In vivo photoacoustic and fluorescence cystography using clinically relevant dual modal indocyanine green

Sungjo Park; Jeesu Kim; Mansik Jeon; Jaewon Song; Chulhong Kim

doi:10.3390/s141019660

In vivo photoacoustic and fluorescence cystography using clinically relevant dual modal indocyanine green

Sungjo Park
, Jeesu Kim
, Mansik Jeon
, Jaewon Song
, Chulhong Kim

School of Electronics Engineering

Kyungpook National University
Pohang University of Science and Technology

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

32 Scopus citations

Abstract

Conventional X-ray-based cystography uses radio-opaque materials, but this method uses harmful ionizing radiation and is not sensitive. In this study, we demonstrate nonionizing and noninvasive photoacoustic (PA) and fluorescence (FL) cystography using clinically relevant indocyanine green (ICG) in vivo. After transurethral injection of ICG into rats through a catheter, their bladders were photoacoustically and fluorescently visualized. A deeply positioned bladder below the skin surface (i.e., ~1.5–5 mm) was clearly visible in the PA and FL image using a laser pulse energy of less than 2 mJ/cm2 (1/15 of the safety limit). Then, the in vivo imaging results were validated through in situ studies. Our results suggest that dual modal cystography can provide a nonionizing and noninvasive imaging tool for bladder mapping.

Original language	English
Pages (from-to)	19660-19668
Number of pages	9
Journal	Sensors
Volume	14
Issue number	10
DOIs	https://doi.org/10.3390/s141019660
State	Published - 21 Oct 2014

Keywords

Cystography
Fluorescence image
Indocyanine green
Photoacoustic tomography

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10.3390/s141019660

Cite this

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title = "In vivo photoacoustic and fluorescence cystography using clinically relevant dual modal indocyanine green",

abstract = "Conventional X-ray-based cystography uses radio-opaque materials, but this method uses harmful ionizing radiation and is not sensitive. In this study, we demonstrate nonionizing and noninvasive photoacoustic (PA) and fluorescence (FL) cystography using clinically relevant indocyanine green (ICG) in vivo. After transurethral injection of ICG into rats through a catheter, their bladders were photoacoustically and fluorescently visualized. A deeply positioned bladder below the skin surface (i.e., \textasciitilde{}1.5–5 mm) was clearly visible in the PA and FL image using a laser pulse energy of less than 2 mJ/cm2 (1/15 of the safety limit). Then, the in vivo imaging results were validated through in situ studies. Our results suggest that dual modal cystography can provide a nonionizing and noninvasive imaging tool for bladder mapping.",

keywords = "Cystography, Fluorescence image, Indocyanine green, Photoacoustic tomography",

author = "Sungjo Park and Jeesu Kim and Mansik Jeon and Jaewon Song and Chulhong Kim",

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doi = "10.3390/s141019660",

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T1 - In vivo photoacoustic and fluorescence cystography using clinically relevant dual modal indocyanine green

AU - Park, Sungjo

AU - Kim, Jeesu

AU - Jeon, Mansik

AU - Song, Jaewon

AU - Kim, Chulhong

PY - 2014/10/21

Y1 - 2014/10/21

N2 - Conventional X-ray-based cystography uses radio-opaque materials, but this method uses harmful ionizing radiation and is not sensitive. In this study, we demonstrate nonionizing and noninvasive photoacoustic (PA) and fluorescence (FL) cystography using clinically relevant indocyanine green (ICG) in vivo. After transurethral injection of ICG into rats through a catheter, their bladders were photoacoustically and fluorescently visualized. A deeply positioned bladder below the skin surface (i.e., ~1.5–5 mm) was clearly visible in the PA and FL image using a laser pulse energy of less than 2 mJ/cm2 (1/15 of the safety limit). Then, the in vivo imaging results were validated through in situ studies. Our results suggest that dual modal cystography can provide a nonionizing and noninvasive imaging tool for bladder mapping.

AB - Conventional X-ray-based cystography uses radio-opaque materials, but this method uses harmful ionizing radiation and is not sensitive. In this study, we demonstrate nonionizing and noninvasive photoacoustic (PA) and fluorescence (FL) cystography using clinically relevant indocyanine green (ICG) in vivo. After transurethral injection of ICG into rats through a catheter, their bladders were photoacoustically and fluorescently visualized. A deeply positioned bladder below the skin surface (i.e., ~1.5–5 mm) was clearly visible in the PA and FL image using a laser pulse energy of less than 2 mJ/cm2 (1/15 of the safety limit). Then, the in vivo imaging results were validated through in situ studies. Our results suggest that dual modal cystography can provide a nonionizing and noninvasive imaging tool for bladder mapping.

KW - Cystography

KW - Fluorescence image

KW - Indocyanine green

KW - Photoacoustic tomography

UR - https://www.scopus.com/pages/publications/84908518159

U2 - 10.3390/s141019660

DO - 10.3390/s141019660

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SN - 1424-8220

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SP - 19660

EP - 19668

JO - Sensors

JF - Sensors

IS - 10

ER -

In vivo photoacoustic and fluorescence cystography using clinically relevant dual modal indocyanine green

Abstract

Keywords

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