We present a concept and system implementation for endoscopic photoacoustic microscopy that enables minimally invasive diagnosis of internal organs. The system incorporates an in-house made single element ultrasonic transducer for photoacoustic signal detection and an optical fiber for light delivery into a tubular probe with a mechanical scanning unit. The implemented probe size for the distal end is 4.2 mm in diameter and 48 mm in length. We evaluated the system's performance by imaging a carbon fiber in clear and turbid media. We also demonstrated its ability to image actual biological tissues and its endoscopic applicability, by imaging abdominal surfaces and a large intestinal tract of a rat ex vivo. This study shows the system's poten...
We have developed a new photoacoustic endoscopic probe specifically designed for human urogenital im...
We report a flexible shaft-based mechanical scanning photoacoustic endoscopy (PAE) system that can b...
In this study, we further developed our photoacoustic endoscopic system to produce three-dimensional...
We present a concept and system implementation for endoscopic photoacoustic microscopy that enables ...
In this study, we further developed our photoacoustic endoscopic system to produce three-dimensional...
We have developed photoacoustic endoscopy with a miniaturized imaging probe. A light-guiding optical...
Intravital microscopy techniques have become increasingly important in biomedical research because t...
Optical-resolution photoacoustic microscopy (OR-PAM) has become a major experimental tool of photoac...
At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedure...
There has been a long-standing expectation that the optical-resolution embodiment of photoacoustic t...
We have successfully implemented a focused ultrasonic transducer for photoacoustic endoscopy. The ph...
We have successfully developed a fully-sheathed, flexible shaft-based, mechanical scanning photoacou...
Photoacoustic (PA) imaging is able to provide extremely high molecular contrast while maintaining th...
Photoacoustic (PA) imaging is able to provide extremely high molecular contrast while maintaining th...
Like ultrasound endoscopy, photoacoustic endoscopy (PAE) could become a valuable addition to clinica...
We have developed a new photoacoustic endoscopic probe specifically designed for human urogenital im...
We report a flexible shaft-based mechanical scanning photoacoustic endoscopy (PAE) system that can b...
In this study, we further developed our photoacoustic endoscopic system to produce three-dimensional...
We present a concept and system implementation for endoscopic photoacoustic microscopy that enables ...
In this study, we further developed our photoacoustic endoscopic system to produce three-dimensional...
We have developed photoacoustic endoscopy with a miniaturized imaging probe. A light-guiding optical...
Intravital microscopy techniques have become increasingly important in biomedical research because t...
Optical-resolution photoacoustic microscopy (OR-PAM) has become a major experimental tool of photoac...
At present, clinicians routinely apply ultrasound endoscopy in a variety of interventional procedure...
There has been a long-standing expectation that the optical-resolution embodiment of photoacoustic t...
We have successfully implemented a focused ultrasonic transducer for photoacoustic endoscopy. The ph...
We have successfully developed a fully-sheathed, flexible shaft-based, mechanical scanning photoacou...
Photoacoustic (PA) imaging is able to provide extremely high molecular contrast while maintaining th...
Photoacoustic (PA) imaging is able to provide extremely high molecular contrast while maintaining th...
Like ultrasound endoscopy, photoacoustic endoscopy (PAE) could become a valuable addition to clinica...
We have developed a new photoacoustic endoscopic probe specifically designed for human urogenital im...
We report a flexible shaft-based mechanical scanning photoacoustic endoscopy (PAE) system that can b...
In this study, we further developed our photoacoustic endoscopic system to produce three-dimensional...
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