Novel insights into tissue-specific biochemical alterations in pediatric eosinophilic esophagitis using raman spectroscopy

Girish Hiremath; Andrea Locke; Giju Thomas; Rekha Gautam; Sari Acra; Hernan Correa; Evan S. Dellon; Anita Mahadevan-Jansen

doi:10.14309/ctg.0000000000000195

Novel insights into tissue-specific biochemical alterations in pediatric eosinophilic esophagitis using raman spectroscopy

Girish Hiremath
, Andrea Locke
, Giju Thomas
, Rekha Gautam
, Sari Acra
, Hernan Correa
, Evan S. Dellon
, Anita Mahadevan-Jansen

Research output: Contribution to journal › Article › peer-review

Abstract

INTRODUCTION:Elucidating esophageal biochemical composition in eosinophilic esophagitis (EoE) can offer novel insights into its pathogenesis, which remains unclear. Using Raman spectroscopy, we profiled and compared the biochemical composition of esophageal samples obtained from children with active (aEoE) and inactive EoE (iEoE) with non-EoE controls, examined the relationship between spectral markers and validated EoE activity indices.METHODS:In vitro Raman spectra from children with aEoE (n = 8; spectra = 51) and iEoE (n = 6; spectra = 48) and from non-EoE controls (n = 10; spectra = 75) were acquired. Mann-Whitney test was used to assess the differences in their Raman intensities (median [interquartile range]) and identify spectral markers. Spearman correlation was used to evaluate the relationship between spectral markers and endoscopic and histologic activity indices.RESULTS:Raman peaks attributable to glycogen content (936/1,449 cm^-1) was lower in children with aEoE (0.20 [0.18-0.21]) compared with that in non-EoE controls (0.24 [0.23-0.29]). Raman intensity of proteins (1,660/1,209 cm^-1) was higher in children with aEoE compared with that in non-EoE controls (3.20 [3.07-3.50] vs 2.91 [2.59-3.05]; P = 0.01), whereas that of lipids (1,301/1,260 cm^-1) was higher in children with iEoE (1.56 [1.49-1.63]) compared with children with aEoE (1.40 [1.30-1.48]; P = 0.02). Raman peaks attributable to glycogen and lipid inversely correlated with eosinophilic inflammation and basal zone hyperplasia. Raman mapping substantiated our findings.DISCUSSION:This is the first study to identify spectral traits of the esophageal samples related to EoE activity and tissue pathology and to profile tissue-level biochemical composition associated with pediatric EoE. Future research to determine the role of these biochemical alterations in development and clinical course of EoE can advance our understanding of EoE pathobiology.

Original language	English
Article number	e00195
Journal	Clinical and Translational Gastroenterology
Volume	11
Issue number	7
DOIs	https://doi.org/10.14309/ctg.0000000000000195
Publication status	Published - 2020
Externally published	Yes

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10.14309/ctg.0000000000000195

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@article{546a90b8200d474bbe8060cedfb1f5f0,

title = "Novel insights into tissue-specific biochemical alterations in pediatric eosinophilic esophagitis using raman spectroscopy",

abstract = "INTRODUCTION:Elucidating esophageal biochemical composition in eosinophilic esophagitis (EoE) can offer novel insights into its pathogenesis, which remains unclear. Using Raman spectroscopy, we profiled and compared the biochemical composition of esophageal samples obtained from children with active (aEoE) and inactive EoE (iEoE) with non-EoE controls, examined the relationship between spectral markers and validated EoE activity indices.METHODS:In vitro Raman spectra from children with aEoE (n = 8; spectra = 51) and iEoE (n = 6; spectra = 48) and from non-EoE controls (n = 10; spectra = 75) were acquired. Mann-Whitney test was used to assess the differences in their Raman intensities (median [interquartile range]) and identify spectral markers. Spearman correlation was used to evaluate the relationship between spectral markers and endoscopic and histologic activity indices.RESULTS:Raman peaks attributable to glycogen content (936/1,449 cm-1) was lower in children with aEoE (0.20 [0.18-0.21]) compared with that in non-EoE controls (0.24 [0.23-0.29]). Raman intensity of proteins (1,660/1,209 cm-1) was higher in children with aEoE compared with that in non-EoE controls (3.20 [3.07-3.50] vs 2.91 [2.59-3.05]; P = 0.01), whereas that of lipids (1,301/1,260 cm-1) was higher in children with iEoE (1.56 [1.49-1.63]) compared with children with aEoE (1.40 [1.30-1.48]; P = 0.02). Raman peaks attributable to glycogen and lipid inversely correlated with eosinophilic inflammation and basal zone hyperplasia. Raman mapping substantiated our findings.DISCUSSION:This is the first study to identify spectral traits of the esophageal samples related to EoE activity and tissue pathology and to profile tissue-level biochemical composition associated with pediatric EoE. Future research to determine the role of these biochemical alterations in development and clinical course of EoE can advance our understanding of EoE pathobiology.",

author = "Girish Hiremath and Andrea Locke and Giju Thomas and Rekha Gautam and Sari Acra and Hernan Correa and Dellon, \{Evan S.\} and Anita Mahadevan-Jansen",

year = "2020",

doi = "10.14309/ctg.0000000000000195",

language = "English",

volume = "11",

journal = "Clinical and Translational Gastroenterology",

issn = "2155-384X",

publisher = "Lippincott Williams and Wilkins",

number = "7",

}

TY - JOUR

T1 - Novel insights into tissue-specific biochemical alterations in pediatric eosinophilic esophagitis using raman spectroscopy

AU - Hiremath, Girish

AU - Locke, Andrea

AU - Thomas, Giju

AU - Gautam, Rekha

AU - Acra, Sari

AU - Correa, Hernan

AU - Dellon, Evan S.

AU - Mahadevan-Jansen, Anita

PY - 2020

Y1 - 2020

N2 - INTRODUCTION:Elucidating esophageal biochemical composition in eosinophilic esophagitis (EoE) can offer novel insights into its pathogenesis, which remains unclear. Using Raman spectroscopy, we profiled and compared the biochemical composition of esophageal samples obtained from children with active (aEoE) and inactive EoE (iEoE) with non-EoE controls, examined the relationship between spectral markers and validated EoE activity indices.METHODS:In vitro Raman spectra from children with aEoE (n = 8; spectra = 51) and iEoE (n = 6; spectra = 48) and from non-EoE controls (n = 10; spectra = 75) were acquired. Mann-Whitney test was used to assess the differences in their Raman intensities (median [interquartile range]) and identify spectral markers. Spearman correlation was used to evaluate the relationship between spectral markers and endoscopic and histologic activity indices.RESULTS:Raman peaks attributable to glycogen content (936/1,449 cm-1) was lower in children with aEoE (0.20 [0.18-0.21]) compared with that in non-EoE controls (0.24 [0.23-0.29]). Raman intensity of proteins (1,660/1,209 cm-1) was higher in children with aEoE compared with that in non-EoE controls (3.20 [3.07-3.50] vs 2.91 [2.59-3.05]; P = 0.01), whereas that of lipids (1,301/1,260 cm-1) was higher in children with iEoE (1.56 [1.49-1.63]) compared with children with aEoE (1.40 [1.30-1.48]; P = 0.02). Raman peaks attributable to glycogen and lipid inversely correlated with eosinophilic inflammation and basal zone hyperplasia. Raman mapping substantiated our findings.DISCUSSION:This is the first study to identify spectral traits of the esophageal samples related to EoE activity and tissue pathology and to profile tissue-level biochemical composition associated with pediatric EoE. Future research to determine the role of these biochemical alterations in development and clinical course of EoE can advance our understanding of EoE pathobiology.

AB - INTRODUCTION:Elucidating esophageal biochemical composition in eosinophilic esophagitis (EoE) can offer novel insights into its pathogenesis, which remains unclear. Using Raman spectroscopy, we profiled and compared the biochemical composition of esophageal samples obtained from children with active (aEoE) and inactive EoE (iEoE) with non-EoE controls, examined the relationship between spectral markers and validated EoE activity indices.METHODS:In vitro Raman spectra from children with aEoE (n = 8; spectra = 51) and iEoE (n = 6; spectra = 48) and from non-EoE controls (n = 10; spectra = 75) were acquired. Mann-Whitney test was used to assess the differences in their Raman intensities (median [interquartile range]) and identify spectral markers. Spearman correlation was used to evaluate the relationship between spectral markers and endoscopic and histologic activity indices.RESULTS:Raman peaks attributable to glycogen content (936/1,449 cm-1) was lower in children with aEoE (0.20 [0.18-0.21]) compared with that in non-EoE controls (0.24 [0.23-0.29]). Raman intensity of proteins (1,660/1,209 cm-1) was higher in children with aEoE compared with that in non-EoE controls (3.20 [3.07-3.50] vs 2.91 [2.59-3.05]; P = 0.01), whereas that of lipids (1,301/1,260 cm-1) was higher in children with iEoE (1.56 [1.49-1.63]) compared with children with aEoE (1.40 [1.30-1.48]; P = 0.02). Raman peaks attributable to glycogen and lipid inversely correlated with eosinophilic inflammation and basal zone hyperplasia. Raman mapping substantiated our findings.DISCUSSION:This is the first study to identify spectral traits of the esophageal samples related to EoE activity and tissue pathology and to profile tissue-level biochemical composition associated with pediatric EoE. Future research to determine the role of these biochemical alterations in development and clinical course of EoE can advance our understanding of EoE pathobiology.

UR - https://www.scopus.com/pages/publications/85089301754

U2 - 10.14309/ctg.0000000000000195

DO - 10.14309/ctg.0000000000000195

M3 - Article

C2 - 32764208

AN - SCOPUS:85089301754

SN - 2155-384X

VL - 11

JO - Clinical and Translational Gastroenterology

JF - Clinical and Translational Gastroenterology

IS - 7

M1 - e00195

ER -

Novel insights into tissue-specific biochemical alterations in pediatric eosinophilic esophagitis using raman spectroscopy

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