Non-invasive imaging of biological processes in vivo is invaluable in advancing biology.
Photoacoustic tomography is a scalable imaging technique that provides higher resolution …

Photoacoustic tomography (PAT) with genetically encoded near‐infrared probes enables
visualization of specific cell populations in vivo at high resolution deeply in biological …

Photoacoustic imaging has been shown to provide high-resolution images of genetically
labelled cells at depths that are inaccessible to optical microscopy. While the detection of …

Photoacoustic imaging allows absorption-based high-resolution spectroscopic in vivo
imaging at a depth beyond that of optical microscopy. Until recently, photoacoustic imaging …

Photoacoustic imaging (PAI) is an emerging imaging modality that shows great potential for
preclinical research and clinical practice. As a hybrid technique, PAI uniquely combines the …

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 …

Fluorescent proteins have become essential reporter molecules for studying life at the
cellular and sub-cellular level, re-defining the ways in which we investigate biology …

Although optical absorption is strongly associated with the physiological status of biological
tissue, existing high-resolution optical imaging modalities, including confocal microscopy …

Photoacoustic imaging (PAI) has ushered in a new era of observational biotechnology and
has facilitated the exploration of fundamental biological mechanisms and clinical …

Skin‐deep: The combination of a near‐infrared fluorescent protein (iRFP) and deep‐tissue
photoacoustic tomography clearly demonstrates the superiority of iRFP over other …