VitalTissue wetenschappelijk onderzoek kan menselijk(er)

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VitalTissue wetenschappelijk onderzoek kan menselijk(er)

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FirstbaseBIO - human brain organoids for studying neurological diseases
Innovation examples
HealthInnovationIn vitro

FirstbaseBIO - human brain organoids for studying neurological diseases

Human neurological diseases are still poorly understood, amongst others because animals are used as a model for the human brain. A way to overcome this problem is to mimic human brain functioning in a dish with organoids. FirstbaseBIO is developing off-the-shelf brain organoids on which neurological diseases can be studied. This 3D platform will be formed by reprogrammed human cells from easily accessible sources, for example urine, skin, or mucosa. The proof of-concept brain organoids will be those from patients who are suffering from adrenoleukodystrophy (ALD), a rare, incurable brain disease that occurs primarily in young boys and is often fatal. With the brain organoid platform, possible medicinal treatments for ALD can be effectively optimised. FirstbaseBIO was nominated for the Venture Challenge 2021 for their development of human brain organoids to study neurological diseases.
03:336 days ago
GUTS BV - small intestine-on-a-chip and advanced computational analysis for compound and protein screening
Innovation examples
HealthToxicologyIn vitro

GUTS BV - small intestine-on-a-chip and advanced computational analysis for compound and protein screening

GUTS BV is a contract research organization offering its 3-dimensional state-of-the-art small intestinal in vitro model in combination with custom computational analysis approaches. The small intestinal model was developed during Dr. Paul Jochems PhD research at Utrecht University in the group of Prof. Roos Masereeuw. In comparison to the current gold standard (Transwell model), they show improvement in cell differentiation (all major specialized cell types present), physiological structure (3D tube- and villi-like structures) and a functional epithelial barrier. After acquiring experimental data from this model computational analysis approaches are used to score and compare measured compounds for all tested biological parameters at once. The combined effort of improved in vitro modelling and data analysis is believed to result in an enhanced preclinical predictability. GUTS BV was nominated for the Venture Challenge 2021 for their development of an intestinal model combined with advanced computational analysis for protein and chemical compound screening. Research papers: https://www.sciencedirect.com/science/article/pii/S0887233318307811 https://www.mdpi.com/2072-6643/12/9/2782/htm https://www.nature.com/articles/s41538-020-00082-z LinkedIn: https://www.linkedin.com/company/71016128/
02:116 days ago
Katja Wolthers (Amsterdam UMC) - virus research in human models: let's show some guts!
Innovation examples
HealthInnovation

Katja Wolthers (Amsterdam UMC) - virus research in human models: let's show some guts!

To study viruses that make people sick, we often use laboratory animals. However, virus infections in animals are different than in humans. New 3D culture models or 'organoids', which look like human organs in a petri dish, offer a unique opportunity to investigate how viruses enter the human body and cause disease. Our research focuses on enteroviruses such as polio. Due to vaccination, polio is rare, but other enteroviruses are increasingly a threat to young children and patients with impaired immune defenses. There are no medications available, because knowledge about infections with enteroviruses is limited. In our research we use organoids to see how enteroviruses enter the human body and by which means you can prevent that, without the use of laboratory animals. With this project we want to show that our technique can replace the use of laboratory animals in virus research.
02:318 months ago
Whole blood assessment of thrombosis tendency
Innovation examples
HealthInnovation

Whole blood assessment of thrombosis tendency

Transgenic animals are often subjected to short and long term experimental models of thrombosis and atherosclerosis with considerable discomfort to the animal. This project aims to: 1) replace (human blood instead of animal blood), 2) reduce (a few drops of blood per test), and 3) refine (replace in vivo by in vitro testing with isolated blood) the use of laboratory animals with two new small blood volume function tests—the perfusion chamber and the thrombin generation test. Both tests will be equipped with a simple detection capability, which is affordable for laboratories. Their application is not only in the field of thrombosis and haemostasis but also for the investigation of other blood-related diseases, such as arteriosclerosis, diabetes and cancer. By Sanne Brouns (Department of Biochemistry CARIM, Maastricht University, the Netherlands) and Linda Herfs (Flowchamber B.V.).
01:2010 months ago

New

FirstbaseBIO - human brain organoids for studying neurological diseases
Innovation examples
HealthInnovationIn vitro

FirstbaseBIO - human brain organoids for studying neurological diseases

Human neurological diseases are still poorly understood, amongst others because animals are used as a model for the human brain. A way to overcome this problem is to mimic human brain functioning in a dish with organoids. FirstbaseBIO is developing off-the-shelf brain organoids on which neurological diseases can be studied. This 3D platform will be formed by reprogrammed human cells from easily accessible sources, for example urine, skin, or mucosa. The proof of-concept brain organoids will be those from patients who are suffering from adrenoleukodystrophy (ALD), a rare, incurable brain disease that occurs primarily in young boys and is often fatal. With the brain organoid platform, possible medicinal treatments for ALD can be effectively optimised. FirstbaseBIO was nominated for the Venture Challenge 2021 for their development of human brain organoids to study neurological diseases.
03:336 days ago
GUTS BV - small intestine-on-a-chip and advanced computational analysis for compound and protein screening
Innovation examples
HealthToxicologyIn vitro

GUTS BV - small intestine-on-a-chip and advanced computational analysis for compound and protein screening

GUTS BV is a contract research organization offering its 3-dimensional state-of-the-art small intestinal in vitro model in combination with custom computational analysis approaches. The small intestinal model was developed during Dr. Paul Jochems PhD research at Utrecht University in the group of Prof. Roos Masereeuw. In comparison to the current gold standard (Transwell model), they show improvement in cell differentiation (all major specialized cell types present), physiological structure (3D tube- and villi-like structures) and a functional epithelial barrier. After acquiring experimental data from this model computational analysis approaches are used to score and compare measured compounds for all tested biological parameters at once. The combined effort of improved in vitro modelling and data analysis is believed to result in an enhanced preclinical predictability. GUTS BV was nominated for the Venture Challenge 2021 for their development of an intestinal model combined with advanced computational analysis for protein and chemical compound screening. Research papers: https://www.sciencedirect.com/science/article/pii/S0887233318307811 https://www.mdpi.com/2072-6643/12/9/2782/htm https://www.nature.com/articles/s41538-020-00082-z LinkedIn: https://www.linkedin.com/company/71016128/
02:116 days ago
Avatar Zoo - teaching animal anatomy using virtual reality
Innovation examples
EducationInnovation

Avatar Zoo - teaching animal anatomy using virtual reality

Animals are essential to train the next generation of scientists understand diseases and develop treatments for humans as well as animals. Therefore, animals are used for educational purposes. Technologies such as Virtual Reality and Augmented Reality can be employed to reduce the number of animals in the future. Prof. Dr. Daniela Salvatori is working on the development of 'Avatar Zoo' together with UMCU and IT. Live animals are replaced by holographic 3D in this flexible platform. With these holograms one is able to study the anatomical, physiological and pathological systems and processes of all kinds of animals. Avatar Zoo won the Venture Challenge 2021 for the development of virtual reality models that can be used for anatomy classes and practical training.
02:406 days ago
SMART OoC platform
Projects
InnovationIn vitro

SMART OoC platform

The SMART Organ-on-Chip project aims to bring Organ-on-Chip technology to the next level, out of the pioneering labs to industrial applications. NWO awarded 4.8 million euro to a large and diverse consortium of universities, companies, research institutes and foundations, brought together by hDMT (Dutch Organ-on-Chip Consortium), that will together develop standardized Organ-on-Chip models. These models will be made to fit the scale and quality that pharmaceutical companies need to use them for development of novel drugs, with better science and less animal use as a result. The project will kick off in autumn 2021. More information on the project will follow in the course of 2021.
02:0641 days ago