Hollow fiber–liquid phase microextraction of barbiturates in liver samples

“…= not reported; Na2SO4 = sodium sulfate; NaCl = sodium chloride; NDMD = N-desmethyldiazepam; NPD = nitrogen-phosphorus detector; OF = oral fluid; P = plasma; PDHID = pulsed-discharge helium ionization detector-helium ionization detector; PP = polypropylene; ps = pore size; PVDF = polyvinylidene difluoride; T = temperature; THC-COOH = 11-nor-Δ9-tetrahydrocannabinol-9-carboxylic acid; THC = Δ9-tetrahydrocannabinol; wt = wall thickness; U = urine; ULC = ultrahigh performance liquid chromatography; UV = ultra-violet 2.5. Three-phase HF-LPME One hundred and forty-two bioanalytical methods were described in 136 publications fit the inclusion criteria (Table 3) [64][65][66][67][68][69][70][71], breast milk [72][73][74], serum [75,76], oral fluid [77,78], hair [79], or liver [80].…”

“…One study used hair to analyse amphetamine-type stimulants [79] whilst another study [80] used liver samples to analyse barbiturates, and due to the complexity of dealing with these matrices, the sample preparation is more complex and is detailed in the articles. [64] showed that by changing the dimensional parameters of the hollow fibers it is possible to obtain a considerably shorter equilibrium time, mainly when complex biological matrices are used.…”

“…Apart from one study [56], all of them employed EME, which explains why the methods were shorter. Even though two other studies [69,80] [110]. One of the advantages of using EME is that it usually does not require sample pre-treatment [68,70,120,150,157].…”

A review of the application of hollow-fiber liquid-phase microextraction in bioanalytical methods – A systematic approach with focus on forensic toxicology

“…= not reported; Na2SO4 = sodium sulfate; NaCl = sodium chloride; NDMD = N-desmethyldiazepam; NPD = nitrogen-phosphorus detector; OF = oral fluid; P = plasma; PDHID = pulsed-discharge helium ionization detector-helium ionization detector; PP = polypropylene; ps = pore size; PVDF = polyvinylidene difluoride; T = temperature; THC-COOH = 11-nor-Δ9-tetrahydrocannabinol-9-carboxylic acid; THC = Δ9-tetrahydrocannabinol; wt = wall thickness; U = urine; ULC = ultrahigh performance liquid chromatography; UV = ultra-violet 2.5. Three-phase HF-LPME One hundred and forty-two bioanalytical methods were described in 136 publications fit the inclusion criteria (Table 3) [64][65][66][67][68][69][70][71], breast milk [72][73][74], serum [75,76], oral fluid [77,78], hair [79], or liver [80].…”

“…One study used hair to analyse amphetamine-type stimulants [79] whilst another study [80] used liver samples to analyse barbiturates, and due to the complexity of dealing with these matrices, the sample preparation is more complex and is detailed in the articles. [64] showed that by changing the dimensional parameters of the hollow fibers it is possible to obtain a considerably shorter equilibrium time, mainly when complex biological matrices are used.…”

“…Apart from one study [56], all of them employed EME, which explains why the methods were shorter. Even though two other studies [69,80] [110]. One of the advantages of using EME is that it usually does not require sample pre-treatment [68,70,120,150,157].…”

A review of the application of hollow-fiber liquid-phase microextraction in bioanalytical methods – A systematic approach with focus on forensic toxicology

“…Existe ainda a possibilidade da substituição dos solventes orgânicos por óleos essenciais ou óleos fixos de plantas, tornando, assim, a LPME uma técnica de extração livre de solvente orgânico (PEDERSEN-BJERGAARD e RASMUSSEN, 2004;MENCK, OLIVEIRA et al, 2012).…”

“…É sabido que o tempo de extração é um fator fundamental para a extração, porém estabelecemos o mínimo de tempo (5 min) em banho ultrassônico para realizar uma análise rápida. O aperfeiçoamento dessa técnica em nossos experimentos nos permitiu, assim, o processamento de várias amostras simultaneamente MENCK, OLIVEIRA et al, 2012).…”

Redistribuição postmortem de barbitúricos em tecidos biológicos humanos

High-throughput analysis of ramelteon, agomelatine, and melatonin in human plasma by ultra-performance liquid chromatography–tandem mass spectrometry