Optical-resolution functional gastrointestinal photoacoustic endoscopy based on optical heterodyne detection of ultrasound.
Yizhi LiangWubing FuQiang LiXiaolong ChenHuojiao SunLidai WangLong JinWei HuangBai-Ou GuanPublished in: Nature communications (2022)
Photoacoustic endoscopy shows promise in the detection of gastrointestinal cancer, inflammation, and other lesions. High-resolution endoscopic imaging of the hemodynamic response necessitates a small-sized, high-sensitivity ultrasound sensor. Here, we utilize a laser ultrasound sensor to develop a miniaturized, optical-resolution photoacoustic endoscope. The sensor can boost the acoustic response by a gain factor of ω o /Ω (the frequency ratio of the signal light and measured ultrasound) by measuring the acoustically induced optical phase change. As a result, we achieve a noise-equivalent pressure density (NEPD) below 1.5 mPa·Hz -1/2 over the measured range of 5 to 25 MHz. The heterodyne phase detection using dual-frequency laser beams of the sensor can offer resistance to thermal drift and vibrational perturbations. The endoscope is used to in vivo image a rat rectum and visualize the oxygen saturation changes during acute inflammation, which can hardly be observed with other imaging modalities.
Keyphrases
- high resolution
- high speed
- magnetic resonance imaging
- ultrasound guided
- oxidative stress
- loop mediated isothermal amplification
- mass spectrometry
- fluorescence imaging
- real time pcr
- contrast enhanced ultrasound
- label free
- diabetic rats
- liver failure
- drug induced
- deep learning
- squamous cell carcinoma
- air pollution
- intensive care unit
- molecular dynamics simulations
- hepatitis b virus
- young adults
- machine learning
- sensitive detection
- aortic dissection
- lymph node metastasis