Latest Posters
Poster
Intact Protein LC-MS: How to Overcome the Challenges?
Purpose: Facilitate intact protein LC-MS without compromising performance.
Methods: Construct prototypes of integrated column and sprayer dedicated for intact protein separations and compare performance.
Results: Three prototypes have been directly compared and all showed good protein separations, each with their unique area of strength.
Methods: Construct prototypes of integrated column and sprayer dedicated for intact protein separations and compare performance.
Results: Three prototypes have been directly compared and all showed good protein separations, each with their unique area of strength.
Poster
On-chip quantification of miRNA using digital droplet PCR
miRNAs have a great potential in diagnostics. Hence, automated profiling of miRNAs are of great interest. In-house technology show that it is possible to implement a multiplexing assay for miRNAs on a microfluidic chip using digital droplet PCR.
Poster
Targeted cancer therapy based on blocking the expression of genes and small doses of oxaliplatin.
The major drawbacks of the prescribed chemotherapy, are still remain the significant side effects and drug - resistance. Even targeted chemotherapy by means of specific antibodies do not always help to solve these complications. Our purpose was to identify potential biological targets associated with the development of drug resistance and to develop a specific method of suppressing the viability of cancer cells exposed to low doses of standard chemotherapy.
Poster
Comparison of Three Methods for the Evaluation of Cytokine Storm Risk in Early and Clinical Stage Biopharmaceutical Development
Objective: To identify an assay that can accurately predict the risk of CRS and CS associated with investigational biotherapeutics. A comparison of three methods were used: (a) immobilization of test antibody on plastic, (b) co-culture of PBMC's on HUVEC's and (c) pre-culture of PBMC's at high cell density.
Poster
Cloud Point Extraction of Metal Oxide Nanoparticles in Water Samples Identified by Raman Spectroscopy and Quantified by Atomic Absorption Spectroscopy
Nanoparticles that are widely used in commercial products pose a threat to human health and the environment. This project proposes a cheaper and more effective method to identify and quantify metal oxide nanoparticles in water samples.
Poster
Cloud Point Extraction of Metal Oxide Nanoparticles in Water Samples Identified by Raman Spectroscopy and Quantified by Atomic Absorption Spectroscopy
Nanoparticles that are widely used in commercial products pose a threat to human health and the environment. This project proposes a cheaper and more effective method to identify and quantify metal oxide nanoparticles in water samples.
Poster
A multianalyte algorithm PCR-based blood test outperforms single analyte ELISA-based blood tests for neuroendocrine tumor detection
In a prospective study, in age-/sex- and ethnicity-matched patients and controls (n=82), a 51 panel multigene blood transcript test (NETest) was identified to be significantly more sensitive and accurate (>93%) than any single analyte assay (Chromogranin A, Pancreastatin or Neurokinin A) for neuroendocrine tumor detection.
Poster
Droplet Microfluidics for 3D Epithelial Cell Culture
The challenge facing 3D cell culture today is to adapt current models to a systems biology approach - in particular, to enable RNA interference-based screens to study the effects of the microenvironment on cellular function.
Poster
New Sorbent from Agro-industrial Waste and its Potential Use in 17ß-Estradiol and 17α-Ethynylestradiol Removal
In recent years, the increasing introduction of new chemicals in the market, and the development of more accurate analytical methods, added a variety of endocrine disruptors compounds (EDC). Even though they are found in very low concentrations (range of ng L-1) there is still a lack of knowledge about long-term risks of EDC for non-target organisms as well as for human health.
Poster
Droplet Microfluidics for 3D Epithelial Cell Culture
The challenge facing 3D cell culture today is to adapt current models to a systems biology approach - in particular, to enable RNA interference-based screens to study the effects of the microenvironment on cellular function.
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