Impurity profiling of morphine by liquid chromatography-heated electrospray ionization mass spectrometry (LC-HESI-MS)

Abstract: Separation of morphine and its impurities (related substances specified in relevant European Pharmacopoeia monographs, as well as the other naturally occurring coextracted alkaloids) was obtained within a close retention window on a reverse phase HPLC column, eluted with optimized gradient, consisting of methanol and 5 mM ammonium formate, adjusted to pH 10.2. Systematic optimization of the chromatographic conditions was carried out using design of experiments. According to their mass spectra, known and specif… Show more

“…Morphine: 2016 A voltammetric sensor for determination of paracetamol in the presence of morphine [ 313 ]; a short cascade strategy for the stereoselective synthesis of morphine [ 314 ]; extraction of morphine from poppy seeds [ 315 ]; HPLC method for the simultaneous determination of morphine sulfate and naltrexone hydrochloride content in bulk, solid dosage forms [ 316 ]; life cycle assessment from opium poppy farming to the packaging of morphine [ 317 ]; LC-HRMS for the characterization of transformation products and comparison between irradiated samples and those that have not been irradiated [ 318 ]; determination of Morphine in pharmaceutical products by on-line SPE-HPLC [ 319 ]; 2017 solid state vibrational spectroscopic properties of morphine sulfate pentahydrate studied using FTIR-ATR [ 320 ]; review of the research progress on the synthesis of Morphine alkaloids [ 321 ]; Impurity profiling of morphine by LC-HESI-MS [ 322 ]; design and synthesis of carboxylic group functionalized hollow microporous organic capsules for encapsulation of morphine for prolonged release [ 323 ]; characterization of Morphine, Morphine Hydrochloride, and their Hydrates using 1-dimensional and 2-dimensional solid-state NMR and complemented with powder X-ray diffraction, FTIR, and Raman [ 324 ]; one-pot multicomponent approach to synthesize a new series of morphine derivatives [ 325 ]; high-performance thin-layer chromatography-densitometry method for the quantitative analysis of morphine in the tablets of the Ayurvedic medicines [ 326 ]; tandem Brook rearrangement/silicon Polonovski reaction/fragmentation to give formamide derivatives in moderate yields [ 327 ]; asymmetric total synthesis of (−)-morphine [ 328 ]; stability studies of opioid analgesic, morphine-6-O-sulfate in various buffers and biological matrices and analyzed by HPLC-DAD analysis [ 329 ]; Quantum dots (QDs)-labeled antibody fluorescence immunoassays (FLISA) for the rapid detection of morphine for on-site screening of poppy shell added illegally in hot pot soup base [ 330 ]; rapid construction of the 6/6/5 tricyclic framework via a tandem radical cyclization reaction [ 331 ]; Arymo ER - a new abuse deterrent Morphine formulation [ 332 ]; ALERRT((R)) to quantitative measure the effort required to compromise prescription opioid abuse-deterrent tablets [ 333 ]; comparison of the abuse potential of intact and manipulated morphine abuse-deterrent, extended-release injection-molded tablets (morphine-ADER-IMT) with morphine sulfate ER tablets [ 334 ]; compare abuse potential after insufflation of manipulated morphine abuse-deterrent, extended-release injection-molded tablets (morphine-ADER-IMT) with that of marketed morphine ER tablets [ 335 ]; synthesis of morphinans using a programmed serial stereochemical relay […”

Interpol review of controlled substances 2016–2019

“…Morphine: 2016 A voltammetric sensor for determination of paracetamol in the presence of morphine [ 313 ]; a short cascade strategy for the stereoselective synthesis of morphine [ 314 ]; extraction of morphine from poppy seeds [ 315 ]; HPLC method for the simultaneous determination of morphine sulfate and naltrexone hydrochloride content in bulk, solid dosage forms [ 316 ]; life cycle assessment from opium poppy farming to the packaging of morphine [ 317 ]; LC-HRMS for the characterization of transformation products and comparison between irradiated samples and those that have not been irradiated [ 318 ]; determination of Morphine in pharmaceutical products by on-line SPE-HPLC [ 319 ]; 2017 solid state vibrational spectroscopic properties of morphine sulfate pentahydrate studied using FTIR-ATR [ 320 ]; review of the research progress on the synthesis of Morphine alkaloids [ 321 ]; Impurity profiling of morphine by LC-HESI-MS [ 322 ]; design and synthesis of carboxylic group functionalized hollow microporous organic capsules for encapsulation of morphine for prolonged release [ 323 ]; characterization of Morphine, Morphine Hydrochloride, and their Hydrates using 1-dimensional and 2-dimensional solid-state NMR and complemented with powder X-ray diffraction, FTIR, and Raman [ 324 ]; one-pot multicomponent approach to synthesize a new series of morphine derivatives [ 325 ]; high-performance thin-layer chromatography-densitometry method for the quantitative analysis of morphine in the tablets of the Ayurvedic medicines [ 326 ]; tandem Brook rearrangement/silicon Polonovski reaction/fragmentation to give formamide derivatives in moderate yields [ 327 ]; asymmetric total synthesis of (−)-morphine [ 328 ]; stability studies of opioid analgesic, morphine-6-O-sulfate in various buffers and biological matrices and analyzed by HPLC-DAD analysis [ 329 ]; Quantum dots (QDs)-labeled antibody fluorescence immunoassays (FLISA) for the rapid detection of morphine for on-site screening of poppy shell added illegally in hot pot soup base [ 330 ]; rapid construction of the 6/6/5 tricyclic framework via a tandem radical cyclization reaction [ 331 ]; Arymo ER - a new abuse deterrent Morphine formulation [ 332 ]; ALERRT((R)) to quantitative measure the effort required to compromise prescription opioid abuse-deterrent tablets [ 333 ]; comparison of the abuse potential of intact and manipulated morphine abuse-deterrent, extended-release injection-molded tablets (morphine-ADER-IMT) with morphine sulfate ER tablets [ 334 ]; compare abuse potential after insufflation of manipulated morphine abuse-deterrent, extended-release injection-molded tablets (morphine-ADER-IMT) with that of marketed morphine ER tablets [ 335 ]; synthesis of morphinans using a programmed serial stereochemical relay […”

Interpol review of controlled substances 2016–2019