Stamping SERS for creatinine sensing

Ming Li; Yong Du; Fusheng Zhao; Jianbo Zeng; Greggy M. Santos; Chandra Mohan; Wei-Chuan Shih

doi:10.1117/12.2078530

Stamping SERS for creatinine sensing

Ming Li, Yong Du, Fusheng Zhao, Jianbo Zeng, Greggy M. Santos, Chandra Mohan, Wei-Chuan Shih

Research output: Chapter in Book/Report/Conference proceeding › Conference proceeding contribution › peer-review

2 Citations (Scopus)

Abstract

Urine can be obtained easily, readily and non-invasively. The analysis of urine can provide metabolic information of the body and the condition of renal function. Creatinine is one of the major components of human urine associated with muscle metabolism. Since the content of creatinine excreted into urine is relatively constant, it is used as an internal standard to normalize water variations. Moreover, the detection of creatinine concentration in urine is important for the renal clearance test, which can monitor the filtration function of kidney and health status. In more details, kidney failure can be imminent when the creatinine concentration in urine is high. A simple device and protocol for creatinine sensing in urine samples can be valuable for point-of-care applications. We reported quantitative analysis of creatinine in urine samples by using stamping surface enhanced Raman scattering (S-SERS) technique with nanoporous gold disk (NPGD) based SERS substrate. S-SERS technique enables label-free and multiplexed molecular sensing under dry condition, while NPGD provides a robust, controllable, and high-sensitivity SERS substrate. The performance of S-SERS with NGPDs is evaluated by the detection and quantification of pure creatinine and creatinine in artificial urine within physiologically relevant concentration ranges.

Original language	English
Title of host publication	Plasmonics in Biology and Medicine XII
Editors	Tuan Vo-Dinh, Joseph R. Lakowicz
Place of Publication	Bellingham, WA
Publisher	SPIE
Pages	1-5
Number of pages	5
ISBN (Electronic)	9781628414301
DOIs	https://doi.org/10.1117/12.2078530
Publication status	Published - 2015
Externally published	Yes
Event	SPIE Photonics West 2015: Plasmonics in Biology and Medicine XII - San Francisco, United States Duration: 7 Feb 2015 → 8 Feb 2015

Publication series

Name	Proceedings of SPIE
Publisher	SPIE
Volume	9340
ISSN (Print)	1605-7422

Conference

Conference	SPIE Photonics West 2015
Country/Territory	United States
City	San Francisco
Period	7/02/15 → 8/02/15

Keywords

creatinine
SERS
nanoporous gold

Access to Document

10.1117/12.2078530

Cite this

@inproceedings{9b354fae8a9a4378ad90b2c60f8421e9,

title = "Stamping SERS for creatinine sensing",

abstract = "Urine can be obtained easily, readily and non-invasively. The analysis of urine can provide metabolic information of the body and the condition of renal function. Creatinine is one of the major components of human urine associated with muscle metabolism. Since the content of creatinine excreted into urine is relatively constant, it is used as an internal standard to normalize water variations. Moreover, the detection of creatinine concentration in urine is important for the renal clearance test, which can monitor the filtration function of kidney and health status. In more details, kidney failure can be imminent when the creatinine concentration in urine is high. A simple device and protocol for creatinine sensing in urine samples can be valuable for point-of-care applications. We reported quantitative analysis of creatinine in urine samples by using stamping surface enhanced Raman scattering (S-SERS) technique with nanoporous gold disk (NPGD) based SERS substrate. S-SERS technique enables label-free and multiplexed molecular sensing under dry condition, while NPGD provides a robust, controllable, and high-sensitivity SERS substrate. The performance of S-SERS with NGPDs is evaluated by the detection and quantification of pure creatinine and creatinine in artificial urine within physiologically relevant concentration ranges.",

keywords = "creatinine, SERS, nanoporous gold",

author = "Ming Li and Yong Du and Fusheng Zhao and Jianbo Zeng and Santos, {Greggy M.} and Chandra Mohan and Wei-Chuan Shih",

year = "2015",

doi = "10.1117/12.2078530",

language = "English",

series = "Proceedings of SPIE",

publisher = "SPIE",

pages = "1--5",

editor = "Tuan Vo-Dinh and Lakowicz, {Joseph R.}",

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address = "United States",

note = "SPIE Photonics West 2015 : Plasmonics in Biology and Medicine XII ; Conference date: 07-02-2015 Through 08-02-2015",

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TY - GEN

T1 - Stamping SERS for creatinine sensing

AU - Li, Ming

AU - Du, Yong

AU - Zhao, Fusheng

AU - Zeng, Jianbo

AU - Santos, Greggy M.

AU - Mohan, Chandra

AU - Shih, Wei-Chuan

PY - 2015

Y1 - 2015

N2 - Urine can be obtained easily, readily and non-invasively. The analysis of urine can provide metabolic information of the body and the condition of renal function. Creatinine is one of the major components of human urine associated with muscle metabolism. Since the content of creatinine excreted into urine is relatively constant, it is used as an internal standard to normalize water variations. Moreover, the detection of creatinine concentration in urine is important for the renal clearance test, which can monitor the filtration function of kidney and health status. In more details, kidney failure can be imminent when the creatinine concentration in urine is high. A simple device and protocol for creatinine sensing in urine samples can be valuable for point-of-care applications. We reported quantitative analysis of creatinine in urine samples by using stamping surface enhanced Raman scattering (S-SERS) technique with nanoporous gold disk (NPGD) based SERS substrate. S-SERS technique enables label-free and multiplexed molecular sensing under dry condition, while NPGD provides a robust, controllable, and high-sensitivity SERS substrate. The performance of S-SERS with NGPDs is evaluated by the detection and quantification of pure creatinine and creatinine in artificial urine within physiologically relevant concentration ranges.

AB - Urine can be obtained easily, readily and non-invasively. The analysis of urine can provide metabolic information of the body and the condition of renal function. Creatinine is one of the major components of human urine associated with muscle metabolism. Since the content of creatinine excreted into urine is relatively constant, it is used as an internal standard to normalize water variations. Moreover, the detection of creatinine concentration in urine is important for the renal clearance test, which can monitor the filtration function of kidney and health status. In more details, kidney failure can be imminent when the creatinine concentration in urine is high. A simple device and protocol for creatinine sensing in urine samples can be valuable for point-of-care applications. We reported quantitative analysis of creatinine in urine samples by using stamping surface enhanced Raman scattering (S-SERS) technique with nanoporous gold disk (NPGD) based SERS substrate. S-SERS technique enables label-free and multiplexed molecular sensing under dry condition, while NPGD provides a robust, controllable, and high-sensitivity SERS substrate. The performance of S-SERS with NGPDs is evaluated by the detection and quantification of pure creatinine and creatinine in artificial urine within physiologically relevant concentration ranges.

KW - creatinine

KW - SERS

KW - nanoporous gold

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U2 - 10.1117/12.2078530

DO - 10.1117/12.2078530

M3 - Conference proceeding contribution

T3 - Proceedings of SPIE

SP - 1

EP - 5

BT - Plasmonics in Biology and Medicine XII

A2 - Vo-Dinh, Tuan

A2 - Lakowicz, Joseph R.

PB - SPIE

CY - Bellingham, WA

T2 - SPIE Photonics West 2015

Y2 - 7 February 2015 through 8 February 2015

ER -

Stamping SERS for creatinine sensing

Abstract

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Keywords

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