In this work,

In this work, Quizartinib manufacturer a push–pull probe was coupled to ESI-MS and a droplet micro-array. This probe was used to analyse dry surfaces via both scanning electrochemical microscopy and droplet deposition on a MALDI

plate. It was also used to image immobilized enzymes under a fluid layer by delivering para-aminophenyl phosphate via the microfluidic probe and analysing the para-aminophenol products by ESI-MS (see also Figure 2b) [6•]. An application where electrowetting-based LOCS are applied in combination with ESI-MS is dried blood spot (DBS) screening. Succinylacetone in DBS samples was quantified using a fully automated, nine-step analysis on an LOC. Interfacing to find more MS was achieved via a removable pulled glass capillary emitter nano-ESI source, inserted between the chip substrates. No statistically significant differences (95% confidence interval)

were found between results obtained with conventional methods and the LOC [16]. Direct infusion-MS (DI-MS) refers to introducing sample into the MS without prior separation. DI-MS chips are marketed by Advion. These systems are capable of delivering robust data, can be used for high-throughput analyses, and utilize disposable tips, thereby not removing

carry-over. Recently it has been used for ganglioside analysis from the human caudate nucleus [17], DBS alpha-galactosidase assaying to diagnose Fabry’s disease [18] and determination of unusual glycosaminoglycans sulphation patterns in murine brain tissue [19]. A competitor for this system is the capillary gap sampler (Figure 2e). Analyte droplets are introduced from a 384-well plate into a liquid junction between a glass capillary supply line and ESI needle [9•]. The main advantage of this system is its ability to sample nanoliters, which is a three-order magnitude improvement over the Advion system. The vast majority of papers reporting the use of chip-based LC (chipLC) utilized commercial systems, for example from Agilent Technologies, Waters Corporation and Eksigent. Miniaturized LC–MS exists in a variant known as nanoLC–MS, which provides extremely sensitive analysis, but can have issues with robustness due to dead volumes and leaks. ChipLC offers a solution for these challenges. ChipLC interfacing to MS is often achieved via tubing to ESI sources or on-chip integrated sprayers coupled to a (special) interface. Monolithically integrated sprayers are also emerging [20].

Comments are closed.