Simultaneous functional photoacoustic and ultrasonic endoscopy of internal organs in vivo
Joon-Mo Yang and colleagues have developed a new endoscopic technique for the in vivo imaging of internal organs, combining endoscopic ultrasound and photoacoustic endoscopy in a single instrument. In addition to improved resolution, imaging depth, multimodal contrast, and distal-end scanning, the n...
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| Vydáno v: | Nature medicine Ročník 18; číslo 8; s. 1297 - 1302 |
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| Hlavní autoři: | , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
| Vydáno: |
New York
Nature Publishing Group US
01.08.2012
Nature Publishing Group |
| Témata: | |
| ISSN: | 1078-8956, 1546-170X, 1546-170X |
| On-line přístup: | Získat plný text |
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| Abstract | Joon-Mo Yang and colleagues have developed a new endoscopic technique for the
in vivo
imaging of internal organs, combining endoscopic ultrasound and photoacoustic endoscopy in a single instrument. In addition to improved resolution, imaging depth, multimodal contrast, and distal-end scanning, the new hybrid imaging modality can also provide functional information such as hemoglobin concentration and blood oxygenation. Feasibility is shown
in vivo
by simultaneous photoacoustic endoscopy and endoscopic ultrasound imaging of the upper and lower gastrointestinal tracts of rats and rabbits.
At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures that provide treatment solutions for diseased organs. Ultrasound endoscopy not only produces high-resolution images, but also is safe for clinical use and broadly applicable. However, for soft tissue imaging, its mechanical wave–based image contrast fundamentally limits its ability to provide physiologically specific functional information. By contrast, photoacoustic endoscopy possesses a unique combination of functional optical contrast and high spatial resolution at clinically relevant depths, ideal for imaging soft tissues. With these attributes, photoacoustic endoscopy can overcome the current limitations of ultrasound endoscopy. Moreover, the benefits of photoacoustic imaging do not come at the expense of existing ultrasound functions; photoacoustic endoscopy systems are inherently compatible with ultrasound imaging, thereby enabling multimodality imaging with complementary contrast. Here we present simultaneous photoacoustic and ultrasonic dual-mode endoscopy and show its ability to image internal organs
in vivo
, thus illustrating its potential clinical application. |
|---|---|
| AbstractList | At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures that provide treatment solutions for diseased organs. Ultrasound endoscopy not only produces high-resolution images, but also is safe for clinical use and broadly applicable. However, for soft tissue imaging, its mechanical wave-based image contrast fundamentally limits its ability to provide physiologically specific functional information. By contrast, photoacoustic endoscopy possesses a unique combination of functional optical contrast and high spatial resolution at clinically relevant depths, ideal for imaging soft tissues. With these attributes, photoacoustic endoscopy can overcome the current limitations of ultrasound endoscopy. Moreover, the benefits of photoacoustic imaging do not come at the expense of existing ultrasound functions; photoacoustic endoscopy systems are inherently compatible with ultrasound imaging, thereby enabling multimodality imaging with complementary contrast. Here we present simultaneous photoacoustic and ultrasonic dual-mode endoscopy and show its ability to image internal organs in vivo, thus illustrating its potential clinical application.At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures that provide treatment solutions for diseased organs. Ultrasound endoscopy not only produces high-resolution images, but also is safe for clinical use and broadly applicable. However, for soft tissue imaging, its mechanical wave-based image contrast fundamentally limits its ability to provide physiologically specific functional information. By contrast, photoacoustic endoscopy possesses a unique combination of functional optical contrast and high spatial resolution at clinically relevant depths, ideal for imaging soft tissues. With these attributes, photoacoustic endoscopy can overcome the current limitations of ultrasound endoscopy. Moreover, the benefits of photoacoustic imaging do not come at the expense of existing ultrasound functions; photoacoustic endoscopy systems are inherently compatible with ultrasound imaging, thereby enabling multimodality imaging with complementary contrast. Here we present simultaneous photoacoustic and ultrasonic dual-mode endoscopy and show its ability to image internal organs in vivo, thus illustrating its potential clinical application. Presently, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures which provide treatment solutions for diseased organs. Ultrasound endoscopy not only produces high resolution images, it is also safe for clinical use and broadly applicable. However, for soft tissue imaging, its mechanical wave-based image contrast fundamentally limits its ability to provide physiologically-specific functional information. By contrast, photoacoustic endoscopy possesses a unique combination of functional optical contrast and high spatial resolution at clinically-relevant depths, ideal for soft tissue imaging. With these attributes, photoacoustic endoscopy can overcome the current limitations of ultrasound endoscopy. Moreover, the benefits of photoacoustic imaging do not come at the expense of existing ultrasound functions; photoacoustic endoscopy systems are inherently compatible with ultrasound imaging, enabling multi-modality imaging with complementary contrast. Here, we present simultaneous photoacoustic and ultrasonic dual-mode endoscopy and demonstrate its ability to image internal organs in vivo, illustrating its potential clinical application. At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures that provide treatment solutions for diseased organs. Ultrasound endoscopy not only produces high-resolution images, but also is safe for clinical use and broadly applicable. However, for soft tissue imaging, its mechanical wave-based image contrast fundamentally limits its ability to provide physiologically specific functional information. By contrast, photoacoustic endoscopy possesses a unique combination of functional optical contrast and high spatial resolution at clinically relevant depths, ideal for imaging soft tissues. With these attributes, photoacoustic endoscopy can overcome the current limitations of ultrasound endoscopy. Moreover, the benefits of photoacoustic imaging do not come at the expense of existing ultrasound functions; photoacoustic endoscopy systems are inherently compatible with ultrasound imaging, thereby enabling multimodality imaging with complementary contrast. Here we present simultaneous photoacoustic and ultrasonic dual-mode endoscopy and show its ability to image internal organs in vivo, thus illustrating its potential clinical application. At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures that provide treatment solutions for diseased organs. Ultrasound endoscopy not only produces high-resolution images, but also is safe for clinical use and broadly applicable. However, for soft tissue imaging, its mechanical wave-based image contrast fundamentally limits its ability to provide physiologically specific functional information. By contrast, photoacoustic endoscopy possesses a unique combination of functional optical contrast and high spatial resolution at clinically relevant depths, ideal for imaging soft tissues. With these attributes, photoacoustic endoscopy can overcome the current limitations of ultrasound endoscopy. Moreover, the benefits of photoacoustic imaging do not come at the expense of existing ultrasound functions; photoacoustic endoscopy systems are inherently compatible with ultrasound imaging, thereby enabling multimodality imaging with complementary contrast. Here we present simultaneous photoacoustic and ultrasonic dual-mode endoscopy and show its ability to image internal organs in vivo, thus illustrating its potential clinical application. [PUBLICATION ABSTRACT] Joon-Mo Yang and colleagues have developed a new endoscopic technique for the in vivo imaging of internal organs, combining endoscopic ultrasound and photoacoustic endoscopy in a single instrument. In addition to improved resolution, imaging depth, multimodal contrast, and distal-end scanning, the new hybrid imaging modality can also provide functional information such as hemoglobin concentration and blood oxygenation. Feasibility is shown in vivo by simultaneous photoacoustic endoscopy and endoscopic ultrasound imaging of the upper and lower gastrointestinal tracts of rats and rabbits. At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures that provide treatment solutions for diseased organs. Ultrasound endoscopy not only produces high-resolution images, but also is safe for clinical use and broadly applicable. However, for soft tissue imaging, its mechanical wave–based image contrast fundamentally limits its ability to provide physiologically specific functional information. By contrast, photoacoustic endoscopy possesses a unique combination of functional optical contrast and high spatial resolution at clinically relevant depths, ideal for imaging soft tissues. With these attributes, photoacoustic endoscopy can overcome the current limitations of ultrasound endoscopy. Moreover, the benefits of photoacoustic imaging do not come at the expense of existing ultrasound functions; photoacoustic endoscopy systems are inherently compatible with ultrasound imaging, thereby enabling multimodality imaging with complementary contrast. Here we present simultaneous photoacoustic and ultrasonic dual-mode endoscopy and show its ability to image internal organs in vivo , thus illustrating its potential clinical application. |
| Audience | Academic |
| Author | Wang, Lihong V Zhou, Qifa Yao, Junjie Maslov, Konstantin Shung, K Kirk Yang, Joon-Mo Chen, Ruimin Cai, Xin Favazza, Christopher |
| AuthorAffiliation | 1 Optical Imaging Laboratory, Department of Biomedical Engineering, Washington University in St. Louis, Campus Box 1097, One Brookings Drive, St. Louis, Missouri 63130, USA 2 National Institutes of Health Ultrasound Transducer Resource Center, Department of Biomedical Engineering, University of Southern California, 1042 Downey Way, University Park, DRB 130, Los Angeles, CA 90089, USA |
| AuthorAffiliation_xml | – name: 2 National Institutes of Health Ultrasound Transducer Resource Center, Department of Biomedical Engineering, University of Southern California, 1042 Downey Way, University Park, DRB 130, Los Angeles, CA 90089, USA – name: 1 Optical Imaging Laboratory, Department of Biomedical Engineering, Washington University in St. Louis, Campus Box 1097, One Brookings Drive, St. Louis, Missouri 63130, USA |
| Author_xml | – sequence: 1 givenname: Joon-Mo surname: Yang fullname: Yang, Joon-Mo organization: Department of Biomedical Engineering, Optical Imaging Laboratory, Washington University in St. Louis – sequence: 2 givenname: Christopher surname: Favazza fullname: Favazza, Christopher organization: Department of Biomedical Engineering, Optical Imaging Laboratory, Washington University in St. Louis – sequence: 3 givenname: Ruimin surname: Chen fullname: Chen, Ruimin organization: Department of Biomedical Engineering, National Institutes of Health Ultrasonic Transducer Resource Center, University of Southern California – sequence: 4 givenname: Junjie surname: Yao fullname: Yao, Junjie organization: Department of Biomedical Engineering, Optical Imaging Laboratory, Washington University in St. Louis – sequence: 5 givenname: Xin surname: Cai fullname: Cai, Xin organization: Department of Biomedical Engineering, Optical Imaging Laboratory, Washington University in St. Louis – sequence: 6 givenname: Konstantin surname: Maslov fullname: Maslov, Konstantin organization: Department of Biomedical Engineering, Optical Imaging Laboratory, Washington University in St. Louis – sequence: 7 givenname: Qifa surname: Zhou fullname: Zhou, Qifa email: qifazhou@usc.edu organization: Department of Biomedical Engineering, National Institutes of Health Ultrasonic Transducer Resource Center, University of Southern California – sequence: 8 givenname: K Kirk surname: Shung fullname: Shung, K Kirk organization: Department of Biomedical Engineering, National Institutes of Health Ultrasonic Transducer Resource Center, University of Southern California – sequence: 9 givenname: Lihong V surname: Wang fullname: Wang, Lihong V email: lhwang@biomed.wustl.edu organization: Department of Biomedical Engineering, Optical Imaging Laboratory, Washington University in St. Louis |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/22797808$$D View this record in MEDLINE/PubMed |
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| Copyright | Springer Nature America, Inc. 2012 COPYRIGHT 2012 Nature Publishing Group Copyright Nature Publishing Group Aug 2012 |
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| Snippet | Joon-Mo Yang and colleagues have developed a new endoscopic technique for the
in vivo
imaging of internal organs, combining endoscopic ultrasound and... At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures that provide treatment solutions for diseased organs.... Presently, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedures which provide treatment solutions for diseased organs.... |
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| SubjectTerms | 692/700/1421/164 Acoustics Anatomy, Cross-Sectional Animals Biomedical and Life Sciences Biomedicine Blood Vessels - chemistry Blood Vessels - diagnostic imaging Cancer Research Coloring Agents Digestive System - chemistry Digestive System - diagnostic imaging Endoscopic surgery Endoscopic ultrasonography Endosonography - instrumentation Endosonography - methods Equipment Design Evans Blue Gastrointestinal system Hemoglobins - analysis Imaging, Three-Dimensional Infectious Diseases Lymphatic System - diagnostic imaging Medical imaging Metabolic Diseases Methods Molecular Medicine Neurosciences Organ Size Organs Oxygen - analysis Photoacoustic spectroscopy Photoacoustic Techniques Rabbits Rats Rats, Sprague-Dawley Respiratory System - chemistry Respiratory System - diagnostic imaging Surgical techniques technical-report Tomography - methods Ultrasonic imaging |
| Title | Simultaneous functional photoacoustic and ultrasonic endoscopy of internal organs in vivo |
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