J. Tyler Davidson scite author profile

This study uses a combination of multi‐stage mass spectrometry (MSn), accurate mass measurements – with high‐resolution mass spectrometry (HRMS) – and isotopic labeling to characterize the fragmentation behavior of fentanyl and 4‐ANPP. By understanding the fragmentation behavior of fentanyl and its analogs in more detail, toxicologists and seized drug analysts will be better poised to identify new and emerging fentalogs, which are increasingly common and deadly adulterants in the growing opioid crisis. Throughout the literature the product ion at m/z 188 is often the most abundant fragment in the mass spectrometric analysis of fentanyl and fentanyl analogs, and this fragment is used for both qualitative and quantitative determinations. Our work shows there are at least three different structures for the isobaric fentanyl product ions at m/z 188, and they each form and fragment via different pathways. The development of fragmentation mechanisms to explain the observed fragmentation pathways of fentanyl and its main precursor 4‐ANPP helps contribute to the advancement of knowledge about fentanyl fragmentation and could provide important information for the identification of future fentanyl analogs.

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Fragmentation pathways of odd- and even-electron N-alkylated synthetic cathinones

Davidson

Sasiene

Jackson

2020

International Journal of Mass Spectrometry

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Studies on adenosine 5′-phosphosulfate reductase from desulfovibrio desulfuricans and thiobacillus thioparus I. The assay and purification

Peck

Deacon

Davidson

1965

Biochimica et Biophysica Acta (BBA) - Nucleic Acids and Protein

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Appendicitis risk prediction models in children presenting with right iliac fossa pain (RIFT study): a prospective, multicentre validation study

Nepogodiev¹,

Wilkin²,

Bradshaw³

et al. 2020

The Lancet Child & Adolescent Health

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Evidence before this study: Acute appendicitis is the most common general surgical emergency in children. Its diagnosis remains challenging and children presenting with acute right iliac fossa (RIF) pain may be admitted for clinical observation or undergo normal appendicectomy (removal of a histologically normal appendix). A search for external validation studies of risk prediction models for acute appendicitis in children was performed on MEDLINE and Web of Science on 12 January 2017 using the search terms ["appendicitis" OR "appendectomy" OR "appendicectomy"] AND ["score" OR "model" OR "nomogram" OR "scoring"]. Studies validating prediction models aimed at differentiating acute appendicitis from all other causes of RIF pain were included. No date restrictions were applied. Validation studies were most commonly performed for the Alvarado, Appendicitis Inflammatory Response Score (AIRS), and Paediatric Appendicitis Score (PAS) models. Most validation studies were based on retrospective, single centre, or small cohorts, and findings regarding model performance were inconsistent. There was no high quality evidence to guide selection of the optimum model and threshold cutoff for identification of low-risk children in the UK and Ireland. Added value of this study: Most children admitted to hospital with RIF pain do not undergo surgery. When children do undergo appendicectomy, removal of a normal appendix (normal appendicectomy) is common, occurring in around 1 in 6 children. The Shera score is able to identify a large low-risk group of children who present with acute RIF pain but do not have acute appendicitis (specificity 44%). This low-risk group has an overall 1 in 30 risk of acute appendicitis and a 1 in 270 risk of perforated appendicitis. The Shera score is unable to achieve a sufficiently high positive predictive value to select a high-risk group who should proceed directly to surgery. Current diagnostic performance of ultrasound is also too poor to select children for surgery. Implications of all the available evidence: Routine pre-operative risk scoring could inform shared decision making by doctors, children, and parents by supporting safe selection of lowrisk patients for ambulatory management, reducing unnecessary admissions and normal appendicectomy. Hospitals should ensure seven-day-a-week availability of ultrasound for medium and high-risk patients. Ultrasound should be performed by operators trained to assess for acute appendicitis in children. For children in whom diagnostic uncertainty remains following ultrasound, magnetic resonance imaging (MRI) or low-dose computed tomography (CT) are second-line investigations.

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The influence of chemical modifications on the fragmentation behavior of fentanyl and fentanyl‐related compounds in electrospray ionization tandem mass spectrometry

Davidson

Sasiene

Jackson

2020

Drug Testing and Analysis

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Fentanyl is a synthetic opioid that has been approved by the FDA as a general anesthetic because of its rapid onset and high potency. However, since 2013 an opioid epidemic involving fentanyl or fentanyl‐related compounds (FRCs) has swept the United States and caused numerous deaths in every state. The identification of novel FRCs is complicated by the rapid turnover of modifications to the core fentanyl structure. In this study, a series of 16 FRCs were analyzed using electrospray ionization tandem mass spectrometry (ESI‐MS/MS) to gain a deeper understanding of the conserved and unique fragmentation behaviors associated with substitution to the core fentanyl structure. This work provides an approach, based on the product ions from ESI‐MS/MS, to identify the modification site(s) on the core fentanyl structure for FRCs. Five common locations of substitution to the core fentanyl structure were used to assess the effect of substitution on the fragmentation behavior of FRCs. The proposed fragmentation pathways are supported through the combination of isotopic labeling, multi‐stage mass spectrometry (MSn), and accurate mass measurements with high‐resolution mass spectrometry (HRMS). The identification of primary product ions specific to regions of substitution provides an additional tool for the identification of the location of substitution to the core fentanyl structure, which ultimately will assist toxicologists and seized drug analysts in the identification of emerging FRCs.

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J. Tyler Davidson

The characterization of isobaric product ions of fentanyl using multi‐stage mass spectrometry, high‐resolution mass spectrometry and isotopic labeling

Fragmentation pathways of odd- and even-electron N-alkylated synthetic cathinones

Studies on adenosine 5′-phosphosulfate reductase from desulfovibrio desulfuricans and thiobacillus thioparus I. The assay and purification

Appendicitis risk prediction models in children presenting with right iliac fossa pain (RIFT study): a prospective, multicentre validation study

The influence of chemical modifications on the fragmentation behavior of fentanyl and fentanyl‐related compounds in electrospray ionization tandem mass spectrometry

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