has the objective of promoting system-oriented research of diseases by linking life sciences and informatics and establishing a systems medicine network in Germany.
has the objective of promoting system-oriented research of diseases by linking life sciences and informatics and establishing a systems medicine network in Germany.
has the objective of promoting system-oriented research of diseases by linking life sciences and informatics and establishing a systems medicine network in Germany.
has the objective of promoting system-oriented research of diseases by linking life sciences and informatics and establishing a systems medicine network in Germany.
e:Med has the objective of establishing systems medicine in Germany. e:Med promotes system-oriented research into diseases in order to facilitate improved prevention, more comprehensive diagnostics and individually adjusted therapy schemes in individualized medicine. The program brings together scientists with molecular-genetic, clinical, mathematical and information technology expertise, with the objective of ensuring that research results quickly benefit patients.
Electronic processing (e:Med) plays a particularly important role for unraveling scientific questions in iterative cycles of experimental studies and computer modelling approaches. The nationwide research and funding concept has been funded by the Federal Ministry of Education and Research (BMBF) since 2014.
The e:Med Meeting 2022 takes place from November 28-30, 2022 at DKFZ Communication Center in Heidelberg. Join the meeting to discuss your latest research results with fellow scientist from the systems medicine community. Registration deadline is November 14, 2022.
Meeting Website
scATAC-seq allows the examination of accessible DNA regions in single cells. However, the nature of the experimental protocol makes it difficult to reliably analyze and interpret the data. Researchers from the e:Med junior research alliance Fibromap have developed the scOpen tool to analyze these single-cell data in more detail. Their tool leads to a better understanding of renal fibrosis and uncovered a previously unknown role of the Runx1 gene in the progression of this disease.
Highlight from the e:MedIUM
Blood stem cells from the bone marrow produce blood and immune cells. Errors that occur in the genome during division are inherited by the daughter stem cells and can ultimately lead to blood cancer. Using gene expression analysis and single-cell technologies, the team of the e:Med junior research alliance LeukoSyStem has discovered a protective mechanism that renders degenerate stem cells harmless. The results were published in Cell Stem Cell.
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Depression is a major cause of disability worldwide. Due to its complex nature, it is difficult to explain the molecular pathways associated with depression by examining the genetic factors. e:Med junior research alliance CKDNapp chose a metabolomics approach to tackle this problem. The results of their population-wide screen for metabolites revealed laurylcarnitine to be associated with depression. This metabolite is involved in the fatty acid oxidation pathway and may provide new therapy options against depression.
Highlight from the e:MedIUM Newsletter
What to do when a cancer subtype can’t be targeted with drugs or hormones? Researchers of e:Med Her2low alliance focused their attention on understanding the metabolic needs of cancer cells. Their study revealed that cancer cells operate with altered metabolic and nutrient-sensing pathways to sustain tumorigenesis and these alterations might be targeted as a therapy approach
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The e: Med Meeting 2021 took place virtually from September 20-22, 2021 and covered a wide range of cutting-edge research topics in systems medicine. More than 300 participants took the opportunity to discuss their latest research results with their fellow scientists from the systems medicine community.
e:Med Meeting 2021
Scientists from the e:Med junior alliance LeukoSyStem have developed the method MutaSeq, that can distinguish cancer stem cells, mature cancer cells, and healthy stem cells based on their genetics. The method enables researchers to create highly detailed profiles of cancer cells, helping them understand every individual cell from a cancer. The result of this study opens up new possibilities in cancer research.
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G3BP proteins inhibit the metabolic driver MTOR, a signaling protein that plays a central role in tumor diseases and developmental disorders of the brain. This is reported this week in the journal Cell by scientists of the BMBF-funded e:Med junior network GlioPATH together with a Europe-wide research network. G3BP proteins may serve as molecular markers to personalize therapies.
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Success of a kidney transplant depends on how strongly the patient’s immune system reacts to the foreign cells. Scientists from the e:Med consortium e:Kid coordinated by Dr. Nina Babel have now developed the TreaT test, which uses cells from the patient's urine after a kidney transplantation to predict how well the recipient will tolerate the donor kidney. As a result, the accompanying immunosuppressive therapy can be adapted to each individual and over-medication can be prevented.
Highlight from the e:Med newsletter
Scientists from e:Med junior alliance GlioPATH discovered that the metabolic enzyme IL4I1 promotes the spread of tumour cells and suppresses the immune system. IL4I1 is produced to a greater extent in tumours and activates the dioxin receptor. Agents that inhibit IL4I1 could open up new opportunities for cancer therapy in the future. The scientists have now published their results in the journal Cell.
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This year's German Cancer Award in the category "Clinical Research" goes to e:Med scientist Professor Hartmut Goldschmidt. The Heidelberg doctor and scientist heads the CLIOMMICS consortium, which is working on systemic approaches to personalized multiple myeloma therapies. Next to him, Prof. Michael Baumann - scientific director of the DKFZ - and Prof. Thomas Brabletz from Erlangen receive this award in the other categories.
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Michael Floßdorf, Leader of the e:Med junior research group Quan-T-Cell, recieved the Special MTZ Award of the DKFZ 2017 for his outstanding research. The scientist is investiating the immunological memory development and is using nmathematical models for this approach. After his Post-Doc at the DFKZ he now started his own research group in munich.
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