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Case Reports in Surgery and Invasive Procedures | Volume 3

March 11-12, 2019 | London, UK

Biomarkers

Plastic and Cosmetic Surgery

International Conference on

International Conference on

Joint Event

&

Epitope-specific antibody profiling using novel multiplex immunoassay: Anewgenerationof biomarker

for food allergy

Mayte Suarez Farinas

Icahn School of Medicine at Mount Sinai, USA

I

dentification of allergenic IgE epitopes is instrumental for

the advancement of diagnostic and prognostic tests for food

allergy. We have developed a novel Bead-Based Epitope Assay

(BBEA) that quantifies epitope-specific antibody binding (ESAB)

for multiple epitopes in a large number of samples. We show

that this assay had impressive reliability across replicates, high

reproducibility across laboratories, and is more reliable and

sensitive than current peptide microarray (MIA) technology.

The potential of BBEA as new tool for diagnosis, prognosis and

endotype discovery in peanut and milk allergy will be illustrated

in three applications that use BBEA-based IgE and IgG4 binding

to sequential allergenic epitopes.

Diagnosis of oral food challenges (OFC)

: Despite intense

resource utilization and inherent risk, OFC remain the gold

standard for clinical diagnosis of food allergy. Utilizing a cohort

of 185 high-risk children from the CoFAR study, we determined

their utility in predicting peanut allergy.

Prediction of allergy endotypes

: Using BBEA profiles from 89

milk-allergic children who tolerated different forms of milk

products we used machine learning methods to distinguish

them into four endotypes: reactive to baked-, fermented-, or

whole-milk, and outgrown. BBEA’s performance was twice that

of the serum component proteins (41.9%) in training, achieving

a performance in the validation set (n=21) of 86%(AUC=0.89).

Prognosis in oral immunotherapy

: Although recent clinical

trials have shown that the majority of patients undergoing oral

immunotherapy develop desensitization only half would achieve

“sustained unresponsiveness” after therapy discontinuation.

Using serum from 47 subjects prior to treatment, we show

that epitope-specific IgE alone was more accurate in predicting

sustained unresponsiveness than standard serum component

proteins (average AUC of 97% vs 80%).

This work highlights the potential of BBEA biomarker discovery

to develop precision medicine approaches to diagnose allergy,

predict severity endotype, and screen patients who would

receive the most benefit from oral immunotherapy.

Speaker Biography

Mayte Suarez Farinas, is currently an associate professor at the center for biostatistics

and the department of genetics and genomics science of the Icahn school of medicine

at Mount Sinai, New York. She received a master’s in mathematics from the University

of Havana, Cuba and in 2003, a PhD degree in quantitative analysis from the Pontifical

Catholic University of Rio de Janeiro, Brazil. In the last three years she teams up with

food allergy investigators at the Icahn School of Medicine at Mount Sinai and Allergenis

to develop a high-throughput assay for epitope profiling and use it to develop precision

medicine algorithms to diagnosis, endotype and response to immunotherapy in patients

with milk and peanut allergy. She has over 140 publications that have been cited in over

4000 articles, with an H-index of 44 and has been serving as reviewer of reputed journals

and grant funding agencies.

e

:

mayte.suarezfarinas@mssm.edu