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Onderzoeker
Thomas Enzlein
- Disciplines (Flanders Institute for Biotechnology):Analyse van next-generation sequence data, Celdood, Gedragsneurowetenschappen
- Disciplines (KU Leuven):Neurowetenschappen
Affiliaties
- Laboratorium voor Proteolytische Mechanismen bij Neurodegeneratie (VIB-KU Leuven) (Labo)
Lid
Vanaf11 apr 2018 → 22 aug 2022 - Chávez Gutiérrez Lab (Onderzoeksgroep)
Lid
Vanaf25 sep 2017 → 11 jul 2022
Projecten
1 - 1 of 1
- Computationele Massaspectrometrische Beeldvorming van Amyloïde Plaque Populaties in de Hersenen van Niet-Demente en Ziekte van Alzheimer PatiëntenVanaf5 okt 2017 → 7 jul 2022Financiering: Eigen Middelen zoals patrimonium, inschrijvingsgelden, giften, ....
Publicaties
1 - 7 van 7
- Computational Mass Spectrometry Imaging of Amyloid Plaque Populations in the Brains of Non-Demented and Alzheimer's Disease Patients(2022)
Auteurs: Thomas Enzlein, Lucia Chavez Gutierrez
- Aβ profiles generated by Alzheimer's disease causing PSEN1 variants determine the pathogenicity of the mutation and predict age at disease onset(2022)
Auteurs: Katarzyna Zoltowska, Thomas Enzlein, Rik Vandenberghe, Lucia Chavez Gutierrez
Pagina's: 2821 - 2832 - Label-free cell assays to determine compound uptake or drug action using MALDI-TOF mass spectrometry(2021)
Auteurs: Thomas Enzlein
Pagina's: 5533 - 5558 - M(2)aia-Interactive, fast, and memory-efficient analysis of 2D and 3D multi-modal mass spectrometry imaging data(2021)
Auteurs: Thomas Enzlein
- Following spatial A beta aggregation dynamics in evolving Alzheimer's disease pathology by imaging stable isotope labeling kinetics(2021)
Auteurs: Thomas Enzlein
- Computational Analysis of Alzheimer Amyloid Plaque Composition in 2D-and Elastically Reconstructed 3D-MALDI MS Images(2020)
Auteurs: Thomas Enzlein, Bart De Strooper, Lucia Chavez Gutierrez
Pagina's: 14484 - 14493 - Direct Automated MALDI Mass Spectrometry Analysis of Cellular Transporter Function: Inhibition of OATP2B1 Uptake by 294 Drugs(2020)
Auteurs: Melissa S Unger, Lena Schumacher, Thomas Enzlein, David Weigt, Maciej J Zamek-Gliszczynski, Matthias Schwab, Anne T Nies, Gerard Drewes, Sandra Schulz, Friedrich BM Reinhard, et al.
Pagina's: 11851 - 11859