Areas of Application
Our NMR-based Metabolomics Platform is able to analyse cells at different levels of complexity:
- adherent and suspension cell-culture
- Primary tissue
Moreover our Metabolomics Platform is able to be adapted to different fields of applications:
- General metabolism analysis
- Toxicology assay (development)
- Pharmacology assay (development)
- Drug metabolism
We developed a planar NMR-sample loading and analysing system, that is suitable to contain and sustain cultured cells, spheroids, organoids and tissue over several days under stable conditions. Our Metabolomics Platform is able continuously monitor metabolites and small molecules. Using the controlled pulses technique you are able to get specific information about a certain metabolite, amino acid, drug or other small molecule. We are able to perform:
- snap-shot measurements
- integrated live measurements for low abundant metabolites/molecules
- online and offline kinetics
NMR based technologies are frequently used to identify and characterise small chemical molecules at a highly reliable level. In current approaches NMR techniques are frequently adapted to analyse cells, tissues and organs and retrieve chemical information in a space resolved manner. We present an easy-to-handle NMR-based technology development that is suitable for a wide range of applications with a high amount of flexibility and possibilities for adaption to specific applications.
Several prototypes are available and currently used in application based research projects.
Compared to already available solutions in NMR-based cell- and tissue analysis our Metabolomics Platform grants several advantages:
- easy to handle (no need to remove cells from cultured environment)
- flexible in a wide range of applications
- easy and cost-efficient in production
- Suitable for chemical analysis and imaging
Intelectual property rights
Granted: DE102014107296, DE102014115702, DE102015115996
Application: DE102014115572, PCT/EP2016/071535, DE102015115440, PCT/EP2016/072253
Gogiashvili, M., Telfah, A., Lambert, J., & Hergenröder, R. (2017). A flow microslot NMR probe coupled with a capillary isotachophoresis system exhibits improved properties compared to solenoid designs. Analytical and Bioanalytical Chemistry, 409(9), 2471-2475.
Gogiashvili, M, Edlund, K, Gianmoena, K, Marchan, R, Brik, A, Andersson, JT, Lambert, J, Madjar, K, Hellwig, B, Rahnenführer, J, Hengstler, JG, Hergenröder, R & Cadenas, C 2017, 'Metabolic profiling of ob/ob mouse fatty liver using HR-MAS H-1-NMR combined with gene expression analysis reveals alterations in betaine metabolism and the transsulfuration pathway' Analytical and Bioanalytical Chemistry, Bd 409, Nr. 6, S. 1591-1606.
Gogiashvili, M, Horsch, S, Marchan, R, Gianmoena, K, Cadenas, C, Tanner, B, Naumann, S, Ersova, D, Lippek, F, Rahnenführer, J, Andersson, JT, Hergenröder, R, Lambert, J, Hengstler, JG & Edlund, K 2016, 'Impact of intratumoral heterogeneity of breast cancer tissue on quantitative metabolomics using high resolution magic angle spinning 1H-NMR' NMR in Biomedicine.
Kalfe, A., Telfah, A., Lambert, J., & Hergenröder, R. (2015). Looking into Living Cell Systems: Planar Waveguide Microfluidic NMR Detector for in Vitro Metabolomics of Tumor Spheroids. Analytical Chemistry, 87(14), 7402-7410.