Free “Sunrise Tutorials” will be held on Tuesday, Wednesday, and Thursday mornings from 8:00 to 8:50 am, with two parallel talks each morning. The tutorial track is part of the educational mission of HPLC 2022. Experts are asked to give presentations on a topic with more background than might be found in a typical 20-minute talk. The goal is to make the topic more accessible to those less expert in the area. In some cases, discussion and other interactive activities may be used. (Open to all conferees, first-come seating).
The topics and times of the tutorial sessions are as listed below.
Tuesday, June 21, 8;00–8:50 am
"Introduction to Untargeted LC-MS Analysis"
Tiffany Liden, The University of Texas at Arlington
Palm Rooms 1-2-3
“LC/MS Strategies for Top-down Proteomics"
Eli Larson, University of Wisconsin-Madison
Palm Rooms 4-5-6
Wednesday, June 22, 8;00–8:50 am
"Making Sense of Proteomics Data in Biological Context: Data Analysis for Proteomics"
Christian G. Huber, University of Salzburg, Salzburg, Austria
Palm Rooms 1-2-3
“Introduction to Supercritical Fluid Chromatography"
Blair K. Berger, The University of Texas at Arlington
Palm Rooms 4-5-6
Thursday, June 23, 8;00–8:50 am
"Isocratic and Gradient HPLC Method Development"
Jiri Urban, Masaryk University, Brno, Czech Republic
Palm Rooms 1-2-3
“Advanced Signal Processing Toolbox for Separation Scientists"
M. Farooq Wahab, University of Texas at Arlington
Palm Rooms 4-5-6
Profiling Volatile Organic Compounds in Whisky with GC×GC–MS
November 1st 2024Researchers from Austria, Greece, and Italy conducted a study to analyze volatile organic compounds (VOCs) present in Irish and Scotch whiskys using solid-phase microextraction (SPME) Arrow with comprehensive two-dimensional gas chromatography coupled to mass spectrometry (GC×GC–MS) to examine the organoleptic characteristics that influence the taste of spirits.
GC–MS Targeted Analysis of PFAS Helps Expand Knowledge of Toxicokinetic Data
November 1st 2024Limited toxicokinetic and toxicologic information is available about a diverse set of per- and polyfluoroalkyl substances (PFAS), but methods based on gas chromatography–tandem mass spectrometry (GC–MS/MS) can help unravel some of the mystery.
AI and GenAI Applications to Help Optimize Purification and Yield of Antibodies From Plasma
October 31st 2024Deriving antibodies from plasma products involves several steps, typically starting from the collection of plasma and ending with the purification of the desired antibodies. These are: plasma collection; plasma pooling; fractionation; antibody purification; concentration and formulation; quality control; and packaging and storage. This process results in a purified antibody product that can be used for therapeutic purposes, diagnostic tests, or research. Each step is critical to ensure the safety, efficacy, and quality of the final product. Applications of AI/GenAI in many of these steps can significantly help in the optimization of purification and yield of the desired antibodies. Some specific use-cases are: selecting and optimizing plasma units for optimized plasma pooling; GenAI solution for enterprise search on internal knowledge portal; analysing and optimizing production batch profitability, inventory, yields; monitoring production batch key performance indicators for outlier identification; monitoring production equipment to predict maintenance events; and reducing quality control laboratory testing turnaround time.