The Poster Program highlights research from academia and industry in laboratory technologies spanning several diverse market segments and scientific disciplines. There are two poster sessions, one on Monday, January 25 and the second on Tuesday January 26.
Click on a day below to jump to that day's poster. Click on a column heading (e.g. "Author") to sort each day's posters by that column.
Click on a code to view the details of that abstract.
| Monday, January, 25, 2010 |
| Code |
Title |
Author |
Organization |
Track |
| MP01 |
Endotoxin Detection using Electrochemical Method and The Effect Nanoscale Confinment. |
Srivatsa Aithal, M.S. |
Arizona State University |
Micro- & Nanotechnologies |
| MP02 |
ELECTRICAL AND FLUIDIC CHARACTERIZATION OF A NOVEL INTEGRATED SYSTEM FOR AUTOMATIC PATCH-CLAMP ON CULTURED NEURAL NETWORKS |
Massimo Alberti, M.S. |
Technical University of Denmark |
Micro- & Nanotechnologies |
| MP03 |
Integrated Microbioreactor for the Growth and Analysis of Microorganisms – Bacteria, Algae and Yeast |
Sam Au |
University of Toronto |
Micro- & Nanotechnologies |
| MP05 |
A Step by Step Guide: Creating an AnIML File Writer for an Instrument |
Dennis Backhaus |
National Institute of Standards and Technology |
Informatics |
| MP06 |
Automated scanning probe lithography with n-alkanethiol self
assembled monolayers on Au(111) |
Ms. Treva Brown, B.S.,Other |
University of New Orleans |
Micro- & Nanotechnologies |
| MP07 |
Towards Fully Automated Phototransfection |
David Cappelleri, Ph.D. |
Stevens Institute of Technology |
High-Throughput Technologies |
| MP08 |
Elimination of the LC/MS Data Analysis Workflow Bottlenecks in substance QC |
Dr. Mark Bayliss |
Virscidian Inc |
High-Throughput Technologies |
| MP09 |
Towards multi-disciplinary translational research discovery: new methods for automatic screening of drugs on channelopathies. |
Marc Chevalier, Ph.D. |
INSERM U885 - University Bordeaux 2 |
High-Throughput Technologies |
| MP10 |
MANIPULATION OF FUNCTIONALISED MAGNETIC BEADS VIA DOMAIN WALLS CONDUITS |
Marco Donolato, M.S. |
LNESS- Politecnico di Milano |
Micro- & Nanotechnologies |
| MP11 |
Innovative Software Solutions for Chromatography Free High Throughput Applications for Enantiomeric Excess Determination based on Mass Spectrometry |
Dr. Heidi Fleischer, Ph.D. |
Center for Life Science Automation-Celisca |
High-Throughput Technologies |
| MP13 |
Delivery of externally tunable, multifunctional nano-reservoirs through a remote controlled, magnetic field actuated micro-fluidic device |
Santaneel Ghosh, Ph.D. |
Southeast Missouri State University |
Micro- & Nanotechnologies |
| MP14 |
Fully automated fluidic system to sort, dose, microinject, and collect cells |
Mr. Siegfried F. Graf, M.S. |
CSEM SA |
High-Throughput Technologies |
| MP15 |
On chip chronocoulombetric detection of dopamine in the presence of bovine pulmonary arterial endothelial cells (bPAECS) |
Stephen Halpin, B.S. |
Michigan State University |
Detection & Separation |
| MP16 |
A Metadata-Based Infrastructure for Integrating, Analyzing, and Visualizing data in a High Throughput Influenza Laboratory |
Daniel Hecht |
Wiesbaden Computer Integrated Laboratory (WICIL) |
Informatics |
| MP17 |
Massively Parallel Inertial Ordering for High- Throughput Sheathless Imaging Flow Cytometry |
Soojung Claire Hur, M.S. |
University of California, Los Angeles |
High-Throughput Technologies |
| MP18 |
Cell passage process in a microchip |
Ms. ELZBIETA JEDRYCH, M.S. |
Warsaw University of Technology, Department of Microbioanalytics |
Micro- & Nanotechnologies |
| MP19 |
Label-Free Toxin Detection Using Fluorescent Fingerprint Assay |
Govind Kaigala, Ph.D. |
IBM Research GmbH - Zurich |
Detection & Separation |
| MP20 |
Novel Dielectrophoretic device for the early detection of cancer through Nanoparticle Separation and Detection from Blood. |
Rajaram Krishnan, Ph.D.,B.S.,M.S. |
University of California, San Diego |
Detection & Separation |
| MP21 |
Towards Point-Of-Care Diagnostics: Eliminating Sample Preparation in the Detection of Degradative Enzyme Activity in Whole Blood |
Roy Lefkowitz, M.S. |
University of California, San Diego |
Detection & Separation |
| MP23 |
NUMERICAL MODELING AND ANALYSIS OF MAGNETIC NANOPARTICLE ENHANCED MIXING, SEPARATION AND DETECTION ON A MICROFLUIDIC LAB-ON-A-CHIP SYSTEMS |
Ahsan Munir, M.S. |
Worcester Polytechnic Institute |
Detection & Separation |
| MP24 |
Endoscope Location System |
Xuewei Peng |
Peking University |
Detection & Separation |
| MP25 |
EWOD Digital Microfluidic Device for Single Cells Sample Preparation and Gene Expression Analysis |
Dr. Arnaud RIVAL |
Advanced Liquid Logic |
Micro- & Nanotechnologies |
| MP27 |
In Vivo Detection of Neurotransmitter Release and In Situ Receptor Activity with CNiFERs: Cell-based Neurotransmitter Fluorescent Engineered Reporters |
Lee Schroeder, Ph.D. |
University of California, San Diego |
Detection & Separation |
| MP28 |
3D gold Nanogap interdigitated electrode array biosensor for highly specific and sensitive detection of biomolecular interactions |
Kanwar Vikas Singh, Ph.D. |
Department of Physics, Portland State University |
Detection & Separation |
| MP29 |
Modern Analytical Devices for the Express Diagnostics and Environmental Monitoring: Working Prototypes, their Characteristics and Practical Application |
Nickolaj F Starodub |
National University of Life and Environmental Sciences of Ukraine |
Detection & Separation |
| MP31 |
Trans Endothelial Electronic Resistance Measurements on a Microfluidic Device |
Dr. Paul Vogel, Ph.D. |
University of North Carolina at Chapel Hill |
Micro- & Nanotechnologies |
| MP32 |
Microfluidic Chip for High Efficiency Electrophoretic Analysis of Segmented Flow from a Microdialysis Probe and in Vivo Chemical Monitoring |
Meng Wang, Ph.D. |
Department of Chemistry, University of Michigan-Ann Arbor |
Detection & Separation |
| MP33 |
Aptamer-nanoparticles conjugates enhance SPR sensing for the ultrasensitive detection of biomolecules |
Jianlong Wang, Ph.D. |
worcester polytechnic institute |
Detection & Separation |
| MP34 |
Modified Carbon Micro Cloth Electrode Array with Application in Neurochemical Analysis with in vivo Microdialysis |
Susan Warren |
ITT Dublin |
Detection & Separation |
| MP35 |
Using Microfluidic Devices to Investigate Peptide Release from Neuronal Cells with Mass Spectrometry |
Mr. Ming Zhong, Ph.D. |
University of Illinois at Urbana-Champaign |
Micro- & Nanotechnologies |
| MP36 |
APPLICATION OF ENANTIOSELECTIVE TECHNIQUE FOR SIMULTANEOUS ESTIMATION OF SIBUTRAMINE AND ITS ACTIVE METABOLITES IN HUMAN PLASMA BY LIQUID CHROMATOGRAPHY-ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRY |
Vijay Gokarn, M.S. |
Therapeutic Drug Monitoring Laboratory |
Detection & Separation |
| MP37 |
Introduction of DMSO in a cell suspension using microfluidics |
Rohini Bala Chandran, M.S. |
University of Minnesota, Twin Cities |
Micro- & Nanotechnologies |
| MP38 |
Polymeric Nanowire Templates as Scaffolds for Improved Neuronal Cell Functionality |
Samuel Bechara, B.S. |
Colorado State University |
Micro- & Nanotechnologies |
| MP39 |
Nanomonitors: A Proteomics Platform for Early and Rapid Disease Diagnostics |
Gaurav Chatterjee, M.S. |
Arizona State University |
Micro- & Nanotechnologies |
| MP40 |
Measurement of ion currents through porous membranes with scanning ion conductance microscopy |
Chiao-Chen Chen |
Indiana University |
Micro- & Nanotechnologies |
| MP41 |
A microfludic device for rapid antibiotic susceptibility testing |
Hsiang Chia Chen, M.S. |
University of Arizona |
Micro- & Nanotechnologies |
| MP42 |
Cation Exchange High Throughput Process Development |
James Cheung |
University of California |
High-Throughput Technologies |
| MP43 |
High Throughput Continuous Separation and focus bioparticles on-a-Chip via Dielectrophoresis |
Duy Dinh, M.S. |
Institute of Nanoengineering and Microsystem, National Tsing |
Detection & Separation |
| MP44 |
AUTOMATED MULTIPEXED ASSAYS FOR STANDARDIZED CYTOCOMPATIBILITY TESTING OF BIOMATERIALS |
Monica Ferreira, M.S. |
RWTH Aachen University |
High-Throughput Technologies |
| MP45 |
Automated Bioanalytical Sample Preparation: Improving Productivity via Robotic Liquid Handling |
Joseph Tweed, M.B.A.,B.S.,M.S. |
Pfizer, Inc |
High-Throughput Technologies |
| MP46 |
Computer-Aided Molecular Modeling to Advance in Drug Delivery Systems Design |
Mariana Ionita, Ph.D. |
University Politehnica of Bucharest |
Other |
| MP48 |
The Hybrid Workplace |
Sandra Knoch |
Frounhofer IPA |
Informatics |
| MP49 |
DEVELOPMENT AND EVALUATION OF MODIFIED STARCHES FOR CONTROLLED RELEASE APPLICATION AND DESIGN OF CONTROLLED RELEASE TABLETS OF SELECTED ANTI-DIABETIC DRUGS |
RAJESH KONDURI, M.S. |
ANDHRA UNIVERSITY |
High-Throughput Technologies |
| MP50 |
Nanoscale confinement biogenic silica sensors for ultra sensitive protein detection |
Mr. Kai-Chun Lin, Ph.D. |
ASU |
Detection & Separation |
| MP51 |
Oxygen Gradients for Cell Culture Models |
Dr. Joe Fu-Jiou Lo, Ph.D. |
University of Illinois at Chicago |
Micro- & Nanotechnologies |
| MP52 |
Development of a Concept and Prototype for Information Interchange between Heterogeneous Laboratory Data Systems in a Regulated Environment |
Frank Masur |
RheinMain University of Applied Sciences - Wiesbaden R’ssels |
Informatics |
| MP53 |
Determination of Glutathione, Phytochelatins and Metallothioneins in Extracts of Plant Treated with Cadmium by RPLC–FLD–ES-MS |
Agata Miszczak, M.S. |
Warsaw University of technology |
Detection & Separation |
| MP54 |
Steering Laminar Streams for Directional Guidance of Motile Cells |
Samira Moorjani, M.S. |
University of Texas at Austin |
Micro- & Nanotechnologies |
| MP55 |
A novel microfabricated device for hypoxic studies in multiwell plates and Boyden chambers. |
David Eddington, Ph.D. |
University of Illinois at Chicago |
Micro- & Nanotechnologies |
| MP56 |
Reduction of protein adsorption in microchip electrophoresis using lipid nanoparticles |
Pelle Ohlsson |
Technical University of Denmak |
Micro- & Nanotechnologies |
| MP57 |
Biosensors for the Detection of Glucose in Human Interstitial Fluid |
Courtney Fox |
North Carolina State University |
Micro- & Nanotechnologies |
| MP58 |
Multi channel microfluidic device with dynamic extracellular control |
Ivan Razinkov, B.S.,M.S. |
UCSD |
Micro- & Nanotechnologies |
| MP59 |
Modular system for connecting and actuating parallel microfluidic networks |
David Sabourin, B.S. |
DTU Nanotech |
Micro- & Nanotechnologies |
| MP60 |
Polystyrene microwells for cellular islolation |
Elly Sinkala, B.S. |
University of Illinois at Chicago |
Micro- & Nanotechnologies |
| MP61 |
A Microfluidic Platform to Streamline the Discovery of Anti-Microbial Adhesion Therapeutics |
Westbrook Weaver, B.S. |
UCLA Bioengieering |
Micro- & Nanotechnologies |
| MP62 |
Integrated affinity column/capillary electrophoresis microdevices for multi-biomarker analysis in human serum |
Weichun Yang, Ph.D. |
Brigham Young University |
Micro- & Nanotechnologies |
| MP63 |
Sample Preparation Solutions for Multi-Color Flow Cytometric Analysis for Leukocyte Classification Using the Biomek® NXP Span-8 with Gripper Automation Workstation |
AMY YODER |
BECKMAN COULTER |
High-Throughput Technologies |
| MP64 |
Polymer Microchip Capillary Electrophoresis of Proteins either Off- or On-chip Labeled with Chameleon Dye for Simplified Analysis |
Ming Yu, Ph.D. |
Brigham Young University |
Detection & Separation |
| MP65 |
Software Advancements for Performing Compound Identification QC on Large Metabolomic Datasets |
Corey DeHaven |
Metabolon, Inc. |
Informatics |
| MP66 |
Acoustic Droplet Ejection Enables Miniaturized Real-Time qPCR in 1536-Well Plate Format |
Mr. Howard Lee, B.S. |
Labcyte |
High-Throughput Technologies |
| MP67 |
Automation of Human IgG, Glucose, Lactate and Oxygen Assays on Biomek® NX Span-8 Automation Workstation and PARADIGM™ Detection Platform |
Li Liu, Ph.D. |
Beckman-Coulter Inc. |
High-Throughput Technologies |
| MP68 |
pKa measurement using 50 - 100µL aliquots from DMSO stock, no chromophore required |
Jon Mole |
Sirius Analytical Ltd |
High-Throughput Technologies |
| MP69 |
Fully Automated Determination of TAN/TBN in Industrial Samples |
Jerry Rossman, M.B.A. |
Metrohm USA |
Other |
| MP71 |
Fully automated microfluidic approach for structural protein analysis |
Detlef Snakenborg, Ph.D. |
Technical University of Denmark |
Micro- & Nanotechnologies |
| MP72 |
A chip-to-chip nanoliter microfluidic dispenser |
Ms. Ying Zhou, Ph.D. |
Peking university |
High-Throughput Technologies |
| MP73 |
Improving High-Throughput LC-MS Performance through Systematic Optimization and Implementation of UHPLC Technology |
Quhan Zhuomei, B.S. |
Amgen |
High-Throughput Technologies |
| MP74 |
The Nanoliter Pipette And Pipette/MS. |
Drew sauter |
Nanoliter |
Micro- & Nanotechnologies |
| MP75 |
Automated Toxicity Profiling of Small Molecule Compounds in Live Cells |
Peter R. Banks |
BioTek Instruments |
High-Throughput Technologies |
| MP76 |
A Novel Homogeneous, Fluorescence-based Technology for Dual Measure of Phosphodiesterases and their Downstream Effector Kinase Activities in Biochemical and Cell-based Assays |
Peter R. Banks |
BioTek Instruments |
High-Throughput Technologies |
| MP77 |
Comparative Study of the Library Purifications in Drug Discovery by Mass-Directed Preparative HPLC and SFC |
Rui Chen, Ph.D. |
TharSFC, a Waters Company |
Detection & Separation |
| MP78 |
BIST Technology: A Novel Fully Automated Multiplex System for Food Allergen Testin |
Dr. Carl Hilliker |
Precision System Science |
Emerging Areas of Laboratory Automation |
| MP79 |
Simplification by integration- strategies and examples for lab-on-chip devices for daily laboratory routines |
Dr. Claudia Gärtner, Ph.D. |
microfluidic ChipShop GmbH |
Micro- & Nanotechnologies |
| MP80 |
High-Throughput Enzyme Linked Immunosorbent Assay (ELISA) for Environmental Analytes Performed by Molecule Immobilization on the Surface of Magnetic Particles |
Ms. Reija-Riitta Harinen, M.S. |
Thermo Fisher Scientific |
Emerging Areas of Laboratory Automation |
| MP81 |
The 104-well Microplate |
Mr. Mark Herrmann, B.S. |
ARUP LABORATORIES |
Detection & Separation |
| MP82 |
Automation of a Multiplexed Cell-based Assay to measure simultaneously inhibition and induction of the Cytochrome P450 Isoform 3A4 by Small Molecule Compounds |
Brad Larson |
BioTek Instruments, Inc. |
High-Throughput Technologies |
| MP83 |
Automation of Stem Cell Processing Molecular Manipulation in Sterile Closed Single Use System |
Robert Speziale, M.S. |
Invetech |
Detection & Separation |
| MP84 |
High Through-Put DNA Extraction for the Molecular Genetics Laboratory |
Elaine Lyon |
Univ of Utah/ARUP Laboratories |
Detection & Separation |
| MP85 |
A versatile Zone Fluidics sampling interface for the pharmaceutical industry |
Graham Marshall, Ph.D. |
Global FIA |
High-Throughput Technologies |
| MP86 |
Continuous Sample Extraction and Purification by Phase-Transfer Magnetophoresis for Fully Integrated Flow-Through Biomolecular Assays |
Junichi Miwa |
University of Freiburg - IMTEK |
Micro- & Nanotechnologies |
| MP87 |
A novel method for automated cell extraction and isolation from human skin tissue |
Mr. Frank Pretzsch, M.S. |
Fraunhofer IPT |
Detection & Separation |
| MP88 |
An Automated Liquid Handling Strategy for Complex Matrices in Agricultural and Environmental Samples |
Megan Clay |
Gilson, Inc. |
Emerging Areas of Laboratory Automation |
| MP89 |
Scalable open source software framework for laboratory automation and laboratory devices |
Mr. Jonathan Cline, B.S. |
DSP BIO, LLC |
High-Throughput Technologies |
| MP90 |
A FASTER AND SAFER STAINING TECHNIQUE FOR ACID FAST BACILLI IN RESOURCE-POOR SETTING |
Mr. Johnbull Sonny Ogboi, M.S. |
Ahmadu Bello University |
Detection & Separation |
| MP91 |
Exploring the Benefits of Echo Dispensing into Cell Plates
|
Brian Lupotsky |
GlaxoSmithKline |
Micro- & Nanotechnologies |
| MP93 |
Automated Storage - A Strategy for LEAN |
Win Fernald, B.S. |
Pacific Intergrated Handling |
High-Throughput Technologies |
| MP94 |
Solid Substrate Based High Throughput Enzyme Assays for Directed Evolution of Cellulases and Xylanases |
Taran Shilling, Other |
Agrivida Inc |
Emerging Areas of Laboratory Automation |
| MP95 |
Uncovering Dimensional Variability in Standard Microtiter Plate Types |
John Thomas Bradshaw, Ph.D. |
Artel |
Detection & Separation |
| MP96 |
Streamlining IC50 Determinations: Generating High Quality Data on Large Compound Sets. |
Dr. Ramesh Padmanabha, Ph.D. |
Bristol-Myers Squibb |
High-Throughput Technologies |
| MP97 |
Multiplexed Inflammation Assay for High Throughput Screening |
Oksana Sirenko |
Molecular Devices |
High-Throughput Technologies |
| MP98 |
Generation of a hitpicking under Biomek 3.3 using a Biomek FXp and a Cytomat 6002 |
Mr. Jan Wagner |
Private |
High-Throughput Technologies |
| Tuesday, January, 26, 2010 |
| Code |
Title |
Author |
Organization |
Track |
| TP01 |
Multiplex, Bead-Based, Immunoassays of Formalin-Fixed, Paraffin-Embedded Tissue for Pituitary Adenoma Subclassification |
Geoffrey Baird, Ph.D.,M.D.,B.S. |
University of Washington, Seattle |
Detection & Separation |
| TP02 |
Automatic Organization of GC/MS and LC/MS Data into Chemical Libraries |
Corey DeHaven |
Metabolon, Inc. |
Informatics |
| TP03 |
Highly Precise and Accurate Reagent Transfers Utilizing Acoustic Droplet Ejection Offers New Opportunities in Assay Setup |
Mr. Howard Lee, B.S. |
Labcyte |
High-Throughput Technologies |
| TP04 |
Automation of Sample Preparation in Flow Cytometry Analysis of Protein Phosphorylation in Leukocyte Subpopulations |
Li Liu, Ph.D. |
Beckman-Coulter Inc. |
High-Throughput Technologies |
| TP05 |
Automated measurement of extreme pKas |
Jon Mole |
Sirius Analytical Ltd |
Other |
| TP06 |
Fully Automated Sample Preparation for the Content Determination of Tablets |
Jerry Rossman, M.B.A. |
Metrohm USA |
Other |
| TP08 |
Lab-on-a-board – a modular microfluidic approach using functional elements |
Detlef Snakenborg, Ph.D. |
Technical University of Denmark |
Micro- & Nanotechnologies |
| TP09 |
Is Your Automated Liquid Handler Working For Your Assays – Uncovering Errors, Understanding Device Behavior, and Optimizing Methods |
Mr. Keith Albert, Ph.D. |
Artel-USA |
Other |
| TP11 |
TR-FRET HTS Statistical Method for Outlier Identification |
Mr. Patrick J Bingham, B.S. |
Pfizer |
High-Throughput Technologies |
| TP12 |
High Throughput Aneuploidy Detection by Absolute Chromosome Copy Number Determination in Saccharromyces cerevisiae |
Dan Bradford, B.S. |
Stowers Institute for Medical Research |
High-Throughput Technologies |
| TP13 |
New Developments for Dispensing Solid Materials |
Thomas Roddelkopf |
CELISCA |
Micro- & Nanotechnologies |
| TP14 |
Rapid Development of Cell-Based Assays for Screening GPCRs, Ion Channels and Other Targets Using the MaxCyte® STX™ Scalable Transient Transfection System |
James Brady |
MaxCyte, Inc. |
High-Throughput Technologies |
| TP16 |
Realtime Information Management for Human-Automation-Interaction Investigations |
Regina Stoll, M.D. |
University Rostock |
Informatics |
| TP17 |
New Developments in Automated Cell Culturing for High Throughput Applications |
Steffen Junginger, M.S. |
Celisca - Center for Life Science Automation |
High-Throughput Technologies |
| TP18 |
Inkjet System for Protein Crystallography |
Patrick Cooley, M.S. |
Microfab Technologies, Inc. |
Micro- & Nanotechnologies |
| TP19 |
High Throughput Genomics: Robotics Worklists for Creating 1536-well Real Time PCR Assays |
Mrs. Mary Cornett, Ph.D. |
IDEX Health & Science - Innovadyne Products |
High-Throughput Technologies |
| TP20 |
The Cure for Your Biobanking Informatics Challenges |
Mr. Don Crossett |
Thermo Fisher Scientific |
Informatics |
| TP21 |
High-Precision Acoustic Transfer of Buffered Solutions Containing Surfactant and Protein for Miniaturized Biological Assays |
Sammy Datwani |
Labcyte |
Micro- & Nanotechnologies |
| TP22 |
High Throughput Acoustic Cherry Picking and Dose Response Applications on a Highly Flexible Automation Platform |
Jack Dawson |
HighRes Biosolutions, Inc |
High-Throughput Technologies |
| TP23 |
Automation of Surface Plasmon Resonance Sample Preparation |
Amanda Dodds, B.S. |
MedImmune LLC |
High-Throughput Technologies |
| TP24 |
An Automated Procedure for Determining ITSP SPE Analytical Parameters for the Analysis of Cortisol and Cortisone in Urine |
Rick Youngblood, B.S. |
MicroLiter Analytical Supplies, Inc. |
Detection & Separation |
| TP25 |
High-Throughput Analysis of Nucleic Acids Using the LightCycler® 1536 Real-Time qPCR Platform |
THOMAS FROEHLICH, Ph.D. |
ROCHE APPLIED SCIENCE |
High-Throughput Technologies |
| TP26 |
Versatile, Cost-effective Automation of Avian Influenza and Mycoplasma Gallisepticum-Synoviae ELISAs |
Wendy Goodrich, B.S. |
BioTek Instruments, Inc |
Emerging Areas of Laboratory Automation |
| TP27 |
A Rapid and Quantitative Assay for Optimizing Culture Conditions for Selecting and Maintaining Mammalian Cells that Stably Express Recombinant Genes |
Vincent E. Groppi |
Essen Bioscience |
Micro- & Nanotechnologies |
| TP28 |
Automation of a Homogeneous Phospho-ERK1/2 Assay for Use as a General Sensor of GPCR Activation |
Dr. Paul Held, Ph.D. |
BioTek Instruments |
High-Throughput Technologies |
| TP29 |
Automated data mining tools for high resolution LC-MS analysis of biological samples |
Serhiy Y Hnatyshyn, Ph.D. |
Bristol-Myers Squibb Co. |
Detection & Separation |
| TP30 |
Optimization of mixing processes in microplates |
Olaf Hoyer, Other |
Quantifoil Instruments GmbH |
High-Throughput Technologies |
| TP31 |
Rapid Sample-to-Answer System for Infectious Disease Diagnosis |
James TM Hsieh |
IBN |
Detection & Separation |
| TP32 |
Development and Implementation Experience of Transposal System for Automated Cell Culture Waste Management |
KEVIN HUFF, B.S. |
MERCK |
High-Throughput Technologies |
| TP33 |
Acoustic Droplet Ejection Improves Performance of siRNA Transfection and Knock-down for Library-Based Screening |
Carl Jarman |
Labcyte Inc. |
High-Throughput Technologies |
| TP35 |
Fluorescence Based Thermal Melt Assay (TMA) Using a Real Time PCR Machine Compared to Differential Scanning Calorimetry (DSC)
|
Jennifer M Williams |
Pfizer |
High-Throughput Technologies |
| TP36 |
Accuracy of Serial Dilutions Tested Over A Large Dilution Range |
Tanya Knaide |
Artel |
Other |
| TP37 |
Automation methodology for assembling and hybrid bonding of micro fluidic cartridges |
Dr. Agathe Koller, Ph.D. |
University of Applied Sciences |
Micro- & Nanotechnologies |
| TP38 |
A virtual clinical lab test machine for the verification of job scheduling |
Dr. Ja Choon C Koo, Ph.D. |
SUNGKYUNKWAN UNIVERSITY |
Emerging Areas of Laboratory Automation |
| TP39 |
HighRes Biosolutions NanoCell: A Novel Robotic Platform for Multiple Use Laboratories |
Mr. Stephen Kosteski, M.B.A.,B.S. |
Agilent Technologies |
High-Throughput Technologies |
| TP40 |
Optimization of the DNA Purification Protocol for Thermo Scientific KingFisher Flex and the BindIt 3.1 Software |
Arja Lamberg |
Thermo Scientific |
Detection & Separation |
| TP41 |
Randomized, Designed Experiments in High-Density Microtiter Plates |
Lou Locco, M.S. |
Merck |
High-Throughput Technologies |
| TP42 |
New Method for Solubility Testing in Drug Development |
Michael Lopez, M.B.A.,B.S. |
Reaction Analytics Inc. |
Detection & Separation |
| TP43 |
Automated Isolation of gDNA from Large Volumes of Whole Blood |
Rick Luedke |
Hamilton Company |
High-Throughput Technologies |
| TP44 |
Precipitate detection in sample vials in high throughput workcells. |
Jamie Marsay |
Labman Automation Ltd |
Detection & Separation |
| TP45 |
Development of High-Multiplex Array Formats for Roche NimbleGen Microarrays |
David Murray, M.S. |
Roche NimbleGen |
High-Throughput Technologies |
| TP47 |
Rapid Characterization of Tablet Content by Automated Control of a Real Time Desorption Ionization System: High Throughput Analysis of Solid Formulations for Accuracy and Application to Counterfeit Detection |
BRIAN MUSSELMAN, Ph.D. |
IONSENSE, INC. |
High-Throughput Technologies |
| TP48 |
Using Tecan Genesis Workstation to Automate a Cytometric Bead Array (CBA) Immunoassay. |
Al Nadar |
Amgen Inc |
Detection & Separation |
| TP49 |
Mobile Clinical Lab diagnostic units using Wireless Power and Data. |
DONALD NAGY |
CALIFORNIA COMPUTER RESEARCH INC |
High-Throughput Technologies |
| TP50 |
A New Robotic Platform for Cell-based screening of Kinase-Focused Molecules in a Dose Response Format. |
Thomas W Noonan |
EMD Serono Research Institute |
High-Throughput Technologies |
| TP51 |
Improved cell wash performance with the new cell wash head for AquaMax® 2000/4000 plate washers |
Cathy Olsen |
Molecular Devices |
High-Throughput Technologies |
| TP52 |
Hith Throughput Experimentation in Catalyst Synthesis |
Clifford Olson, Ph.D. |
Zinsser NA, Inc. |
High-Throughput Technologies |
| TP53 |
High Throughput Proteomics: Data Logistics |
Daniel J Orton, B.S. |
Pacific Northwest National Laboratory |
High-Throughput Technologies |
| TP54 |
Automated Library Preparation for Illumina’s Next-Generation Sequencing Platform, the Genome Analyzer II. |
Sandra H Ott, B.S. |
IGS |
High-Throughput Technologies |
| TP55 |
Utility of Flow Synthetic Chemistry to Process and Medicinal Chemistry |
Jim Petersen, Ph.D. |
|
Micro- & Nanotechnologies |
| TP56 |
Cellaxess HT - High Throughput Transfection for Genome-Wide RNAi Screening |
Johan Pihl |
Cellectricon AB |
High-Throughput Technologies |
| TP57 |
Five Years of Collaborative Drug Discovery in the Cloud |
Mr. Barry Prom, M.S. |
www.barryprom.com |
Informatics |
| TP58 |
Volume Verification in Steel Probe for Enhanced Process Control |
Dr. Klaus Rehfeldt, Ph.D. |
STRATEC Biomedical Systems AG |
Other |
| TP59 |
Novel High Accuracy Viscous Liquid Dispenser |
IAN RILEY |
Labman Automation Ltd |
High-Throughput Technologies |
| TP60 |
Comparison of Microplate Surface for use with Ion Channel Surrogate Assays using the Hamamatsu FDS6000 fluorescent kinetic imaging microplate reader |
Mark Rothenberg, Ph.D. |
Corning Inncorporated |
High-Throughput Technologies |
| TP61 |
384 Parallel Nanoliter/Microliter Millisecond Non-Contact Induction Based Fluidic Dispensing Onto MALDI Plates and Into Array Tape™ |
Satish Rai |
Douglas Scientific |
High-Throughput Technologies |
| TP62 |
High Throughput Genomics Applications on the Zephyr Genomics Workstation |
Elaine Wong-Ho, Ph.D. |
Caliper LifeSciences |
Emerging Areas of Laboratory Automation |
| TP64 |
Automated Parallel Chromatographic Separations in Process Development |
Mr. Tim Schroeder |
Atoll GmbH |
High-Throughput Technologies |
| TP65 |
Incorporation of Nanopipetting Technology into a Drug Discovery Screening Platform |
Adam Shutes |
Blueprint Medicines |
High-Throughput Technologies |
| TP67 |
Mixing Effectiveness – A Methodology and Study of Microplate Mixing Techniques Including the Ultrasonic HENDRIX SM100 Sample Processor |
Mr. Bruce Jamieson, Other |
Microsonic Systems Inc. |
High-Throughput Technologies |
| TP68 |
MULTI-PARAMETRICAL AND MULTI-FUNCTIONAL MICROELECTRONIC BIOSENSORS |
Nickolaj F Starodub |
National University of Life and Environmental Sciences of Ukraine |
Emerging Areas of Laboratory Automation |
| TP70 |
Automated Technique to Optimize Determination of Liquid Handling Pressure Limits in Highly Automated Blood Screening Systems |
Abel Villca Roque, M.S. |
Roche Molecular Systems |
High-Throughput Technologies |
| TP71 |
Promega’s ADP-Glo™ Kinase Assay performed on BMG LABTECH’s PHERAstar FS and POLARstar Omega Microplate Readers |
E.J. Dell, Ph.D. |
BMG Labtech |
High-Throughput Technologies |
| TP72 |
Improving Screening Results Using Vision Technology |
Mr. Chris Walsh, Other |
Brooks Life Science Systems |
High-Throughput Technologies |
| TP73 |
Open-Access Methodology with Mass-Directed Preparative High-Throughput Supercritical Fluid Chromatography (MS-SFC100) |
ziqiang wang, Ph.D. |
TharSFC, a Waters Company |
High-Throughput Technologies |
| TP74 |
Streamlining the Process To Define and Capture High Throughput Laboratory Information from a Roche 454 Genome Sequencer |
Peggy Weber, M.S. |
Accelerated Technology Laboratories, Inc |
High-Throughput Technologies |
| TP75 |
Automated Cell Transfection in Mammalian Cells Using Biomek® 3000 Laboratory Automation Workstation |
Ruth Zhang, Ph.D. |
Beckman Coulter, Inc. |
High-Throughput Technologies |
| TP76 |
Automated Washing of Magnetic Bead xMAP Assays for Multiplexed Protein and Gene Expression Assays. |
Peter R. Banks |
BioTek Instruments |
Detection & Separation |
| TP77 |
Automated Cell Dispensing into 1536-Well Microplates for HTS Screenin |
Dr. Paul Held, Ph.D. |
BioTek Instruments |
High-Throughput Technologies |
| TP78 |
New Automation for the Vitamin D 1, 25 Solid Phase Extraction and RIA Detection in a 96-well / 104-well Format |
Mr. Mark Herrmann, B.S. |
ARUP LABORATORIES |
Detection & Separation |
| TP79 |
Driving, Tracking and Controlling the Complete Process with a Single Software Platform |
Carl Hull, Other |
UNIConnect |
Informatics |
| TP81 |
Automatic Calibration System for Microplate Spectrofluorometer to Improve the Sensitivity and Dynamic Range |
Dr. Jorma Lampinen, Ph.D. |
Thermo Scientific |
Detection & Separation |
| TP82 |
Automation of a Microplate Cell-based Assay to Measure Activity of the Histamine H1 G-protein-coupled receptor using a novel 3-D Cell Culture Technique |
Brad Larson |
BioTek Instruments, Inc. |
High-Throughput Technologies |
| TP83 |
Supporting the Pipeline for Innovative Technologies in Cancer Research: The National Cancer Institute’s Program for Innovative Molecular Analysis Technologies |
Mark David D Lim, Ph.D. |
National Cancer Institute, NIH |
Other |
| TP84 |
Micro-structured Surfaces Increasing Cell Yield: Advantages for Automated Cell Expansion |
Dr. Lara Marchetti, Ph.D. |
Greiner Bio One |
Micro- & Nanotechnologies |
| TP88 |
Utility of Hybrid Multi-Mode Readers using both Monochromator- and Filter-Based Detection Capabilities as Demonstrated with Fluorescence Polarization, Time-Resolved Fluorescence Resonance Energy Transfer, and Fluorescence Intensity Assays for the Meas |
Xavier Amouretti, Other |
BioTek Instruments, Inc. |
Detection & Separation |
| TP89 |
Evaluation and Commissioning of an Automated Cryovial Dispensing System in a GMP Cell Culture Facility |
Miriam Foster |
The Automation Partnership |
High-Throughput Technologies |
| TP90 |
Automating Label-Free Protein and Fragment-Based Screening Assays using BioLayer Interferometry |
Dr. Sriram Kumaraswamy, Ph.D. |
ForteBio, A Division of Pall Life Sciences |
High-Throughput Technologies |
| TP91 |
PCR Prep and unattended PCR for high throughput Genotyping on an Agilent BioCel Platform |
Marc Valer, B.S. |
Agilent Technologies |
High-Throughput Technologies |
| TP93 |
The Innovative Use of Rapid Prototyping for Developing a Parallel Synthesis Reactor Block |
Jim Petersen, Ph.D. |
|
High-Throughput Technologies |
| TP94 |
Development of Mobile Agents based Robotic Platform for Flexible Laboratory Automation |
Mr. Hyoukryeol Choi |
SungKyunKwan University |
Other |
| TP95 |
Development of innovative high throughput platforms for counter diffusion crystallography and in situ X-ray analysis and data collection |
Dr. Ulrike Honisch, Ph.D. |
Greiner Bio-One GmbH |
High-Throughput Technologies |
| TP97 |
A Novel Device for Extending the Use of a Rotary Evaporator |
Jim Petersen, Ph.D. |
|
High-Throughput Technologies |
| TP98 |
An Integrated Laboratory Robotic System for Autonomous Discovery of Gene Function |
Michael Benway |
Caliper Life Sciences |
Informatics |
| TP99 |
Automated Quantification and Normalization of Nucleic Acids |
JOSEPH LU, B.S. |
BRISTOL-MYERS SQUIBB |
High-Throughput Technologies |
