Cancer and the Immune System
More than 100 years ago, Nobel prize-winning German physician and scientist, Paul Ehrlich suggested that the incidence of cancer would be significantly higher if it wasn’t for our immune system – bringing to light immune cells’ incredible ability to recognize, target, seek out, and destroy cancerous cells.
The Birth of Change
Download this infographic to discover six ways that parents can be supported in STEM careers.
The Visible Hero: Breaking Down Barriers
Download this infographic to learn the impact of unconscious gender bias on women in STEM and the global schemes that are celebrating female scientists.
Metabolomics in Clinical Diagnostics
More than 95% of the clinical biochemistry laboratory workload is based on small molecule identification, which can be analyzed through metabolomics-based techniques. In this infographic, we explore how metabolomics has reshaped the clinical diagnostics landscape.
Mycoplasma Facts: Dangers of Contamination in Cell Culture Labs
Download this infographic to discover more about mycoplasma contamination in cell culture labs.
How Using an ELN Can Help Your Lab
Too much paper? Colleagues have awful handwriting? Struggling to get a grip on your data? Electronic lab notebooks (ELNs), digital replacements for paper notebooks, might be the answer. In this infographic, we explore how ELNs can improve the day-to-day work of a research lab.
Mass Spectrometry in Structural Biology
Structural biology combines molecular biology, biochemistry and biophysics. It is concerned with the study of the molecular structure and dynamics of biomolecules, information that can be extremely useful in fields such as medicine. Download this infographic to learn more about the structural biology research field and the use of cross-linking mass spectrometry in this space.
Women in STEM
Download this infographic for a global perspective of women in STEM.
Analytical Characterization of Biotherapeutics
Biotherapeutics now represent a rapidly growing portion of the pharmaceutical market. Download this infographic to learn more about what biotherapeutics are, why it is important to characterize and analyze them and four key approaches for biotherapeutic characterization and analysis.
Personalized Medicine and Cancer
The aim of personalized medicine is to a move away from the traditional “one size fits all” approach to the treatment of diseases – such as cancer. For patients where standard clinical options have been exhausted, novel personalized therapeutics may be required. Patient-derived cancer models, such as “organoids”, can help predict an individual’s response to a drug – both efficacy and toxicity – prior to administration.