Author:
Nyayapathi Nikhila,Zheng Emily,Zhou Qifa,Doyley Marvin,Xia Jun
Abstract
Photoacoustic imaging is a novel biomedical imaging modality that has emerged over the recent decades. Due to the conversion of optical energy into the acoustic wave, photoacoustic imaging offers high-resolution imaging in depth beyond the optical diffusion limit. Photoacoustic imaging is frequently used in conjunction with ultrasound as a hybrid modality. The combination enables the acquisition of both optical and acoustic contrasts of tissue, providing functional, structural, molecular, and vascular information within the same field of view. In this review, we first described the principles of various photoacoustic and ultrasound imaging techniques and then classified the dual-modal imaging systems based on their preclinical and clinical imaging applications. The advantages of dual-modal imaging were thoroughly analyzed. Finally, the review ends with a critical discussion of existing developments and a look toward the future.
Reference293 articles.
1. Development of a photoacoustic, ultrasound and fluorescence imaging catheter for the study of atherosclerotic plaque;Abran;IEEE Trans. Biomed. Circuits Syst.,2014
2. Design, development, and multi-characterization of an integrated clinical transrectal ultrasound and photoacoustic device for human prostate imaging;Agrawal;Diagnostics,2020
3. Photoacoustic characterisation of vascular tissue at NIR wavelengths;Allen,2009
4. Classification of human ovarian cancer using functional, spectral, and imaging features obtained from in vivo photoacoustic imaging;Amidi;Biomed. Opt. Express,2019
5. Diagnostic endoscopic ultrasound: technique, current status and future directions;Ang;Gut Liver,2018