Diamino-functionalized metal-organic framework for selective capture of gold ions.

Adsorptive recovery of valuable gold (Au) ions from wastes is vital but still challenged, especially regarding adsorption capacity and selectivity. A novel M - 3,5-DABA metal-organic framework (MOF) adsorbent was prepared via anchoring 3,5-diaminobenzoic acid (3,5-DABA) molecule in the MOF-808 matrix. Benefiting from the positive charge property, dense amino groups (3.2 mmol g-1) and high porosity, the adsorption capacity of M - 3,5-DABA reaches 1391.5 mg g-1 (pH = 2.5) and adsorption equilibrium is attained in 5 min. This amino-based material shows excellent selectivity towards various metal ions, evading the poor selectivity problem of classical thiol groups (e.g. for Ag+, Cu2+, Pb2+ and Hg2+ ions). In addition, the regeneration was easily achieved via using a hydrochloric acid-thiourea eluent. Experimental analysis and density functional theory (DFT) calculation show the amino group works as a reductant for Au(III) ions and meanwhile acts as an active site for adsorbing Au(III) ions together with the µ-OH group. Thus, M - 3,5-DABA can act as a potential adsorbent for Au(III) ions, and our work offers a viable strategy to construct novel MOF-based adsorbents.

Development and validation of a deep learning-based model to predict response and survival of T790M mutant non-small cell lung cancer patients in early clinical phase trials using electronic medical record and pharmacokinetic data.

Background: Epidermal growth factor receptor (EGFR) T790M mutation is the standard predictive biomarker for third-generation epidermal growth factor receptor tyrosine kinase inhibitor (EGFR-TKI) treatment. While not all T790M-positive patients respond to third-generation EGFR-TKIs and have a good prognosis, it necessitates novel tools to supplement EGFR genotype detection for predicting efficacy and stratifying EGFR-mutant patients with various prognoses. Mixture-of-experts (MoE) is designed to disassemble a large model into many small models. Meanwhile, it is also a model ensembling method that can better capture multiple patterns of intrinsic subgroups of enrolled patients. Therefore, the combination of MoE and Cox algorithm has the potential to predict efficacy and stratify survival in non-small cell lung cancer (NSCLC) patients with EGFR mutations. Methods: We utilized the electronic medical record (EMR) and pharmacokinetic parameters of 326 T790M-mutated NSCLC patients, including 283 patients treated with Abivertinib in phase I (n=177, for training) and II (n=106, for validation) clinical trials and an additional validation cohort 2 comprising 43 patients treated with BPI-7711. Furthermore, 18 patients underwent whole-exome sequencing for biological interpretation of CoxMoE. We evaluated the predictive performance for therapeutic response using the area under the curve (AUC) and the Concordance index (C-index) for progression-free survival (PFS). Results: CoxMoE exhibited AUCs of 0.73-0.83 for predicting efficacy defined by best overall response (BoR) and achieved C-index values of 0.64-0.65 for PFS prediction in training and validating cohorts. The PFS of 198 patients with a low risk [median, 6.0 (range, 1.0-23.3) months in the abivertinib treated cohort; median 16.5 (range, 1.4-27.4) months in BPI-7711 treated cohort] of being non-responder increased by 43% [hazard ratio (HR), 0.56; 95% confidence interval (CI), 0.40-0.78; P=0.0013] and 50% (HR, 0; 95% CI, 0-0; P=0.01) compared to those at high-risk [median, 4.2 (range, 1.0-35) months in the abivertinib treated cohort; median, 11.0 (range, 1.4-25.1) months in BPI-7711 treated cohort]. Additionally, activated partial thromboplastin time (APTT), creatinine clearance (Ccr), monocyte, and steady-state plasma trough concentration utilited to construct model were found significantly associated with drug resistance and aggressive tumor pathways. A robust correlation was observed between APTT and Ccr with PFS (log-rank test; P<0.01) and treatment response (Wilcoxon test; P<0.05), respectively. Conclusions: CoxMoE offers a valuable approach for patient selection by forecasting therapeutic response and PFS utilizing laboratory tests and pharmacokinetic parameters in the setting of early-phase clinical trials. Simultaneously, CoxMoE could predict the efficacy of third-generation EGFR-TKI non-invasively for T790M-positive NSCLC patients, thereby complementing existing EGFR genotype detection.

Novel Structure-Driven Predict-to-Hit Strategy for PC Double Bond Positional Isomer Identification Based on Negative LC-MRM Analysis.

As the predominant phospholipids in mammalian cells, phosphatidylcholines (PCs) have been demonstrated to play a crucial role in a multitude of vital biological processes. Research has highlighted the significance of the diversity in PC isomers as instigators of both physiological and pathological responses, particularly those with variations in the position of double bonds within their fatty chains. Profiling these PC isomers is paramount to advancing our understanding of their biological functions. Despite the availability of analytical methods utilizing high-resolution secondary mass spectrometry (MS2) fragmentation, a novel approach was imperative to facilitate large-scale profiling of PC isomers while ensuring accessibility, facility, and reliability. In this study, an innovative strategy centered around structure-driven predict-to-hit profiling of the double bond positional isomers for PCs was meticulously developed, employing negative reversed-phase liquid chromatography-multiple reaction monitoring (RPLC-MRM). This novel methodology heightened the sensitivity. The analysis of rat lung tissue samples resulted in the identification of 130 distinct PC isomers. This approach transcended the confines of available PC isomer standards, thereby broadening the horizons of PC-related biofunction investigations. By optimizing the quantitation reliability, the scale of sample analysis was judiciously managed. This work pioneers a novel paradigm for the exploration of PC isomers, distinct from the conventional methods reliant on high-resolution mass spectrometry (HRMS). It equips researchers with potent tools to further explore the biofunctional aspects of lipids.

Ganoderma lucidum ethanol extracts ameliorate hepatic fibrosis and promote the communication between metabolites and gut microbiota g_Ruminococcus through the NF-κB and TGF-ß1/Smads pathways.

ETHNOPHARMACOLOGICAL RELEVANCE: Ganoderma lucidum, a traditional edible medicinal mushroom, has been widely reported to improve liver diseases as a dietary intervention for people. Ganoderma lucidum extracts, primarily total triterpenoids (GLTTs), are one of the bioactive ingredients that have excellent beneficial effects on hepatic fibrosis. Therefore, its prevention and reversal are particularly critical due to the increasing number of patients with chronic liver diseases worldwide. AIM OF THE STUDY: The study aimed to evaluate whether GLTTs had a hepatoprotective effect against hepatic fibrosis through metabolic perturbations and gut microbiota changes and its underlying mechanisms. MATERIALS AND METHODS: The compound compositions of GLTTs were quantified, and carbon tetrachloride (CCl4)-induced hepatic fibrosis rats were used to investigate the cause of the improvement in various physiological states with GLTTs treatment, and to determine whether its consequent effect was associated with endogenous metabolites and gut microbiota using UPLC-Q-TOF-MSE metabolomics and 16S rRNA gene sequencing technology. RESULTS: GLTTs alleviated physical status, reduced liver pathological indicators, proinflammatory cytokines, and deposition of hepatic collagen fibers via regulating the NF-κB and TGF-ß1/Smads pathways. The untargeted metabolomics analysis identified 16 potential metabolites that may be the most relevant metabolites for gut microbiota dysbiosis and the therapeutic effects of GLTTs in hepatic fibrosis. Besides, although GLTTs did not significantly affect the α-diversity indexes, significant changes were observed in the composition of microflora structure. In addition, Spearman analysis revealed strong correlations between endogenous metabolites and gut microbiota g_Ruminococcus with hepatic fibrosis. CONCLUSION: GLTTs could provide a potential target for the practical design and application of novel functional food ingredients or drugs in the therapy of hepatic fibrosis.

Safety, efficacy and pharmacokinetics of BPI-9016M in c-MET overexpression or MET exon 14 skipping mutation patients with locally advanced or metastatic non-small-cell lung cancer: a phase Ib study.

BACKGROUND: As a potential target receptor tyrosine kinase, mesenchymal-epithelial transition factor (MET) exhibits high aberrant expression across various tumors. This study aimed to evaluated the safety, tolerability, efficacy and pharmacokinetics (PK) of BPI-9016M, a novel tyrosine kinase inhibitor (TKI) targeting c-MET, in c-MET overexpression or MET exon 14 skipping mutation patients with locally advanced or metastatic non-small-cell lung cancer (NSCLC). METHODS/DESIGN: In this two-part multicenter phase Ib study, eligible patients with locally advanced or metastatic NSCLC harboring c-MET overexpression or MET exon 14 skipping mutation were enrolled into Part A (tested positive for c-MET overexpression [immunohistochemical staining score ≥ 2+]; 300 mg quaque die [QD], 450 mg QD and 600 mg QD cohorts) or Part B (tested positive for MET exon 14 skipping mutation; 400 mg bis in die [BID] cohort), respectively. The primary endpoints were safety, objective response rate (ORR) and disease control rate (DCR), the second endpoints were PK parameters, progression-free survival (PFS) and overall survival (OS). RESULTS: Between March 15, 2017 and September 18, 2021, 38 patients were enrolled (Part A, n = 34; Part B, n = 4). Of 38 patients, 32 (84.2%) patients completed the treatment protocol. As of the data cut-off date on January 27, 2022, all patients reported at least one treatment-emergent adverse event (TEAE). Ninety-two point one percent (35/38) of patients experienced treatment-related adverse events (TRAEs), and grade ≥ 3 TRAEs were observed in 11 (28.9%) patients. The most common TRAEs were elevated alanine aminotransferase (ALT, 14/38, 36.8%) and elevated aspartate aminotransferase (AST, 11/38, 28.9%). Only one (2.6%) patient had treatment-related serious adverse event (SAE) in 600 mg QD cohort due to thrombocytopenia. PK analysis showed BPI-9016M and its main metabolites (M1 and M2-2) reached steady state after seven days of continuous administration. At the dose of 300 mg QD and 450 mg QD, the exposure of BPI-9016M increased with increasing dose. Exposure of BPI-9016M was similar at 450 mg QD and 600 mg QD, which may exhibit a saturation trend. In all patients, ORR and DCR were 2.6% (1/38, 95% confidence interval [CI] 0.1-13.8%) and 42.1% (16/38, 95% CI 26.3-59.2%), respectively. Only one partial response (PR) patient was observed at a dose of 600 mg QD in Part A. In Part B, DCR was 75.0% (3/4, 95% CI 19.4-99.4%). The median PFS and OS in all 38 patients were 1.9 months (95% CI 1.9-3.7) and 10.3 months (95% CI 7.3-not evaluable [NE]), respectively. CONCLUSION: BPI-9016M showed manageable safety profile in c-MET overexpression or MET exon 14 skipping mutation patients with locally advanced or metastatic NSCLC, but showed limited efficacy. TRIAL REGISTRATION: Clinicaltrials.gov NCT02929290 (11/10/2016).

Development and validation of two bioanalysis methods for the determination of etimicin in human serum and urine by liquid chromatography-tandem mass spectrometry: Applications to a human pharmacokinetic and breakpoint study.

Etimicin is a fourth-generation aminoglycoside antibiotic. It has potent activity and low toxicity when employed for the treatment of Gram-negative and Gram-positive bacterial infections. The pharmacokinetics of etimicin in humans have not been elucidated completely. Two liquid chromatography-tandem mass spectrometry (LC-MS/MS) bioanalytical methods, without the use of any ion-pairing reagents, were developed and validated for the quantification of etimicin in human samples of serum and urine. Using a deuterated reagent as the internal standard, analytes in serum and urine samples were extracted by protein precipitation and dilution before LC-MS/MS analysis, respectively. For the two methods, chromatographic separations were undertaken under isocratic elution of water-ammonia solution-acetic acid (96:3.6:0.2, v/v/v) and methanol at 50%:50% and a flow rate of 0.35 ml/min within 5 min. A Waters XTerra MS C18 column (2.1 × 150 mm, 3.5 µm) and a column temperature of 40°C were chosen. A Sciex Qtrap 5500 mass spectrometer equipped with an electrospray ion source was used in both methods under multiple-reaction monitoring in positive-ion mode. The two methods showed good linearity, accuracy, and precision with high recovery and a minimal matrix effect in the range of 50.0-20000 ng/ml for serum samples and 50.0-10000 ng/ml for urine samples, respectively. Carry-over effects were not observed. Etimicin remained stable in human samples of serum or urine under the storage, preparation, and analytical conditions of the two methods. These two simple and reliable methods were applied successfully to a dose-escalation, phase I clinical trial of etimicin in Chinese healthy volunteers after intravenous administration of single and multiple doses. Based on these two methods we ascertained, for the first time, the comprehensive pharmacokinetics of etimicin in humans, which will be used for the exploration of the breakpoint research further.

Liquid chromatography-tandem mass spectrometry methods for quantification of roxadustat (FG-4592) in human plasma and urine and the applications in two clinical pharmacokinetic studies.

Roxadustat (FG-4592) can inhibit the hypoxia-inducible factor prolyl hydroxylase (HIF-PH) enzymes that are responsible for targeting and regulating HIF for ubiquitination and proteasomal degradation. It has been approved in China as an anti-anemia drug for treating the anemia in dialysis-dependent CKD (chronic kidney disease) patients, and is also under regulatory review in Japan. Some studies are also investigating the clinical pharmacokinetics and pharmacodynamics of roxadustat in CKD patients. To support clinical investigations, a rapid high performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) method, with a concentration range from 1 to 5000 ng/mL, was designed for the quantification of roxadustat in human plasma and urine. Liquid-liquid extraction (LLE) was applied to sample clean-up followed by a chromatographic separation conducted on a Waters XTerra Phenyl column with isocratic elution. The mixture consisting of acetonitrile/water/formic acid (60:40:0.1[%], v/v/v) was employed as the mobile phase (flow rate: 1.0 mL/min) with 60% post-column split. The quantitation was employed in multiple reactions monitoring (MRM) mode based on positive electrospray ionization (ESI). This proposed method was fully validated and applied to the pharmacokinetic (PK) and pharmacodynamic (PD) study of roxadustat among healthy subjects in China.

Development of a rapid and sensitive UPLC-MS/MS assay for simultaneous quantitation of Vorolanib and its metabolite in human plasma and application to a pharmacokinetics study.

Vorolanib is an oral tyrosine kinase inhibitor that targets vascular endothelial growth factor receptor (VEGFR) and platelet-derived growth factor receptor (PDGFR). A sensitive and specific LC-MS/MS assay was developed and fully validated for simultaneous quantification of vorolanib and its main metabolite X297 in human plasma. The two analytes were extracted from K2-EDTA plasma samples by protein precipitation (PP) with acetonitrile, and chromatographically separated on a C18 reverse-phase column using a gradient elution. A SCIEX 5500 QTRAP® mass spectrometer system was operated in multiple-reaction monitoring mode (MRM) and all components were detected using positive electrospray ionization (ESI). The results successfully demonstrated that the method had satisfactory linearity, sensitivity, and selectivity in the concentration ranges of vorolanib (1.00-1000 ng/mL) and X297 (0.500-500 ng/mL). In this study, two concentration related peaks in the vorolanib and X297 detection channels were observed, which were speculated to be isomers of vorolanib and X297. In order to standardize the sample pretreatment process, the effect of lamp light and pH on the isomer reconversion was evaluated. The results indicated, that the exposure of samples to lamp light during the handling procedures, did not cause the conversion of the isomers. For the first time a robust and specific ultra-performance liquid chromatography tandem mass spectrometry (UPLC-MS/MS) assay for the high-throughput quantification of vorolanib and X297 in human plasma was established and validated following bioanalytical validation guidelines. The proposed method was successfully applied to clinical trials evaluating the pharmacokinetics of vorolanib tablets in Chinese advanced solid tumor patients.

Simultaneous determination of indapamide, perindopril and its active metabolite perindoprilat in human plasma using UPLC-MS/MS method.

Lots of studies showed the combination therapy of perindopril, indapamide and amlodipine could increase BP lowering efficacy and the benefits of high-risk patients. To evaluate potential pharmacokinetic interaction, a simultaneous UPLC-MS/MS quantification method of perindopril, perindoprilat and indapamide in human plasma was developed and validated. The plasma samples were prepared by solid phase extraction, and then separated on an X-terra MS C18 (2.1 mm × 150 mm, 3.5 µm) with isocratic elution. The ion transitions at m/z 369.165 â†’ 172.000 (perindopril), m/z 341.146 â†’ 170.112 (perindoprilat), m/z 366.010 â†’ 132.100 (indapamide), m/z 389.120 â†’ 206.200 (S10211-1, IS1) and m/z 394.080 â†’ 160.200 (S1641, IS2) were monitored under the positive ion mode of electrospray ionization with multiple reaction monitoring. This method exhibited great sensitivity, linearity, accuracy, and precision for the determination of perindopril, perindoprilat and indapamide over the range of 0.250-50.0 ng/mL. The average extraction recovery of perindopril, perindoprilat and indapamide samples at low, medium, and high concentration levels were between 85.9% and 93.6%, respectively. The stability of analytes over different storage and processing conditions in the whole study was also validated. The method is fast, accurate, sensitive and reproducible, which is suitable for the detection of the concentration of perindopril, perindoprilat and indapamide in human plasma.

Development of an LC-MS/MS method for quantifying ASK120067, a novel mutant-selective inhibitor of the epidermal growth factor receptor (EGFR) as well as its main metabolite in human plasma and its application in a pharmacokinetic study.

ASK120067, an oral irreversible tyrosine kinase inhibitor (TKI) targeting the epidermal growth factor receptor (EGFR), is formulated for the management of patients with non-small cell lung cancer (NSCLC) who harbor T790M resistant and EGFR active mutations. Two rapid and high-throughput methods based on liquid chromatography-tandem mass spectrometry to detect ASK120067 and its primary metabolite CCB4580030 in human plasma were developed and applied in the clinical trials. A protein precipitation method using acetonitrile coupled with a gradient elution separation in a BEH C18 column (1.7 µm, 2.1 × 50 mm) was used to process plasma and separation analytes. The chromatographic separation was performed on the mobile phase of 5 mM ammonium acetate in water with 0.1% formic acid (A) and acetonitrile (B), and the flow rate was 0.4 mL/min. The multiple reaction monitoring (MRM) mode was selected to monitor the precursor-to-product ion transitions of m/z 546.2 â†’ m/z 431.2 for ASK120067 and m/z 532.1 â†’ m/z 420.2 for CCB4580030 at the positive ionization mode. The precision and accuracy of the two methods for ASK1200067 and CCB4580030 were within acceptable range for the linear range in 5.00-5000 ng/mL and 0.500-500 ng/mL, respectively. Further stabilities for the two analytes and internal standard were also investigated covered the entire experimental process beginning from harvesting whole blood to plasma extraction and analysis. ASK120067 was then administered without issue onto a dose-escalation, the first-in-human Phase I clinical trial in Chinese NSCLC patients to determine the pharmacokinetics of oral ASK120067 administration.

First-in-human phase I study of BPI-9016M, a dual MET/Axl inhibitor, in patients with non-small cell lung cancer.

BACKGROUND: BPI-9016M is a novel small-molecule inhibitor that simultaneously targets both c-Met and AXL tyrosine kinases. This phase I study aimed to determine the maximum tolerated dose (MTD), safety, pharmacokinetics, and antitumor activity of BPI-9016M in Chinese patients with advanced non-small cell lung cancer (NSCLC). METHODS: Over the dose range of 100 mg to 800 mg, eligible patients were administered with a single dose of 9016M tablet and received 7 days of pharmacokinetics evaluation, followed by continuous dose administration (QD dosing, 28 days). Standard "3 + 3" dose escalations were performed. RESULTS: Twenty NSCLC patients were treated. All patients experienced at least one adverse event (AE), of which treatment-related adverse events (TRAEs) were reported in 17 (85.0%) patients. The most common TRAEs were alanine transaminase (ALT) elevation (60%), bilirubin increased (40%), dysgeusia (40%), constipation (30%), hypertension (25%), and palmar-plantar erythrodysesthesia syndrome (15%). The TRAEs of grade 3 or higher during treatment were hypertension (15%), pulmonary embolism (5%), and laryngeal pain (5%). No dose-limiting toxicity (DLT) was observed, and the MTD was not reached. The median time to Cmax ranged from 2.0 to 3.5 h, and the plasma concentration of BPI-9016M declined rapidly after Tmax fitting a single-compartment model. The mean AUC0-72 h of M1 and M2-2, main metabolites of BPI-9016M, were 4.8-6.6 folds and 4.1-9.8 folds higher than that of BPI-9016M, respectively. Exposure to BPI-9016M, M1, and M2-2 reached moderate saturation at 600 mg. Among 19 evaluable patients, 1 had a partial response and 10 patients had stable disease. CONCLUSION: BPI-9016M showed favorable safety and pharmacokinetic profiles, and no DLT was observed at doses up to 800 mg once daily. The promising antitumor activity in Chinese NSCLC patients supports further development of this tyrosine kinase inhibitor. TRIAL REGISTRATION: Clinical Trial ID: NCT02478866, registered May 21, 2015.

Prevalence, phylogenetic and evolutionary analysis of porcine deltacoronavirus in Henan province, China.

Porcine deltacoronavirus (PDCoV) is a novel porcine enteric coronavirus that causes diarrhea, vomiting and dehydration in piglets. This newly virus has spread rapidly and has caused serious economic losses for pig industry since the outbreak in USA in 2014. In this study, 430 faecal and intestinal samples (143 faecal samples and 287 intestinal samples) were collected from individual pigs with diarrhea and 211 serum samples were also collected from the sows with mild diarrhea in 17 regions in Henan province, China from April 2015 to March 2018. The RT-PCR detection indicated that the infection of PDCoV was high up to 23.49% (101/430), and co-infection with PEDV were common (60.40%, 61/101) in Henan pigs. The prevalence of PDCoV in suckling piglets was the highest (36.43%, 94/258). We also found that PDCoV could be detected in sows faeces and sera while the sows showed mild, self-limited diarrhea in clinic. The complete genomes of 4 PDCoV Henan strains (CH-01, HNZK-02, HNZK-04, HNZK-06) were sequenced and analyzed. Phylogenetic analysis based on the complete genome, spike and nucleocapsid gene sequences revealed that the PDCoV Henan strains were closely related to other PDCoV reference strains that located in the Chinese clade. Furthermore, the phylogenetic analysis showed PDCoV CH-01 strain was closely related to CHN-HB-2014 strain and HKU15-44 strain, while the other PDCoV Henan strains were more related to PDCoV CHJXNI2 and CH-SXD1-2015 strains, indicating that the ancestor of these sequenced strains may different. These results would support the understanding of the prevalence and evolution characteristics of PDCoV in China.

Development of a quantitative method for four photocyanine isomers using differential ion mobility and tandem mass spectrometry and its application in a preliminary pharmacokinetics investigation.

Photodynamic therapy (PDT) has been accepted as an alternative treatment for cancer, and its target specificity can be achieved by controlling the location at which light activates the photosensitizer. Photocyanine, a novel anticancer phthalocyanine-based photosensitizer, is a mixture of 4 cis-isomers of a series of synthetic products, and accordingly, it is essential to verify whether there are differences in pharmacokinetics among the four isomers for clinical application, which requires reliable analytical methods to measure the plasma concentrations of the four isomers. An efficient LC-MS/MS method coupled with differential mobility spectrometry (DMS) for the simultaneous quantification of the four photocyanine isomers in human plasma was developed and validated herein. This method had a limit of quantification of 10 ng mL-1 for each isomer and showed stable and reproducible inter- and intra-day results. Use of this method in preliminary pharmacokinetic studies in patients with esophageal cancer showed that the exposure and distribution of the four isomers were different, which had not been found in previous studies. The present research revealed that DMS was an effective tool for isomeric quantitation and that LC-DMS-MS/MS presented robust and reliable in biomatrix analysis. The method significantly improved peak separation and sensitivity compared with that of other LC-MS-based methods.

Simultaneous determination of a novel c-Met/AXL dual-target small-molecule inhibitor BPI-9016M and its metabolites in human plasma by liquid chromatography-tandem mass spectrometry: Application in a pharmacokinetic study in Chinese advanced solid tumor patients.

BPI-9016M is a novel dual-target small-molecule inhibitor targeting c-Met and AXL, which was developed by Betta Pharmaceuticals Co., Ltd (Hangzhou, China). It has great potential in the treatment of advanced cancer. A high throughput quantitation method, based on liquid chromatography-tandem mass spectrometry, was developed and validated for the simultaneous determination of BPI-9016M and its main metabolite, M1 and M2-2, in human plasma with a sample preparation method of precipitation of protein. Liquid chromatographic separation was performed with a gradient elution of formic acid-10mM ammonium acetate aqueous solution (1:1000, v/v) and acetonitrile at a flow rate of 0.4mL/min within 2.2min. A Waters ACQUITY UPLC BEH C18 column (1.7µm, 2.1×50mm) was chosen, of which the temperature was set to be 40°C. Mass spectrometric detection, which were achieved in positive mode, were performed by multiple reaction monitoring with SCIEX API 5500 Qtrap equipped with an ESI ion source. This method showed good linearity, accuracy and precision in the range of 0.4-200ng/mL for BPI-9016M and 0.8-800ng/mL for M1 and M2-2, with high recovery and slight matrix effect for all analytes. And under the conditions same as stability assessments in method validation, the three analytes stayed stable during the entire destiny of a clinical sample from the collection of whole blood to the analysis of plasma by this method. The validated method was successfully applied to a first-in-human, dose-escalation phase I clinical trial in Chinese advanced solid tumor patients for the pharmacokinetic research of BPI-9016M tablet after oral administration. The concentration-time curves of BPI-9016M, M1, M2-2 were detailly captured with good veracity. And according to the results of hemolysis assessment, plasma concentrations of analytes in hemolyzed plasma samples could be reported normally without label.

Simultaneous determination of roflumilast and its metabolite in human plasma by LC-MS/MS: Application for a pharmacokinetic study.

Roflumilast had shown good efficacy and safety in Caucasian COPD patients after oral administration of 0.5mg. The main active metabolite of it is roflumilast N-oxide. A reliable liquid chromatography-tandem mass spectrometry (LC-MS/MS) quantitation method was developed for the simultaneous determination of them in human plasma with rather low limits of quantitation for roflumilast (0.02ng/mL) and roflumilast N-oxide (0.04ng/mL). Human plasma samples were prepared by solid phase extraction (SPE), which ensured high recovery and slight matrix effect for the both analytes. This method showed good linearity, accuracy, precision and stability in the range of 0.02-10ng/mL and 0.04-50ng/mL for roflumilast and roflumilast N-oxide respectively. The developed method was successfully applied for the pharmacokinetic research in Chinese healthy volunteers after oral administration of 0.25mg, 0.375mg and 0.5mg of roflumilast tablet.

Comprehensive lipid profiling of plasma in patients with benign breast tumor and breast cancer reveals novel biomarkers.

Abnormal lipid metabolism is a common feature in most solid tumors, and occurs in early stages of the tumor progression. As benign breast tumor is different from malignant tumor of breast cancer, it is particularly important to take benign breast tumor into consideration when investigating cancer biomarkers. In this study, by using a normal-phase/reversed-phase two-dimensional liquid chromatography-mass spectrometry (NP/RP 2D LC-MS) method, we conducted comprehensive lipid profiling in human plasma obtained from six benign breast tumor patients and five breast cancer patients, as well as nine healthy controls. As a result, 512 lipid species were successfully identified. Principal component analysis allowed clear separation of the three groups. Quantitative analysis revealed that many lipid contents were similar in benign and malignant breast tumors compared with controls, and these were proposed as potential breast tumor biomarkers other than breast cancer biomarkers. Two phosphatidylinositol (PI) species, including PI (16:0/16:1) and PI (18:0/20:4), could differentiate between benign and malignant breast tumors, as well as breast cancer patients and healthy controls, indicating that they could be utilized as potential breast cancer biomarkers. In addition, PI (16:0/18:1), phosphatidylglycerol (36:3), and glucosylceramide (d18:1/15:1) were demonstrated to be potential biomarkers to evaluate the level of malignancy of breast tumor. Taken together, our results indicate the usefulness of lipid profiling in the discrimination between patients with breast cancer and non-carcinoma lesions, which might provide assistance in clinical diagnosis.

A not-stop-flow online normal-/reversed-phase two-dimensional liquid chromatography-quadrupole time-of-flight mass spectrometry method for comprehensive lipid profiling of human plasma from atherosclerosis patients.

A not-stop-flow online two-dimensional (2D) liquid chromatography (LC) method was developed for comprehensive lipid profiling by coupling normal- and reversed-phase LC with quadrupole time-of-flight mass spectrometry (QToF-MS), which was then applied to separate and identify the lipid species in plasma, making its merits in quality and quantity of the detection of lipids. Total 540 endogenous lipid species from 17 classes were determined in human plasma, and the differences in lipid metabolism products in human plasma between atherosclerosis patients and control subjects were explored in detail. The limit of detections (LODs) of 19 validation standards could all reach ng/mL magnitude, and the RSDs of peak area and retention time ranged 0.4-8.0% and 0.010-0.47%, respectively. In addition, a pair of isomers, galactosylceramides (GalC) and glucosylceramides (GluC), was successfully separated, showing that only the levels of GalC in atherosclerosis patients were significantly increasing, rather than GluC, compared with the controls (controls vs. patients: the ratio was 1.5-2.8-fold increasing). It would be helpful to the further research of the atherosclerosis.