Drug Kinetics – Webinars and Online Events
Webinar
Drugging the Gut Microflora To Reduce Drug Toxicity
On-Demand
This webinar will explore the role of gut bacterial β-glucuronidase (GUS) in drug metabolism.
Webinar
Streamlined Identification of Targeted Protein Degrader Metabolites
On-Demand
This webinar highlights innovative solutions to these challenges, Ebru Selin Sele offers her insights into advanced methodologies for more efficient and accurate metabolite identification.
Webinar
Information-Rich Drug Discovery Enabled by Next-Generation Multiplexing SPR
On-Demand
In this webinar, you’ll discover how SPR can be multiplexed and automated to enable high-throughput, data-rich drug candidate screening against multiple target proteins.
Webinar
Antibody Specificity, Affinity and Kinetics in a Single Experiment
On-Demand
Watch this webinar to learn more about applications for screening and characterizing antibody and antibody fragments plus a label-free technology which uses surface plasmon resonance (a biophysical technology) for characterizing antibodies.
Webinar
Enhancing AAV Purification in Gene Therapy Manufacturing
On-Demand
This webinar highlights the latest affinity chromatography solutions for the quick and easy purification of multiple AAV serotypes across a variety of column setups.
Webinar
Discover New Ways To Increase Your Throughput for Metabolic Stability Assays
On-Demand
In the webinar, we discuss a suite of metabolic stability assays developed using an AEMS system.
Webinar
An Introduction to Grating-Coupled Interferometry (GCI)
On-Demand
With unrivaled flexibility and high sensitivity, the WAVE brings label-free quantification to a whole new world of applications, revolutionizing the study of biomolecular interactions.
Webinar
Improving End-to-End Metabolite Identification by LC-MS/MS
On-Demand
Studies on drug metabolism aid in evaluating the pharmacokinetics, pharmacodynamics and safety during discovery and development.
Webinar
Precision qPCR and dPCR in the Discovery and Development of Cell and Gene Therapies
On-Demand
As a cornerstone of genetic analysis in biological research, quantitative PCR (qPCR) and digital PCR (dPCR) are the most sensitive molecular methods to analyze nucleic acids and play a key role in the development of cell and gene therapies (CGT).
These tools are widely used during CGT development for example in biodistribution, pharmacokinetics and pharmacodynamics of the investigational lead molecule. But many samples, including tissues rich in nucleases, lipids and other inhibiting substances and target molecules that are short or contain modified bases, can be challenging to work with. For these types of samples, assay design using advanced strategies, concentration standards, spike-in controls and validated normalization is key for reliable analyses.
In this webinar, Dr. Kubista will present strategies for implementing reliable qPCR and dPCR analysis in CGT development while highlighting best practices for adhering to MIQE and dMIQE guidelines and the recently released ISO standard, ISO 20395:2019.
These tools are widely used during CGT development for example in biodistribution, pharmacokinetics and pharmacodynamics of the investigational lead molecule. But many samples, including tissues rich in nucleases, lipids and other inhibiting substances and target molecules that are short or contain modified bases, can be challenging to work with. For these types of samples, assay design using advanced strategies, concentration standards, spike-in controls and validated normalization is key for reliable analyses.
In this webinar, Dr. Kubista will present strategies for implementing reliable qPCR and dPCR analysis in CGT development while highlighting best practices for adhering to MIQE and dMIQE guidelines and the recently released ISO standard, ISO 20395:2019.
Webinar
Every Breath You Take: Predicting Inhaled Drug ADME Using Lung-on-a-Chip
On-Demand
The administration of drugs via inhalation into the lungs is superior to many other methods of delivery because our lungs provide a large surface area for absorption, access to the whole blood volume and comparatively little metabolic activity. Currently, there are limited in vitro models in which the absorption and permeability of drugs across the lung and into systemic circulation can be precisely measured.
In this webinar, Dr. Emily Richardson will describe novel lung-on-a-chip (LOAC), otherwise known as lung microphysiolological system, models of the alveoli and bronchi which can be used to accurately predict drug pharmacokinetics, allowing for more rapid, precise and cost-effective analysis of compounds.
In this webinar, Dr. Emily Richardson will describe novel lung-on-a-chip (LOAC), otherwise known as lung microphysiolological system, models of the alveoli and bronchi which can be used to accurately predict drug pharmacokinetics, allowing for more rapid, precise and cost-effective analysis of compounds.
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