Characterization of the Pancreas in Vivo Using EUS Spectrum Analysis with Electronic Array Echoendoscopes

Ronald Kumon; Aparna Repaka; Matthew Atkinson; Ashley L. Faulx; Richard C.K. Wong; Gerard A. Isenberg; Yi-Sing Hsiao; Madhu Sudhan Reddy Gudur; Cheri X. Deng; Amitabh Chak

doi:10.1016/j.gie.2012.01.039

Characterization of the Pancreas in Vivo Using EUS Spectrum Analysis with Electronic Array Echoendoscopes

Ronald Kumon, Aparna Repaka, Matthew Atkinson, Ashley L. Faulx, Richard C.K. Wong, Gerard A. Isenberg, Yi-Sing Hsiao, Madhu Sudhan Reddy Gudur, Cheri X. Deng, Amitabh Chak

Kettering University

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

Abstract

Background

Spectral analysis of the radiofrequency (RF) signals that underlie grayscale EUS images has been used to provide quantitative, objective information about tissue histology.

Objective

Our purpose was to validate RF spectral analysis as a method to distinguish between chronic pancreatitis (CP) and pancreatic cancer (PC).

Design and Setting

A prospective study of eligible patients was conducted to analyze the RF data obtained by using electronic array echoendoscopes.

Patients

Pancreatic images were obtained by using electronic array echoendoscopes from 41 patients in a prospective study, including 15 patients with PC, 15 with CP, and 11 with a normal pancreas.

Main Outcome Measurements

Midband fit, slope, intercept, correlation coefficient, and root mean square deviation from a linear regression of the calibrated power spectra were determined and compared among the groups.

Results

Statistical analysis showed that significant differences were observable between groups for mean midband fit, intercept, and root mean square deviation (t test, P < .05). Discriminant analysis of these parameters was then performed to classify the data. For CP (n = 15) versus PC (n = 15), the same parameters provided 83% accuracy and an area under the curve of 0.83.

Limitations

Moderate sample size and spatial averaging inherent in the technique.

Conclusions

This study shows that mean spectral parameters of the backscattered signals obtained by using electronic array echoendoscopes can provide a noninvasive method to quantitatively discriminate between CP and PC.

Original language	American English
Journal	Gastrointestinal Endoscopy
Volume	75
DOIs	https://doi.org/10.1016/j.gie.2012.01.039
State	Published - Apr 1 2012

Keywords

pancreas
EUS spectrum
electronic array echoendoscopes
RF spectral analysis

Disciplines

Physics

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10.1016/j.gie.2012.01.039License: CC BY

https://doi.org/10.1016/j.gie.2012.01.039

Cite this

@article{0c13b25d191f4183830080dc9c387af9,

title = "Characterization of the Pancreas in Vivo Using EUS Spectrum Analysis with Electronic Array Echoendoscopes",

abstract = " Background Spectral analysis of the radiofrequency (RF) signals that underlie grayscale EUS images has been used to provide quantitative, objective information about tissue histology. Objective Our purpose was to validate RF spectral analysis as a method to distinguish between chronic pancreatitis (CP) and pancreatic cancer (PC). Design and Setting A prospective study of eligible patients was conducted to analyze the RF data obtained by using electronic array echoendoscopes. Patients Pancreatic images were obtained by using electronic array echoendoscopes from 41 patients in a prospective study, including 15 patients with PC, 15 with CP, and 11 with a normal pancreas. Main Outcome Measurements Midband fit, slope, intercept, correlation coefficient, and root mean square deviation from a linear regression of the calibrated power spectra were determined and compared among the groups. Results Statistical analysis showed that significant differences were observable between groups for mean midband fit, intercept, and root mean square deviation (t test, P < .05). Discriminant analysis of these parameters was then performed to classify the data. For CP (n = 15) versus PC (n = 15), the same parameters provided 83% accuracy and an area under the curve of 0.83. Limitations Moderate sample size and spatial averaging inherent in the technique. Conclusions This study shows that mean spectral parameters of the backscattered signals obtained by using electronic array echoendoscopes can provide a noninvasive method to quantitatively discriminate between CP and PC.",

keywords = "pancreas, EUS spectrum, electronic array echoendoscopes, RF spectral analysis",

author = "Ronald Kumon and Aparna Repaka and Matthew Atkinson and Faulx, {Ashley L.} and Wong, {Richard C.K.} and Isenberg, {Gerard A.} and Yi-Sing Hsiao and Gudur, {Madhu Sudhan Reddy} and Deng, {Cheri X.} and Amitabh Chak",

year = "2012",

month = apr,

day = "1",

doi = "10.1016/j.gie.2012.01.039",

language = "American English",

volume = "75",

journal = "Gastrointestinal Endoscopy",

}

TY - JOUR

T1 - Characterization of the Pancreas in Vivo Using EUS Spectrum Analysis with Electronic Array Echoendoscopes

AU - Kumon, Ronald

AU - Repaka, Aparna

AU - Atkinson, Matthew

AU - Faulx, Ashley L.

AU - Wong, Richard C.K.

AU - Isenberg, Gerard A.

AU - Hsiao, Yi-Sing

AU - Gudur, Madhu Sudhan Reddy

AU - Deng, Cheri X.

AU - Chak, Amitabh

PY - 2012/4/1

Y1 - 2012/4/1

N2 - Background Spectral analysis of the radiofrequency (RF) signals that underlie grayscale EUS images has been used to provide quantitative, objective information about tissue histology. Objective Our purpose was to validate RF spectral analysis as a method to distinguish between chronic pancreatitis (CP) and pancreatic cancer (PC). Design and Setting A prospective study of eligible patients was conducted to analyze the RF data obtained by using electronic array echoendoscopes. Patients Pancreatic images were obtained by using electronic array echoendoscopes from 41 patients in a prospective study, including 15 patients with PC, 15 with CP, and 11 with a normal pancreas. Main Outcome Measurements Midband fit, slope, intercept, correlation coefficient, and root mean square deviation from a linear regression of the calibrated power spectra were determined and compared among the groups. Results Statistical analysis showed that significant differences were observable between groups for mean midband fit, intercept, and root mean square deviation (t test, P < .05). Discriminant analysis of these parameters was then performed to classify the data. For CP (n = 15) versus PC (n = 15), the same parameters provided 83% accuracy and an area under the curve of 0.83. Limitations Moderate sample size and spatial averaging inherent in the technique. Conclusions This study shows that mean spectral parameters of the backscattered signals obtained by using electronic array echoendoscopes can provide a noninvasive method to quantitatively discriminate between CP and PC.

AB - Background Spectral analysis of the radiofrequency (RF) signals that underlie grayscale EUS images has been used to provide quantitative, objective information about tissue histology. Objective Our purpose was to validate RF spectral analysis as a method to distinguish between chronic pancreatitis (CP) and pancreatic cancer (PC). Design and Setting A prospective study of eligible patients was conducted to analyze the RF data obtained by using electronic array echoendoscopes. Patients Pancreatic images were obtained by using electronic array echoendoscopes from 41 patients in a prospective study, including 15 patients with PC, 15 with CP, and 11 with a normal pancreas. Main Outcome Measurements Midband fit, slope, intercept, correlation coefficient, and root mean square deviation from a linear regression of the calibrated power spectra were determined and compared among the groups. Results Statistical analysis showed that significant differences were observable between groups for mean midband fit, intercept, and root mean square deviation (t test, P < .05). Discriminant analysis of these parameters was then performed to classify the data. For CP (n = 15) versus PC (n = 15), the same parameters provided 83% accuracy and an area under the curve of 0.83. Limitations Moderate sample size and spatial averaging inherent in the technique. Conclusions This study shows that mean spectral parameters of the backscattered signals obtained by using electronic array echoendoscopes can provide a noninvasive method to quantitatively discriminate between CP and PC.

KW - pancreas

KW - EUS spectrum

KW - electronic array echoendoscopes

KW - RF spectral analysis

UR - https://digitalcommons.kettering.edu/physics_facultypubs/29

UR - https://doi.org/10.1016/j.gie.2012.01.039

U2 - 10.1016/j.gie.2012.01.039

DO - 10.1016/j.gie.2012.01.039

M3 - Article

VL - 75

JO - Gastrointestinal Endoscopy

JF - Gastrointestinal Endoscopy

ER -

Characterization of the Pancreas in Vivo Using EUS Spectrum Analysis with Electronic Array Echoendoscopes

Abstract

Keywords

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