Real-time Raman system for in vivo disease diagnosis

Jason T. Motz; Saumil J. Gandhi; Obrad R. Scepanovic; Abigail S. Haka; John R. Kramer; Ramachandra R. Dasari; Michael S. Feld

doi:10.1117/1.1920247

Real-time Raman system for in vivo disease diagnosis

Jason T. Motz, Saumil J. Gandhi, Obrad R. Scepanovic, Abigail S. Haka, John R. Kramer, Ramachandra R. Dasari, Michael S. Feld

Radiation Oncology

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

129 Scopus citations

Abstract

Raman spectroscopy has been well established as a powerful in vitro method for studying biological tissue and diagnosing disease. The recent development of efficient, high-throughput, lowbackground optical fiber Raman probes provides, for the first time, the, opportunity to obtain real-time performance in the clinic. We present an instrument for in vivo tissue analysis which is capable of collecting and processing Raman spectra in less than 2 s. This is the first demonstration that data acquisition, analysis, and diagnostics can be performed in clinically relevant times. The instrument is designed to work with the new Raman probes and includes custom written LabVIEW and Matlab programs to provide accurate spectral calibration, analysis, and diagnosis along with important safety features related to laser exposure. The real-time capabilities of the system were demonstrated in vivo during femoral bypass and breast lumpectomy surgeries. Such a system will greatly facilitate the adoption of Raman spectroscopy into clinical research and practice.

Original language	English (US)
Article number	031113
Journal	Journal of Biomedical Optics
Volume	10
Issue number	3
DOIs	https://doi.org/10.1117/1.1920247
State	Published - May 1 2005

Keywords

Atherosclerosis
Breast cancer
In vivo Raman spectroscopy
Raman probes
Real-time diagnosis

ASJC Scopus subject areas

Biomedical Engineering
Biomaterials
Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Radiology Nuclear Medicine and imaging
Radiological and Ultrasound Technology
Clinical Biochemistry

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title = "Real-time Raman system for in vivo disease diagnosis",

abstract = "Raman spectroscopy has been well established as a powerful in vitro method for studying biological tissue and diagnosing disease. The recent development of efficient, high-throughput, lowbackground optical fiber Raman probes provides, for the first time, the, opportunity to obtain real-time performance in the clinic. We present an instrument for in vivo tissue analysis which is capable of collecting and processing Raman spectra in less than 2 s. This is the first demonstration that data acquisition, analysis, and diagnostics can be performed in clinically relevant times. The instrument is designed to work with the new Raman probes and includes custom written LabVIEW and Matlab programs to provide accurate spectral calibration, analysis, and diagnosis along with important safety features related to laser exposure. The real-time capabilities of the system were demonstrated in vivo during femoral bypass and breast lumpectomy surgeries. Such a system will greatly facilitate the adoption of Raman spectroscopy into clinical research and practice.",

keywords = "Atherosclerosis, Breast cancer, In vivo Raman spectroscopy, Raman probes, Real-time diagnosis",

author = "Motz, {Jason T.} and Gandhi, {Saumil J.} and Scepanovic, {Obrad R.} and Haka, {Abigail S.} and Kramer, {John R.} and Dasari, {Ramachandra R.} and Feld, {Michael S.}",

note = "Funding Information: The authors thank Dr. Arnold Miller, Dr. Maryann Fitzmau-rice, and Dr. Joseph Crowe for their assistance in clinical procedures and pathological diagnosis. This research was sponsored by the NIH (Grant No. R01-HL-64675) and the National Center for Research Resources program (Grant No. P41-RR-02594). Support was also generously contributed by the Pfizer Corporation and the Lord Foundation of MIT.",

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doi = "10.1117/1.1920247",

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AU - Motz, Jason T.

AU - Gandhi, Saumil J.

AU - Scepanovic, Obrad R.

AU - Haka, Abigail S.

AU - Kramer, John R.

AU - Dasari, Ramachandra R.

AU - Feld, Michael S.

N1 - Funding Information: The authors thank Dr. Arnold Miller, Dr. Maryann Fitzmau-rice, and Dr. Joseph Crowe for their assistance in clinical procedures and pathological diagnosis. This research was sponsored by the NIH (Grant No. R01-HL-64675) and the National Center for Research Resources program (Grant No. P41-RR-02594). Support was also generously contributed by the Pfizer Corporation and the Lord Foundation of MIT.

PY - 2005/5/1

Y1 - 2005/5/1

N2 - Raman spectroscopy has been well established as a powerful in vitro method for studying biological tissue and diagnosing disease. The recent development of efficient, high-throughput, lowbackground optical fiber Raman probes provides, for the first time, the, opportunity to obtain real-time performance in the clinic. We present an instrument for in vivo tissue analysis which is capable of collecting and processing Raman spectra in less than 2 s. This is the first demonstration that data acquisition, analysis, and diagnostics can be performed in clinically relevant times. The instrument is designed to work with the new Raman probes and includes custom written LabVIEW and Matlab programs to provide accurate spectral calibration, analysis, and diagnosis along with important safety features related to laser exposure. The real-time capabilities of the system were demonstrated in vivo during femoral bypass and breast lumpectomy surgeries. Such a system will greatly facilitate the adoption of Raman spectroscopy into clinical research and practice.

AB - Raman spectroscopy has been well established as a powerful in vitro method for studying biological tissue and diagnosing disease. The recent development of efficient, high-throughput, lowbackground optical fiber Raman probes provides, for the first time, the, opportunity to obtain real-time performance in the clinic. We present an instrument for in vivo tissue analysis which is capable of collecting and processing Raman spectra in less than 2 s. This is the first demonstration that data acquisition, analysis, and diagnostics can be performed in clinically relevant times. The instrument is designed to work with the new Raman probes and includes custom written LabVIEW and Matlab programs to provide accurate spectral calibration, analysis, and diagnosis along with important safety features related to laser exposure. The real-time capabilities of the system were demonstrated in vivo during femoral bypass and breast lumpectomy surgeries. Such a system will greatly facilitate the adoption of Raman spectroscopy into clinical research and practice.

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KW - Breast cancer

KW - In vivo Raman spectroscopy

KW - Raman probes

KW - Real-time diagnosis

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Real-time Raman system for in vivo disease diagnosis

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Keywords

ASJC Scopus subject areas

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