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Ultrasensitive in vivo infrared spectroscopic imaging via oblique photothermal microscopy

Author

Listed:
  • Mingsheng Li

    (Boston University
    Boston University)

  • Sheng Xiao

    (Boston University)

  • Hongli Ni

    (Boston University
    Boston University)

  • Guangrui Ding

    (Boston University
    Boston University)

  • Yuhao Yuan

    (Boston University
    Boston University)

  • Carolyn Marar

    (Boston University
    Boston University)

  • Jerome Mertz

    (Boston University
    Boston University)

  • Ji-Xin Cheng

    (Boston University
    Boston University
    Boston University)

Abstract

In vivo IR spectroscopy faces challenges due to poor sensitivity in reflection mode and low resolution at micrometer scale. To break this barrier, we report an oblique photothermal microscope (OPTM) to enable ultrasensitive IR spectroscopic imaging of live subjects at sub-micron resolution. Classic photothermal measurement captures only a small fraction of probe photons through an iris to extract the photothermal signal. Instead, OPTM uses a differential split detector placed on the sample surface to collect 500-fold more photons and suppress the laser noise by 12 fold via balanced detection. Leveraging its improved sensitivity, OPTM enables low-dose IR imaging of skin without photodamage. Depth-resolved in vivo OPTM imaging of metabolic markers beneath mouse and human skin is shown. Furthermore, we demonstrate in vivo OPTM tracking of topical drug contents within mouse and human skin. Collectively, OPTM presents a highly sensitive imaging platform for in vivo and in situ molecular analysis.

Suggested Citation

  • Mingsheng Li & Sheng Xiao & Hongli Ni & Guangrui Ding & Yuhao Yuan & Carolyn Marar & Jerome Mertz & Ji-Xin Cheng, 2025. "Ultrasensitive in vivo infrared spectroscopic imaging via oblique photothermal microscopy," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61332-w
    DOI: 10.1038/s41467-025-61332-w
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