Whole blood analysis for medical diagnostics by GC‐MS with Cold EI

Neumark, Benny; Elkabets, Oneg; Shefer, Gabi; Buch, Assaf; Stern, Naftali; Amirav, Aviv

doi:10.1002/jms.4873

Cited by 4 publications

(8 citation statements)

References 49 publications

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“…Figure 5 shows the analysis of saliva that was obtained from a recreational cannabis smoker 1, 30, and 60 min after smoking a quarter of a cannabis cigarette. As shown, the saliva analysis is somewhat similar to whole blood analysis 18 . It shows palmitic acid at ~3.8 min and linoleic, oleic, and stearic acids after 4 min, plus cholesterol at about 5.9 min which is the biggest peak in saliva.…”

Section: Resultssupporting

confidence: 67%

“…GC-MS with Cold EI is reviewed in previous studies [14][15][16] and further described in previous studies. 18,[28][29][30][31] In Cold EI, the GC column flow output is mixed with helium make-up gas ($50-60 mL/min total column and make-up flow rate), in front of a supersonic nozzle at the end of a temperature-controlled transfer line.…”

Section: Methodsmentioning

confidence: 99%

“…The GC–MS with Cold EI system that was used is based on the combination of an Agilent 7890A GC + 5977 MSD (Agilent Technologies, Santa Clara, CA, USA) with the Aviv Analytical Cold EI (Aviv Analytical LTD, Hod Hasharon, Israel). GC–MS with Cold EI is reviewed in previous studies 14–16 and further described in previous studies 18,28–31 . In Cold EI, the GC column flow output is mixed with helium make‐up gas (~50–60 mL/min total column and make‐up flow rate), in front of a supersonic nozzle at the end of a temperature‐controlled transfer line.…”

Section: Methodsmentioning

confidence: 99%

“…We used for saliva analysis GC–MS with Cold EI with its 15 m 0.32 mm ID column (0.1 μ DB1HT film) with 8 mL/min column flow rate that was programmed at its end into 32 mL/min. This way saliva was analyzed similarly to whole blood 18 and indeed its components correlated with those of whole blood. In order to speed up the analysis from 10 min into sub 1 min (real‐time), we used our Open Probe Fast GC–MS as described in Amirav et al 23,24 Open Probe Fast GC–MS is based on the combination of Open Probe inlet, 26 a low thermal mass ultra‐fast GC, 27 in‐vacuum EI ion source and a MS of GC–MS for obtaining real‐time analysis with separation 23,24 .…”

Section: Introductionmentioning

confidence: 99%

“…This study also describes a new type of a “SalivaProbe” device for sampling saliva from human tongues and its introduction “as is” to GC–MS with Cold EI. The SalivaProbe is similar to our BloodProbe, 18 and it is based on a modified ChromatoProbe for the sampling of saliva as described below. The ChromatoProbe was developed by Amirav and Dagan 19 as the direct sample introduction (DSI) device.…”

Section: Introductionmentioning

confidence: 99%

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Fast saliva analysis by GC–MS with Cold EI and Open Probe Fast GC–MS with Cold EI for the detection of cannabis usage

Elkabets,

Neumark,

Amirav

2023

J Mass Spectrom

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Saliva is a body fluid that is much easier to collect and analyze than blood. Thus, saliva analysis for the detection of delta 9‐tetrahydrocannabinol (delta 9‐THC) can serve as a tool for law enforcement agents to detect cannabis consumption by drivers. Fast saliva analysis for the presence of delta 9‐THC and/or cannabidiol (CBD) is described with both gas chromatography–mass spectrometry (GC–MS) with Cold electron ionization (EI) with good separation and in 10 min and/or with Open Probe Fast GC–MS with Cold EI in under 1 min full analysis cycle time. Saliva was taken directly from donors' tongues on a thin glass rod that was used “as is” for analysis. The saliva was thermally desorbed with a modified ChromatoProbe device inside the gas chromatograph (GC) injector and in an Open Probe (Agilent name QuickProbe) for its sub‐1‐min analysis. Cold EI is based on coupling of the GC and mass spectrometer (MS) with a supersonic molecular beam and on EI of vibrationally cold sample molecules during their flight through a contact‐free ion source (thereby named Cold EI). A revised type of Open Probe Fast GC–MS on the bench is also described. Our saliva analysis was characterized by: Saliva can be collected in the field and transported to the lab for analyses “as is” without any sample preparation. Easy detection of cannabis consumption from cigarettes and/or other cannabis products. Distinction between the isomers delta 9‐THC and CBD. Ultra‐fast analysis in under 1 min using Open Probe Fast GC–MS with Cold EI.

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Section: Resultssupporting

confidence: 67%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Fast saliva analysis by GC–MS with Cold EI and Open Probe Fast GC–MS with Cold EI for the detection of cannabis usage

Elkabets,

Neumark,

Amirav

2023

J Mass Spectrom

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Whole blood analysis for medical diagnostics by GC‐MS with Cold EI

et al. 2022

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This study covers a new method and related instrumentation for whole blood analysis for medical diagnostics. Two‐μL whole blood samples were collected using “minimal invasive” diabetes lancet and placed on a thin glass rod mounted on a newly designed BloodProbe. The BloodProbe with the whole blood sample was inserted directly into a ChromatoProbe mounted on the GC inlet, and thus, no sample preparation was involved. The analysis was performed within 10 min using a GC‐MS with Cold EI that is based on interfacing GC and MS with supersonic molecular beams (SMB) along with electron ionization of vibrationally cold sample compounds in the SMB (hence the name Cold EI). Our blood analysis revealed several observations: (1) Detailed mass chromatograms were generated with full range of all the nonpolar lipids in blood including fatty acids, cholesterol, cholesteryl esters, vitamin E, monoglycerides, diglycerides, and triglycerides. (2) The analysis of whole blood was found to be as informative as the conventional clinical analysis of blood serum. (3) Cholesteryl esters were more sensitive than free cholesterol alone to the effect of diet of obese people. (4) Major enhancement of several fatty acid methyl esters was found in the blood of a cancer patient with liver dysfunction. (5) Vitamin E as both α‐ and β‐tocopherol was found with person‐dependent ratio of these two compounds. (6) Elemental sulfur S8 was identified in blood. (7) Several drugs and other compounds were found and need further study of their correlation to medical issues.

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NIST Library Identification Probabilities Are the Highest with Cold EI Mass Spectra

Amirav,

Neumark,

Elkabets

et al. 2024

J. Am. Soc. Mass Spectrom.

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Cold EI improves all of the central GC-MS performance aspects, but even though it is known for providing enhanced molecular ions, it is important to realize that Cold EI mass spectra also include all of the standard EI fragment ions. Thus, Cold EI mass spectra are fully compatible with mass spectral libraries, such as NIST for sample identification. As a result, Cold EI mass spectra (unlike any other soft ionization method) provide highly effective identifications that are often better than those obtained with standard EI for a few reasons: 1). Cold EI mass spectra with enhanced molecular ions typically provide higher identification probabilities than standard EI, even though scoring lower matching factors (false alternatives scores are lowered much more). 2). The visually observed molecular ions further serve to confirm or reject the NIST library identifications. 3). Molecular ions provide isotope abundances that serve with our TAMI software for automatic confirmation or rejection of the NIST library identification and provide an elemental formula in case the compound is not in the library. 4). The Cold EI identification probability can be even higher than that of a mass spectrum with a perfect match of 999 that can be obtained by NIST library searching its own mass spectrum. 5). The clear Cold EI molecular ion enables the use of the NIST library option of constraints search with the molecular ion that further significantly increases the identification probability.Our findings are demonstrated with mass spectra of hexadecane (n-C 16 H 34 ), n-C 40 H 82 , pyrene, nitrobenzene, chlorpromazine, di-noctyl phthalate, and deltamethrin.

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Whole blood analysis for medical diagnostics by GC‐MS with Cold EI

Cited by 4 publications

References 49 publications

Fast saliva analysis by GC–MS with Cold EI and Open Probe Fast GC–MS with Cold EI for the detection of cannabis usage

Fast saliva analysis by GC–MS with Cold EI and Open Probe Fast GC–MS with Cold EI for the detection of cannabis usage

Whole blood analysis for medical diagnostics by GC‐MS with Cold EI

NIST Library Identification Probabilities Are the Highest with Cold EI Mass Spectra

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