This application note describes the operating conditions for the automated fractionation of Extractable Petroleum hydrocarbons (EPH) into aliphatic and aromatic (PAH) fractions using the ISOLUTE EPH SPE column in conjunction with the Extrahera automation system.
Acenaphthene Acenapthalene Aliphatic hydrocarbons Anthracene Application Notes Aromatic hydrocarbons Benzo(a)anthracene Benzo(a)pyrene Benzo(b)fluoranthene Benzo(ghi)perylene Benzo(k)Fluoranthene Chrysene Column Dibenzo(ah)anthracene English Environmental Extrahera Fluoranthene Fluorene GC-MS Indeno(123-cd)pyrene Napthalene Phenanthrene Polyaromatic Hydrocarbons (PAH) Pyrene Soil
The document is for systems with the Extrahera 1.5.4 software installed. Contents: System Overview; Power Failure; Manage Solvents, Sample Types, Plates, Racks, and Pipette Tips; Set Up a Method; Run Single or Multiple Methods; Maintenance; Manual Control; Troubleshooting; Switch Between 24, 48, and 96 Format; General Information
Translated versions of the Safety chapter available in the Biotage® Extrahera™ Installation and Safety document (P/N 414157). Languages: Chinese, Danish, Dutch, Finnish, French, German, Greek, Italian, Japanese, Portuguese, Spanish, and Swedish.
This product sheet compares automated sample preparation using the Biotage®Extrahera™ to an equivalent manual method utilizing a vacuum manifold. A selection of beta blocker drugs were extracted from pooled stripped plasma using a supported liquid extraction procedure.
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.
This document compares automated sample preparation using the Biotage® Extrahera™ to an equivalent manual method utilizing a vacuum manifold. A selection of non-steroidal anti-inflammatory drugs (NSAIDS) were extracted from pooled stripped plasma using a supported liquid extraction procedure.
This poster discusses the potential for a single extraction protocol for various drugs of abuse classes in whole blood prior to UPLC-MS/MS analysis. SOFT 2017, Boca Raton
This poster demonstrates that a large urine panel, comprised of 43 DOAs, from multiple drug classes, can be simultaneously screened by mixed-mode cation exchange SPE (using EVOLUTE EXPRESS CX 96 well plates) despite their disparate intermolecular traits, by thoughtfully selecting appropriate organic wash and elution conditions that simultaneously enable sample isolation and detection along with minimizing sample matrix effects. The extraction method is automated using the Biotage® Extrahera™ Automated sample Preparation Platform. MSACL 2017, Palm Springs SOFT 2017, Boca Raton
96-well plate Benzodiazepines Carbamates Carisoprodol Clinical Drugs of Abuse English Extrahera Forensic Gabapentin Hydrolysed urine LC-MS/MS Meprobamate Opiates Pain Management Posters Pregabalin Stimulants Urine
This poster demonstrates a fast, reliable protocol to extract multiple drug of abuse panels from whole blood using a common supported liquid extraction methodology. This benefits laboratory workflow where multiple assays are run each day, saving both worker hours and consumable costs. SOFT 2015 ASMS 2016 TIAFT 2016
2-Hydroxyethylflurazepam 2C-B 5-APB 6-APB 6-acetylmorphine (MAM) 7-Aminoclonazepam 7-Aminoflunitrazepam Alprazolam Amobarbital Amphetamine Anhydroecgonine Methyl Ester AEME BZP Benzoylecgonine Bromazepam Butabarbital Butalbarbital Butylone Clinical Clonazepam Cocaethylene Cocaine Cocaines Codeine Column Diazepam Dihydrocodeine (DHC) Drugs of Abuse Ecgonine Methyl Ester EME English Estazolam Ethylone Flunitrazepam Flurazepam Forensic GC-MS Hexobarbital Hydrocodone Hydromorphone Lorazepam MDA MDEA MDMA MDPV Mephedrone Methamphetamine Methcathinone Methedrone Methylone Midazolam Morphine Naphyrone Nitrazepam Nordiazepam Oxazepam Oxycodone Oxymorphone Pentobarbital Phenobarbital Posters Secobarbital TFMPP Temazepam Triazolam Whole blood mCPP pMMA α-OH Triazolam α-OH alprazolam
This poster compares the performance of manual processing to a novel automated sample preparation system prior to GC/MS or LC-MS/MS analysis in forensic toxicology applications. Emphasis is placed on the potential for 96-well cross contamination and strategies for its elimination. TIAFT 2016 SOFT 2016
2-Hydroxyethylflurazepam 2-OH-Et-Flurazepam 6-acetylmorphine (MAM) 7-Aminoclonazepam 7-Aminoflunitrazepam 96-well plate Alprazolam Amphetamine Amphetamines Benzodiazepines Bromazepam Buprenorphine Clinical Clonazepam Codeine Column Diazepam Dihydrocodeine (DHC) Drugs of Abuse EDDP English Estazolam Extrahera Fentanyl Flunitrazepam Flurazepam Forensic GC-MS Hydrocodone Hydromorphone Ketamine LC-MS/MS Lorazepam MDA MDEA MDMA Mephedrone Methadone Methamphetamine Midazolam Morphine Nitrazepam Norbuprenorphine Nordiazepam Norfentanyl Norketamine Opiates Opiates Oxazepam Oxycodone Oxymorphone Phencyclidine (PCP) Posters Temazepam Triazolam Urine Whole blood Zaleplone Zolpidem Zopiclone z-drugs α-OH Triazolam α-OH alprazolam
Most drugs are excreted in urine as glucuronide conjugates. Hydrolysis using a beta-glucuronidase enzyme to convert the metabolites to their “free” form for analysis increases sensitivity. Red abalone (Kura Biotech), abalone (Campbell Scientific), and recombinant (IMCSzyme) beta-glucuronidase enzymes were evaluated to determine which provided the most complete hydrolysis of glucuronide metabolites without effecting the overall recovery of non-conjugated compounds. EVOLUTE EXPRESS CX 96-well plates were used to extract hydrolysed urine samples, and the impact of th enzymes was compared. MSACL 2017, Palm Springs SOFT 2017, Boca Raton
6-acetylmorphine (MAM) 7-Aminoclonazepam 96-well plate Alprazolam Amitriptyline Amphetamine Amphetamines Analgesics Barbiturates Benzodiazepines Benzoylecgonine Butalbarbital Carbamates Carisoprodol Chlordiazepoxide Clinical Clonazepam Cocaine Cocaines Codeine Diazepam Dihydrocodeine (DHC) Drugs of Abuse EDDP English Fentanyl Forensic Gabapentin Hydrocodone Hydrolysed urine Hydromorphone Ketamine LC-MS/MS Lorazepam MDMA Meperidine Meprobamate Methadone Methamphetamine Morphine N-des-tapentadol Naloxone Norbuprenorphine Nordiazepam Norfentanyl Norhydrocodone Norketamine Normeperidine Nortryptiline Opiates Over the counter pharmaceuticals Oxazepam Oxycodone Oxymorphone Pain Management Pharmaceuticals Phencyclidine (PCP) Phenobarbital Posters Pregabalin Ritalinic acid Secobarbital Stimulants THC metabolites THC-COOH Tapentadol Zolpidem Zolpidem-phenyl-4-COOH z-drugs α-OH alprazolam
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.
This application note describes a simple, effective protocol for the extraction of methylmalonic acid (MMA) from serum using EVOLUTE® EXPRESS AX solid phase extraction plates. Samples are prepared using the EVOLUTE EXPRESS load-wash-elute procedure. The method can be easily automated using the Biotage Extrahera. Details of the automated procedure and data comparing manual and automated method performance are included.
This application note describes a simple, effective ISOLUTE® PLD+ protocol for the extraction of methylmalonic acid (MMA) from serum, demonstrating high, reproducible analyte recoveries with low protein and phospholipid content in the extracts. The method can be easily automated using the Biotage Extrahera. Details of the automated procedure and data comparing manual and automated method performance are included.