Russ Peloquin scite author profile

Russ Peloquin

3Publications

9Citation Statements Received

0Citation Statements Given

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Diagnostic accuracy of a fully automated multiplex celiac disease antibody panel for serum and plasma

Terryberry¹,

Tuomi²,

Perampalam³

et al. 2019

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Background An automated multiplex platform using capillary blood can promote greater throughput and more comprehensive studies in celiac disease (CD). Diagnostic accuracy should be improved using likelihood ratios for the post-test probability of ruling-in disease. Methods The Ig_plex™ Celiac Disease Panel on the sqidlite™ automated platform measured IgA and IgG antibodies to tTG and DGP in n = 224 CD serum or plasma samples. Diagnostic accuracy metrics were applied to the combined multiplex test results for several CD populations and compared to conventional single antibody ELISA tests. Results With multiple positive antibody results, the post-test probability for ruling-in untreated and treated CD increased to over 90%. The number of samples positive for more than one antibody also increased in untreated CD to ≥90%. Measurement of all four CD antibodies generate cut-off dependent accuracy profiles that can monitor response to treatment with the gluten-free diet (GFD). Higher positive tTG and DGP antibodies are seen more frequently in confirmed CD without (81%–94%) than with GFD treatment (44%–64%). In CD lacking biopsy confirmation, overall agreement of plasma to serum was ≥98% for all antibodies, and 100% for venous to capillary plasma. Conclusions The Ig_plex Celiac Disease Panel increases the likelihood of confirming CD based on the post-test probability of disease results for multi-reactive markers. Specific positivity profiles and cut-off intervals can be used to monitor GFD treatment and likely disease progression. Using serum, venous and capillary plasma yield comparable and accurate results.

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Emerging Technologies for Biotherapeutic Bioanalysis from a High-Throughput and Multiplexing Perspective: Insights from an AAPS Emerging Technology Action Program Committee

et al. 2018

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This manuscript aims to provide insights and updates on emerging technologies from a throughput and multiplexing perspective and to update readers on changes in previously reported technologies. The technologies discussed range from nascent (ultrasensitive Cira, Intellicyt, Dynaxi and Captsure™) to the more established (Ella and SQIDlite™). For the nascent technologies, there was an emphasis on user interviews and reviews, where available, to help provide an unbiased view to our readers. For the Ella, a review of published user data as well as author and other user experiences are summarized. Due to their emergent nature, all the technologies described are applicable in the early drug development stage, may require an upfront investment of capital and may not perform as expected.

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Phenacetin-Induced Hemolytic Anemia

Millar¹,

Peloquin²,

Leeuw³

1963

JAMA

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The hematological features of phenacetin-induced hemolytic anemia are presented in order to make the physician aware of the abnormalities which suggest the use of an oxidant drug. The presence of "bitten out" red cells is the commonest initial clue to the existence of drug-induced hemolytic anemia. The diagnosis is confirmed by the demonstration of Heinz bodies and sulfhemoglobinemia. Early recognition of this form of drug-abuse may avert the development or progression of analgesic nephropathy.

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Russ Peloquin

Diagnostic accuracy of a fully automated multiplex celiac disease antibody panel for serum and plasma

Emerging Technologies for Biotherapeutic Bioanalysis from a High-Throughput and Multiplexing Perspective: Insights from an AAPS Emerging Technology Action Program Committee

Phenacetin-Induced Hemolytic Anemia

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