Increasing Sensitivity and Minimizing Sample Volume for the Quantification of Therapeutic and Endogenous Cyclic Peptides Using an Integrated Microfluidic Device

The analysis you’ve always desired for nano- to microscale separations The ACQUITY UPLC M-Class System delivers the most robust, reliable, and highest quality nano- to microscale UPLC separations to every laboratory performing LC/MS analyses. With unprecedented usability, the ACQUITY UPLC M-Class System enables laboratories to succeed in analyzing compounds that are severely limited in amount or availability, even amid a complex matrix over several orders of magnitude. Confidently achieve your laboratory goals with high-efficiency ACQUITY UPLC M-Class Columns ranging from 75 µm to 1 mm I.D. by using complementary mass spectrometry to support our full range of column I.D.’s, or run 300 µm to 1 mm I.D. columns with optical detection.The system also offers a range of flexible configurations for HDX technology, UV detection, and 2D analysis.ACQUITY UPLC M-Class System Features: Highest sensitivity - UPLC separations yield increased analyte concentration for higher UV and MS signal responses Maximum chromatographic resolution - New 15k psi-capable ACQUITY UPLC M-Class Columns deliver sub-2-µm particle performance Faster nano- and microscale separations - Increased operating pressures yield maximum flexibility for higher throughput analyses Higher resolution with longer columns - Increased pressure enables more separation power Confidence in sample analysis - New non-reactive wetted surfaces throughout the fluidic path minimize absorptive losses Increased solvent compataibility - Improved range of solvent blends precisely metered for gradient fidelity Increased sample capacity - Sample organizer compatibility allows you to store a wide variety of plates and vials in the system for longer, unattended operation UV compatibility - UV flow cells compatible with 300 µm to 1.0 mm I.D. columns to augment your UPLC/MS analysis Scalability - With flow rates from 200 nl/min to 100 µL/min, achieve the best chromatographic performance, from 75 µm to 1.0 mm I.D. columns covering a 170-fold range of column sizes Increased flexiblity - More value configurations enable a variety of applications, icnreased throughput, and maximized peak capacity

Xevo TQ-S tandem quadrupole mass spectrometer - designed for the most demanding quantitative UPLC/MS/MS applications. The ultimate in tandem quadrupole performance allows you to achieve unrivalled sensitivity and robustness, available to everyone due to the accessibility of the Xevo platform. The Xevo TQ-S gives you class leading sensitivity and robustness, qualitative information when you need it most and accelerated method development for sensitive and robust methods. Reducing complexity, increasing ease of use, and ensuring the correct result every time.

ACQUITY UPLC® HSS (High Strength Silica) T3 Columns contain the first and only 100% silica particle designed, tested and intended for use in applications up to 15000 psi/1000 bar. The ACQUITY UPLC® HSS particle is not an HPLC particle. High pore volume HPLC particles do not possess the mechanical stability necessary to withstand the high column packing and operating pressures of UPLC® separations. The first ligand chemistry in this UPLC®-certified column family utilizes T3 bonding in order to retain and separate polar organic compounds. ACQUITY UPLC® HSS T3 columns possess the superior polar-compound retention, aqueous mobile phase compatibility and ultra-low MS bleed of Atlantis® T3 columns. Easier Method Transfer Since Atlantis® T3 HPLC and ACQUITY UPLC® HSS T3 columns utilize T3 bonding, LC methods can be transferred from HPLC to UPLC® separations. Because Atlantis® and HSS particles are different substrates, some method modification and/or optimization may be required. A compelling benefit of UPLC® technology is the ease and speed at which this method optimization can occur since UPLC® separations offer greater resolution in less time. Moving from XBridge™ HPLC to ACQUITY UPLC® BEH columns is nearly seamless, as the hybrid particle substrates differ only in particle size. However, because of T3 bonding it should be straightforward to make simple adjustments to successfully transfer a separation from an Atlantis® T3 HPLC column to an ACQUITY UPLC® HSS T3 column.