基于敞开式直接电离质谱技术的尿液中毒品检测

According to the Report of Drug Situation in China (2020), the growth rate of the number of drug abusers in China has decreased, but the number of drug abusers is still large. An efficient screening method is necessary for controlling drug abuse. As an important type of biological sample, urine is widely used for the rapid screening of drug addicts. However, because of the complex composition, low content, and strong interference from the body’s metabolism, the detection of drugs in urine remains a challenge. Traditional rapid screening techniques such as immunocolloidal gold analysis have a high false positive rate and insufficient quantitative capability. In addition, laboratory mass spectrometry methods require complicated time-consuming sample pre-processing and strict environmental conditions, and hence, are unsuitable for on-site rapid analysis. In recent years, various direct ionization mass spectrometry techniques such as direct analysis in real time (DART), desorption electrospray ionization (DESI), and dielectric barrier discharge ionization (DBDI) have advanced rapidly. These techniques have been applied to public safety, food safety, environmental detection, etc. In contrast to traditional ionization mass spectrometry methods, these direct ionization techniques allow for the in situ analysis of samples with simple or no pretreatment; moreover, they have the advantages of high analytical efficiency and sensitivity. In particular, pulsed electrospray ionization has the characteristics of less sample demand, compact, lightweight equipment, and no carrier gas. This paper presents a rapid method based on pulsed electrospray ionization mass spectrometry for the detection of urine samples. A rapid detection platform comprising a probe electrospray ionization source, a portable linear ion trap mass spectrometer (MS), and their coupling interface is adopted. The probe electrospray ion source includes a conducting metal wire, plastic handle, and silica glass capillary, whose tip has an inner diameter of 50 μm. The guide rail at the coupling interface is used to align the probe with the sample inlet of the portable mass spectrometer and maintain a distance of 10 mm between the probe tip and the sample inlet of the MS. The spray voltage of the probe electrospray ion source and the temperature of the MS inlet capillary are optimized at 1.8 kV and 205 ℃, respectively. In addition, rapid and efficient pretreatment techniques for urine samples have been developed. Buffer salts used for pH regulation and liquid-liquid extraction based on ethyl acetate were adopted for the pretreatment process. The linearity of the detection ability and the linear ranges of various drug-spiked solutions were also investigated. The results showed that the correlation coefficients for the quantitative detection of methamphetamine, ketamine, methylenedioxymethamphetamine (MDMA), and cocaine were greater than 0.99 at concentrations ranging from 1 to 100 ng/mL. Moreover, the limits of detection (LODs) for the five conventional drug-spiked urine were 0.5-30 ng/mL. The spiked recoveries ranged from 56.1% to 103.7%, with relative standard deviations (RSDs) of 9.0%-27.8%, implying that the combination of the instruments and the pretreatment method can lead to good accuracy. To validate the performance of the rapid detection method, 40 positive and 110 negative urine samples were tested and analyzed. The overall accuracy was over 99%, and the five conventional drugs in urine samples could be detected within 20 s. The research findings of this work could promote the development of rapid detection technology, accelerate the popularization and application of ambient direct ionization mass spectrometry, and improve the services of on-site law enforcement.