3-D photoacoustic and pulse echo imaging of prostate tumor progression in the mouse window chamber

Daniel R. Bauer, Ragnar Olafsson, Leonardo G. Montilla, Russell S. Witte

Research output: Contribution to journalArticle

34 Scopus citations

Abstract

Understanding the tumor microenvironment is critical to characterizing how cancers operate and predicting their response to treatment. We describe a novel, high-resolution coregistered photoacoustic (PA) and pulse echo (PE) ultrasound system used to image the tumor microenvironment. Compared to traditional optical systems, the platform provides complementary contrast and important depth information. Three mice are implanted with a dorsal skin flap window chamber and injected with PC-3 prostate tumor cells transfected with green fluorescent protein. The ensuing tumor invasion is mapped during three weeks or more using simultaneous PA and PE imaging at25 MHz, combined with optical and fluorescent techniques. Pulse echo imaging provides details of tumor structure and the surrounding environment with 100-μm 3 resolution. Tumor size increases dramatically with an average volumetric growth rate of 5.35 mm 3/day, correlating well with 2-D fluorescent imaging (R = 0.97, p < 0.01). Photoacoustic imaging is able to track the underlying vascular network and identify hemorrhaging, while PA spectroscopy helps classify blood vessels according to their optical absorption spectrum, suggesting variation in blood oxygen saturation. Photoacoustic and PE imaging are safe, translational modalities that provide enhanced depth resolution and complementary contrast to track the tumor microenvironment, evaluate new cancer therapies, and develop molecular contrast agents in vivo.

Original languageEnglish (US)
Article number026012
JournalJournal of biomedical optics
Volume16
Issue number2
DOIs
StatePublished - Feb 1 2011

Keywords

  • Angiogenesis
  • Cancer biology
  • Dorsal skin flaps
  • Green fluorescent protein
  • Optoacoustics
  • Prostate cancer
  • Tumor growth
  • Ultrasound

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Biomaterials
  • Atomic and Molecular Physics, and Optics
  • Biomedical Engineering

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