Optimized Schlieren imaging for real-time visualization of high-intensity focused ultrasound waves

Biomed Tech (Berl). 2024 Jun 12;69(5):529-533. doi: 10.1515/bmt-2024-0002. Print 2024 Oct 28.

Abstract

Objectives: This article presents an low-cost experimental setup for visualizing refraction anomalies caused by high-intensity focused ultrasound (HIFU). The technique is based on Schlieren imaging, commonly used to visualize temperature and pressure differences in a medium. With this setup, double images of the Schlieren or their shadows to be investigated occur, so that the experimental setup is modified to avoid these double image artifacts.

Methods: The optical setup mainly consists of a point light source, a parabolic mirror, and a camera. Birefringence artifacts are avoided by placing the point light source at a certain vertical distance to the camera, so that the light beam passes through the medium only once. The soundfield is generated by a HIFU transducer in a water tank placed in the beam path of the optical setup.

Results: The experimental setup is capable of capturing Schlieren or shadow images. These images show the soundfield without disturbing double images and enable further analysis and qualitative assessment of the soundfield.

Conclusions: The presented setup provides a reliable and efficient method for visualizing refraction anomalies caused by the sonic field of a HIFU transducer and allows for accurate depiction of the refraction anomalies. The double images that usually occur are avoided.

Keywords: HIFU; Schlieren imaging; ablation area monitoring; focus detection; high-intensity focused ultrasound; tumor ablation.

MeSH terms

  • High-Intensity Focused Ultrasound Ablation* / methods
  • Humans
  • Transducers