ECRT Kickbox – Advanced Scientist Grant

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PD Dr. Nathanael Raschzok receives one of the 2017 Einstein Center for Regenerative Therapies (ECRT) Kickbox – Advanced Scientist Grant.
Einstein Center for Regenerative Therapies Kickbox – advanced scientist grant. The project is entitled „Overcoming steatotic compromise – Reconstitution of endogenous repair in severely steatotic liver grafts by metabolic reconditioning“. The project will be conducted by Nathanael Raschzok, Angelika Kusch, Duska Dragun, and Igor M. Sauer.

In order to stimulate excellent and creative research ideas that might take regenerative therapies a vital step forward, the Einstein Center offers a special two-stage funding scheme.
At first, the Kickbox seed grant provides a great framework to investigate initial ideas and to develop sound research concepts. Subsequently, the flexible funds enable the realisation of projects that evolved from the Kickbox initiation phase in order to reach the scientific goals of the Einstein Center.

Congratulations!

ECRT Kickbox – Junior Scientist Grant

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Karl Hillebrandt receives one of the 2017 Einstein Center for Regenerative Therapies (ECRT) Kickbox – Junior Scientist Grant. The project is entitled "Fighting liver cirrhosis? Establishment and analysis of decellularized human cirrhotic liver slices as a 3-dimensional model to study cell matrix interactions".

Liver cirrhosis is one of the main indications for liver transplantation. Due to the organ shortage, this therapy option is limited to the minority of patients suffering from cirrhosis. Therefore, there is a need of alternative treatment options.The aim of our project is to establish a decellularization protocol for human cirrhotic livers slices, which preserves the natural extracellular matrix (ECM) of cirrhotic livers. These decellularized liver slices will serve as a 3 dimensional model to study cell matrix interactions. If we are able to establish a protocol which will preserve the ECM, we will conduct in vitro recellularization experiments to study how the cirrhotic ECM will change the genotype and phenotype of different cell types. With this knowledge we aim to modify specific cell types in vivo or vitro for example prior to cell transplantation. Our ambition is to steer the cell matrix interaction via these modified cells after their transplantation and thereby halt or even reverse the progress of liver cirrhosis. This approach may offer an alternative treatment option in the future.
Team : Karl Hillebrandt, Oliver Klein, Ben Strücker, Igor Sauer

Congratulations!

SPARK Berlin supports Fikatas Knot

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The Berlin Institute of Health (BIH) and Stiftung Charité teamed up with Stanford University School of Medicine to initiate SPARK Berlin.

We are very pleased to announce that Dr. Panagiotis Fikatas' project “Device for ready-prepared surgical knots” was selected for both, funding and mentorship. 

SPARK was created to overcome the hurdles associated with translating academic discoveries into therapeutics and diagnostics that address unmet medical needs.
The SPARK mission is to help academics overcome the obstacles involved in moving their early discoveries from bench to bedside, to educate faculty, postdoctoral fellows and graduate students on the translational research process and path to clinical application, so that development of promising discoveries becomes second nature to our institution, and to develop more cost-effective and innovative approaches to drug development .

Congratulations!

Rebeka Major: BIH-Promotionsstipendium

Rebeka Major successfully applied for the BIH-Promotionsstipendium grant. Her work will focus in the role of the INDY („I’m Not Dead Yet“) gene in liver regeneration – a project in cooperation with Prof. A. Birkenfeld, Universitätsklinikum Carl Gustav Carus in Dresden.
In the Berlin Institute of Health (BIH), the Max Delbrück Center for Molecular Medicine (MDC) and the Charité - Universitätsmedizin Berlin have joined forces. The core idea is to combine translational research with an overarching systems medicine approach to bridge the gap between basic research and clinical application.