Photoacoustic imaging (or optoacoustic imaging) is an upcoming biomedical imaging modality availing the benefits of optical resolution and acoustic depth of penetration. With its capacity to offer structural, functional, molecular and kinetic information making use of either endogenous contrast agents like hemoglobin, lipid, melanin and water or a variety of exogenous contrast agents or both, PAI has demonstrated promising potential in a wide range of preclinical and clinical applications. This review provides an overview of the rapidly expanding clinical applications of photoacoustic imaging including breast imaging, dermatologic imaging, vascular imaging, carotid artery imaging, musculoskeletal imaging, gastrointestinal imaging and adipose tissue imaging and the future directives utilizing different configurations of photoacoustic imaging. Particular emphasis is placed on investigations performed on human or human specimens.
Keywords: AR-PAM, acoustic resolution-photoacoustic microscopy; Clinical applications; DAQ, data acquisition; FOV, field-of-view; Hb, deoxy-hemoglobin; HbO2, oxy-hemoglobin; LED, light emitting diode; MAP, maximum amplitude projection; MEMS, microelectromechanical systems; MRI, magnetic resonance imaging; MSOT, multispectral optoacoustic tomography; OCT, optical coherence tomography; OR-PAM, optical resolution-photoacoustic microscopy; Optoacoustic mesoscopy; Optoacoustic tomography; PA, photoacoustic; PAI, photoacoustic imaging; PAM, photoacoustic microscopy; PAT, photoacoustic tomography; Photoacoustic imaging; Photoacoustic microscopy; RSOM, raster-scanning optoacoustic mesoscopy; SBH-PACT, single breath hold photoacoustic computed tomography system; US, ultrasound; sO2, saturation.
© 2019 The Authors.