imposing an enormous burden to the quality of life and to health systems.
Not all factors contributing to the occurrence of AD are known, but the development of the gut microbiota in relation to a switch from liquid to solid diet during the first year of life might play an important role.
This project, ‘Infant AD’, suggests that a combination of specific food components and the appearance of certain gut bacteria is critical to producing gut metabolites that affect the immune system, and ultimately the state of the skin. To tackle such a complex system at the interface of diet, microbiome and the host, the concept of Infant AD is based on a unique combination of microbial and/or nutritional intervention studies using in vitro and in vivo models with state-of-the-art microbiome and metabolome analysis that will be supported by data collected from the Swiss birth cohort Childhood, Allergy, Nutrition and Environment (CARE).
Infant AD may shed further light on the complex interactions between diet, microbial activity and the immune system that could lead to novel measures to lower the risk of AD development in infancy.
High-resolution identification of bacterial-host interactions in atopic dermatitis during flare development and treatment
Grantee: Blaine Fritz, Postdoc, University of Copenhagen
Amount: DKK 2,956,179
Grant category: Research Grants in open competition
Year: 2023
Geography: Denmark
Blaine Fritz’s project investigates the ongoing genetic changes and interactions between bacteria and patients’ skin during development of atopic dermatitis to identify novel putative treatment targets.
Atopic dermatitis (AD) is one of the most common skin diseases, affecting up to 20% of children and 10% of adults. AD presents as localized, itching patches of eczema, frequently first observed during childhood and often persisting throughout the patient’s life.
Dysregulated immune response, microbial imbalances, and skin barrier dysfunction are among several, interacting factors, which invoke and perpetuate AD. In up to 90% of patients, aggressive pathogens such as Staphylococcus aureus displace the protective microbiota of the skin resulting in reduced microbial diversity and increased lesion severity. Clinicians commonly utilize antibiotics to treat bacterial infection in AD, but the efficacy is unclear and antibiotic treatment increases the probability of resistance.
The mechanisms and specific gene targets involved in host-microbial interactions by both commensal (non-pathogenic) and infecting bacteria are not well studied. This project hypothesizes that both protective and pathogenic bacteria on the skin dynamically activate specific host-genes and pathways during progression of an AD flare. To test this hypothesis, Blaine Fritz will utilize an integrated, machine-learning-based approach to identify longitudinal (i.e., over time) changes in gene-expression associated with the presence of specific bacteria during flare and treatment to identify direct, host-microbial interactions.
The findings will aid in elucidating bacteria’s role in AD and may guide antibiotic treatment, as well as identify novel targets for antibiotic-independent treatments.
Developing a vaccine, and characterizing the protective immunity, to prevent skin infection with Streptococcus Pyogenes
Grantee: Jes Dietrich, Senior Scientist, Statens Serum Institut
Amount: DKK 3,920,493
Grant category: Research Grants in open competition
Year: 2023
Geography: Denmark
Jes Dietrich’s project aims to develop a vaccine against a common pathogenic bacterium.
Streptococcus Pyogenes (Group A streptococcus, GAS) is a human pathogen causing billions of infections each year throughout the world. GAS is one of the most important bacterial causes of skin and soft tissue infections worldwide. There is no vaccine against GAS and the optimal immunity to protect the skin against GAS infection is still not fully known.
Jes Dietrich and his team have recently characterized the recognition of all GAS proteins in previously infected human adults and children, and successfully identified several GAS antigens that showed protective potential against a GAS skin infection.
Here, they will follow up on these discoveries. The aim is to produce a vaccine hybrid construct that will target several antigens on the bacterial surface as well as several of the bacterium’s early key immune inhibiting functions. Moreover, they will also investigate the immune correlates of skin protection.
Thus, the goal for this project is to develop a vaccine that protects against a GAS skin infection, and which is ready to proceed towards future clinical trials.
Research Stay at Brigham and Women’s Hospital, Boston, USA
Grantee: Beatrice Dyring-Andersen
Amount: DKK 1,157,196
Grant category: Research Networking
Year: 2023
Geography: Denmark
The main purpose of the research stay is to gain hands-on experience on two state-of-the-art technologies, namely spatial transcriptomics, which enables the investigation of gene expression across a tissue and CRISPR technology, which is an advanced method to edit genes within cells to investigate the function of specific genes in health and disease or to modulate cell functionality. These technical skills will be developed as part of two primary research projects to be conducted during the research stay.
Re:solve Global Health
Grantee: Mette Halborg Thorngaard
Amount: DKK 697,700
Grant category: Education and Awareness Grants
Year: 2023
Geography: Denmark
Re:solve is a not-for-profit global journalistic communication platform managed from Denmark sharing insights and solutions to how we can build more equitable health systems and healthier societies. The purpose of the project granted by Leo Foundation is to create awareness about the burden of skin disease and the burden and complexities of disease stigma through production and publication of two in-depth reports on these topics consisting of a number of articles and other communication pieces. The report on skin disease burden will be supplemented by a high-level roundtable discussion during World Health Assemby 2024, and the disease stigma report by a digital roundtable session and workshop.
Biotech Academy
Grantee: Kaare Skovmand Elnegaard
Amount: DKK 193,136
Grant category: Education and Awareness Grants
Year: 2023
Geography: Denmark
The project supports the 2023 Biotech Academy Camp which is a week-long science camp for 30 high school students in October. The camp combines theory and lab work, and this year’s program is focused on societal challenges. It is free of charge and also covers participants’ transportation to the camp, has been executed annually since 2008, and is run by master’s and bachelor students from the Technical University of Denmark and the University of Copenhagen.
Eksemskolen Kalaallit Nunaat
Grantee: Lone Storgaard Hove
Amount: DKK 970,540
Grant category: Education and Awareness Grants
Year: 2023
Geography: Denmark
The overall purpose of the pilot project is to increase awareness about atopic dermatitis in children in Greenland and facilitate treatment in remote areas by creating an Eczema School targeting health care staff with no expert knowledge on skin diseases, afflicted children, and their close relatives. There is a high prevalence of atopic dermatitis in Inuit children and the geographical conditions make diagnosis and efficient care difficult. The idea is to establish a school concept in four different areas, which is ready to be implemented, run, and financed locally in the future, in part by the initiative alleviating some of the current strain on the Greenlandic healthcare system.
Teach First Danmark
Grantee: Jesper Christensen
Amount: DKK 1,443,750
Grant category: Education and Awareness Grants
Year: 2023
Geography: Denmark
Teach First is a nonprofit recruitment program that enrolls academics in an employment-based training program to become certified schoolteachers, mainly within STEM fields and in schools in socio-economically disadvantaged areas. The purpose of the project is to double the reach of the program by preparing an expansion to western Denmark and to increase the financial sustainability of the program via economy of scale and increase of schools’ share of costs.
Outside-to-inside: understanding aberrant proteolysis in primary barrier defects as drivers of atopic dermatitis
Grantee: Ulrich auf dem Keller, Professor, Technical University of Denmark
Amount: DKK 2,865,186
Grant category: Research Grants in open competition
Year: 2023
Geography: Denmark
This project of Ulrich auf dem Keller aims to elucidate the potential role of a set of recently discovered proteins in atopic dermatitis that may contribute to disease development.
Atopic dermatitis (AD) is a chronic inflammatory skin condition that affects people of all ages. It is one of the most common skin diseases, affecting approximately 10-20% of children and 1-3% of adults worldwide. AD can be a frustrating and uncomfortable condition that can significantly impact a person’s quality of life.
Despite extensive research it is not fully clear, if AD is primarily caused by a defect barrier function of the skin, allowing uncontrolled entry of environmental allergens that trigger an immune response, or by immunological disorders that in turn weaken the skin’s protective barrier, exaggerating the disease in a vicious cycle. Most likely, both contribute to predisposition and development of AD, but there are differences between patients which call for customized therapies.
Together with basic skin researchers in Switzerland and dermatologists in Germany, Ulrich auf dem Keller has identified proteins in non-lesional skin of AD patients whose activities might impair skin barrier integrity mostly independent of an immune response. This project will use human skin models and advanced protein analytics to understand if and how they might exert these detrimental activities and thereby contribute to predisposition to AD in affected individuals. Moreover, they will test their findings in samples from AD patients with a long-term aim to contribute to new strategies for development of therapeutics as alternatives to frequently applied emollients in barrier repair therapy.