Characteristics of quetiapine and 7-hydroxyquetiapine in hair roots and blood after a single dose of quetiapine

Current status of hair analysis in forensic toxicology in China

Hair analysis has been mainly used to document drug use history in abusers, drug-facilitated crime cases, doping control analysis and postmortem toxicology in the fields of forensic toxicology, clinical toxicology, and doping control. Hair analysis has also gained more attention in the last 30 years in China. Relevant technology has been promoted as more research has appeared concerning hair analysis, and consensus has been sought among forensic toxicologists regarding aspects such as hair decontamination treatment, detection of abused substances in hair, segmental hair analysis and interpretation of analytical results. However, there are still some limitations in the estimation of drug intake time and frequency by segmental hair analysis due to the different growth cycles evident within a bundle of hairs, the drug incorporation mechanism and sampling errors. Microsampling and imaging mass spectrometry (IMS) technology based on a single hair may be a good choice to estimate drug intake time more accurately. Analysis of hair root samples may also be used to document acute poisoning in postmortem toxicology, and the analysis of the hair shaft can document long-term use of drugs depending on the length of the hair being evaluated.

The Distribution of Quetiapine and 7-Hydroxyquetiapine in Guinea Pig Hair Roots and Shafts after Repeated Administration: Exploration of the Mechanism of Drug Entry and Retention in Hair

This study investigated the distribution of quetiapine and 7-hydroxyquetiapine in guinea pig hair roots and shafts after five repeated intragastric administrations at three doses (5, 10 and 25 mg/kg) by segmental analysis to explore the mechanism of drug entry and retention in hair. Hair root samples were collected after 7, 10, 14, 21, 28 and 35 d in area A after the first dose, and a hair shaft was plucked 35 d after the first dose. The maximum concentrations of quetiapine in hair roots in the low-, medium- and high-dose groups occurred at 50, 74 and 98 h after the first administration, and the maximum concentrations were 0.71 ng/mg (range: 0.54-0.84 ng/mg), 6.72 ng/mg (range: 4.59-9.75 ng/mg) and 12.72 ng/mg (range: 10.74-15.76 ng/mg), respectively. The maximum concentrations of 7-hydroxyquetiapine in the low-, medium- and high-dose groups were 0.67 ng/mg (0.23-1.15 ng/mg), 1.07 ng/mg (0.44-1.19 ng/mg) and 3.92 ng/mg (0.656.14 ng/mg), respectively, at 26 h. The maximum concentrations of quetiapine and 7-hydroxyquetiapine in hair roots were significantly positively correlated with the dose (n = 18; r2 = 0.84; P < 0.0001 for quetiapine and n = 18; r2 = 0.61; P = 0.0001 for 7-hydroxyquetiapine). The concentrations of quetiapine and 7-hydroxyquetiapine in hair roots were higher than those in hair shafts 10 d after administration, indicating drug and metabolite entry into the hair through the roots in the first few days after administration. The highest concentrations of quetiapine in the hair shaft in the low-, medium- and high-dose groups were found at the hair ends, and 7-hydroxyquetiapine in the hair shaft showed no obvious peak concentration. Combined with previous studies, we think, by analyzing the drug concentrations in the hair roots and shaft, that the most important way for drugs to enter into and be retained in hair is that the drug enters the hair through the blood circulation from hair root, then spreads and redistributes as the hair grows.

Pharmacokinetic study of midazolam and α-hydroxymidazolam in guinea pig blood and hair roots after a single dose of midazolam

The appearance of midazolam (M) and its metabolites into the hair root following a single administration was examined by following the time course of M and α-hydroxymidazolam (αHM) in hair roots and blood from guinea pigs. The back hair of guinea pigs was shaved before drug administration and before each sampling, and hair roots (3-5 mm) were plucked at 5, 15, and 30 min, 1, 2, 4, 6, 10, 24, 48, 72, 96, 120, 144 h, and 7, 14, 21, and 28 days. The kinetic parameters of M and αHM in guinea pig blood and hair roots were determined for three doses (5, 10, and 25 mg/kg). Comparisons of drug time course between hair roots and blood indicated an association between drug concentrations in the hair root and the blood. M and αHM entered the hair root within 5 min after a single exposure. The detection windows were also longer for the hair root than for the blood. Consequently, the hair root can be a valuable specimen in acute poisonings or drug-facilitated crime (DFC) cases, if other matrices are unavailable, or if blood and urine results are negative. Hair shafts (with hair roots) were plucked at 28 days and segmented. The concentrations of M and αHM were lower in the hair shafts than in the hair roots. The concentrations of the metabolite αHM in hair shafts were barely detectable. The concentrations of M and αHM in the hair root showed a moderate correlation with dose. Comparison of drug levels in hair roots between the washed group and the unwashed group indicated a generally stable percentage between the washed and unwashed groups of 40-60 % during the entire time course. This indicates that drugs are likely to be immobilized in the hair root at the beginning of the incorporation process.