Part No: P136Issued year: 2015File size: 0.6mbFile type: pdf
This poster compares the use of supported liquid extraction (ISOLUTE® SLE+) and a novel protein and phospholipid depletion plate (ISOLUTE® PLD+), for the extraction of 25-hydroxy vitamin D. The manual extraction protocols were transferred to an SPE automation platform (Biotage® Extrahera)and method performance versus manual processing compared.
MSACL EU 2015
Part No: PPS366Issued year: 2014File size: 1.76mbFile type: pdf
Automated sample preparation using the Biotage®Extrahera™ was compared to an equivalent manual method utilizing a vacuum manifold. Analytes were extracted from pooled stripped plasma using a supported liquid extraction procedure.
Part No: P126Issued year: 2015File size: 0.48mbFile type: pdf
This poster demonstrates the use of a novel protein and phospholipid depletion plate, for the extraction of 25-hydroxy vitamin D from serum. The extraction protocol was ultimately transferred to an SPE automation platform and method performance versus manual processing was compared.
Part No: P064Issued year: 2014File size: 0.47mbFile type: pdf
This poster presents a simple method for the extraction and subsequent detection of both the traditional hydroxy metabolites and the biologically active dihydroxy metabolites in serum. High analyte recoveries and low ion suppression were demonstrated, allowing limits of quantitation at low pg/mL levels for the di-OH metabolites and < 1 ng/mL levels for the OH metabolites.
Part No: P120Issued year: 2015File size: 0.63mbFile type: pdf
This poster describes a comparison of 25-hydroxy Vitamin D Extraction using Supported Liquid Extraction and Phospholipid Depletion Plate Technology using Manual and Automated Sample Preparation prior to LC/MS Analysis. It was presented at MSACL 2015, San Diego
Part No: AN842.V.1Issued year: 2016File size: 2.19mbFile type: pdf
ISOLUTE® PLD+ Protein and Phospholipid Removal plates offer a substantial improvement in extract cleanliness compared to traditional protein precipitation techniques for bioanalytical sample preparation.
This application note describes a simple, effective ISOLUTE® PLD+ protocol for the extraction of 25-hydroxy vitamin D from serum, demonstrating high, reproducible analyte recoveries with low protein and phospholipid content in the extracts.
Included in this application note are the detailed settings for implementing the method on the Biotage Extrahera automation system.
Part No: AN945Issued year: 2020File size: 4.63mbFile type: pdf
This application note describes the extraction of a panel of fat soluble vitamins (including those representing Vitamins A, D, E & K) from human serum using ISOLUTE® SLE+ Supported Liquid Extraction plates prior to LC/MS analysis.
The simple sample preparation procedure delivers clean extracts and analyte recoveries approximately or above 90% with RSDs 10% or less for all analytes.
Part No: AN757Issued year: 2012File size: 1.61mbFile type: pdf
Vitamin D deficiency can result in a variety of health issues such as osteoporosis, liver and kidney problems, it is often associated with increased risk of cancers and multiple sclerosis. From this standpoint vitamin D monitoring is on the rise and of significant clinical relevance. This method describes the use of ISOLUTE SLE+ plates for the efficient and simple extraction of the vitamin D metabolites 25-OH vitamin D2 and 25-OH vitamin D3. Incorporated into the procedure is an integral protein binding disruption step which maximizes analyte recovery and eliminates the need for any offline protein disruption. This method has been internally validated using DEQAS approved serum samples and deuterated internal standards the results obtained are better than that required for criteria for acceptable performance for
DEQAS approval. All recoveries were consistently greater than 90% with all RSDs < 10% at LOQs of 1-3.75 ng/mL.
Vitamin, Vitamin D, VitaminD, D, Clinical, SLE+, SLE, ISOLUTE, Metabolites, Supported Liquid Extraction, 25 Hydroxy Vitamin D,
Part No: P089Issued year: 2014File size: 0.79mbFile type: pdf
This poster presents a novel method for the simultaneous extraction, derivatization and subsequent detection of both the traditional 25-hydroxy and the biologically active 1α,25-dihydroxy vitamin D metabolites in serum.