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Abnormal biological tissues (such as tumors and inflammation) generate different levels of thermal expansion after absorbing optical energy, producing distinct acoustic signals from normal tissues. This technique can detect small tissue lesions in biological tissues and has demonstrated significant potential for applications in tumor research, melanoma detection, and cardiovascular disease diagnosis. During the process of collecting photoacoustic signals in a PAI system, various factors can influence the signals, such as absorption, scattering, and attenuation in biological tissues. A single ultrasound transducer cannot provide sufficient information to reconstruct high-precision photoacoustic images. To obtain more accurate and clear image reconstruction results, PAI systems typically use a large number of ultrasound transducers to collect multi-channel signals from different angles and positions, thereby acquiring more information about the photoacoustic signals. Therefore, to reconstruct high-quality photoacoustic images, PAI systems require a significant number of measurement signals, which can result in substantial hardware and time costs. Compressed sensing is an algorithm that breaks through the Nyquist sampling theorem and can reconstruct the original signal with a small number of measurement signals. PAI based on compressed sensing has made breakthroughs over the past decade, enabling the reconstruction of low artifacts and high-quality images with a small number of photoacoustic measurement signals, improving time efficiency, and reducing hardware costs. This article provides a detailed introduction to PAI based on compressed sensing, such as the physical transmission model-based compressed sensing method, two-stage reconstruction-based compressed sensing method, and single-pixel camera-based compressed sensing method. Challenges and future perspectives of compressed sensing-based PAI are also discussed.<\/jats:p>","DOI":"10.3390\/s24092670","type":"journal-article","created":{"date-parts":[[2024,4,23]],"date-time":"2024-04-23T08:08:27Z","timestamp":1713859707000},"page":"2670","update-policy":"https:\/\/doi.org\/10.3390\/mdpi_crossmark_policy","source":"Crossref","is-referenced-by-count":17,"title":["Compressed Sensing for Biomedical Photoacoustic Imaging: A Review"],"prefix":"10.3390","volume":"24","author":[{"given":"Yuanmao","family":"Wang","sequence":"first","affiliation":[{"name":"School of Physics, Nanjing University of Science and Technology, Nanjing 210094, China"}]},{"given":"Yang","family":"Chen","sequence":"additional","affiliation":[{"name":"School of Physics, Nanjing University of Science and Technology, Nanjing 210094, China"}]},{"given":"Yongjian","family":"Zhao","sequence":"additional","affiliation":[{"name":"Department of Electronic Engineering, The Chinese University of Hong Kong, Hong Kong 999077, China"}]},{"ORCID":"https:\/\/orcid.org\/0000-0002-1370-3210","authenticated-orcid":false,"given":"Siyu","family":"Liu","sequence":"additional","affiliation":[{"name":"School of Physics, Nanjing University of Science and Technology, Nanjing 210094, China"},{"name":"Southwest Institute of Technical Physics, Chengdu 610041, China"}]}],"member":"1968","published-online":{"date-parts":[[2024,4,23]]},"reference":[{"key":"ref_1","doi-asserted-by":"crossref","unstructured":"Andresen, B.F., McMackin, L., Herman, M.A., Chatterjee, B., Weldon, M., Fulop, G.F., and Norton, P.R. 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