Litcius/Paper detail

Looking deep inside tissue with photoacoustic molecular probes: a review

Hui Xie, Mohammad O. A. Malik, Manojit Pramanik

2022Journal of Biomedical Optics32 citationsDOIOpen Access PDF

Abstract

Significance: Deep tissue noninvasive high-resolution imaging with light is challenging due to the high degree of light absorption and scattering in biological tissue. Photoacoustic imaging (PAI) can overcome some of the challenges of pure optical or ultrasound imaging to provide high-resolution deep tissue imaging. However, label-free PAI signals from light absorbing chromophores within the tissue are nonspecific. The use of exogeneous contrast agents (probes) not only enhances the imaging contrast (and imaging depth) but also increases the specificity of PAI by binding only to targeted molecules and often providing signals distinct from the background. Aim: We aim to review the current development and future progression of photoacoustic molecular probes/contrast agents. Approach: molecular imaging applications, multimodal uses, and use in theranostic applications. Results: Material combinations are being used to develop highly specific contrast agents. In addition to passive accumulation, probes utilizing activation mechanisms show promise for greater controllability. Several probes also enable concurrent multimodal use with fluorescence, ultrasound, Raman, magnetic resonance imaging, and computed tomography. Finally, targeted probes are also shown to aid localized and molecularly specific photo-induced therapy. Conclusions: The development of contrast agents provides a promising prospect for increased contrast, higher imaging depth, and molecularly specific information. Of note are agents that allow for controlled activation, explore other optical windows, and enable multimodal use to overcome some of the shortcomings of label-free PAI.

Topics & Concepts

Molecular imagingPhotoacoustic imaging in biomedicineOptical imagingMagnetic resonance imagingFluorescence-lifetime imaging microscopyMicrobubblesMaterials sciencePreclinical imagingContrast (vision)Biomedical engineeringFluorescenceNanotechnologyUltrasoundComputer scienceIn vivoOpticsMedicineArtificial intelligencePhysicsRadiologyBiotechnologyBiologyPhotoacoustic and Ultrasonic ImagingNanoplatforms for cancer theranosticsUltrasound and Hyperthermia Applications