Algorithm-Based Motion Magnification for Video Processing in Urological Laparoscopy

J Endourol. 2017 Jun;31(6):583-587. doi: 10.1089/end.2016.0882.


Purpose: Minimally invasive surgery is in constant further development and has replaced many conventional operative procedures. If vascular structure movement could be detected during these procedures, it could reduce the risk of vascular injury and conversion to open surgery. The recently proposed motion-amplifying algorithm, Eulerian Video Magnification (EVM), has been shown to substantially enhance minimal object changes in digitally recorded video that is barely perceptible to the human eye. We adapted and examined this technology for use in urological laparoscopy.

Materials and methods: Video sequences of routine urological laparoscopic interventions were recorded and further processed using spatial decomposition and filtering algorithms. The freely available EVM algorithm was investigated for its usability in real-time processing. In addition, a new image processing technology, the CRS iimotion Motion Magnification (CRSMM) algorithm, was specifically adjusted for endoscopic requirements, applied, and validated by our working group.

Results: Using EVM, no significant motion enhancement could be detected without severe impairment of the image resolution, motion, and color presentation. The CRSMM algorithm significantly improved image quality in terms of motion enhancement. In particular, the pulsation of vascular structures could be displayed more accurately than in EVM.

Conclusions: Motion magnification image processing technology has the potential for clinical importance as a video optimizing modality in endoscopic and laparoscopic surgery. Barely detectable (micro)movements can be visualized using this noninvasive marker-free method. Despite these optimistic results, the technology requires considerable further technical development and clinical tests.

Keywords: Eulerian Video Magnification; endoscopic urology; laparoscopy; motion magnification.

Publication types

  • Evaluation Study

MeSH terms

  • Algorithms
  • Humans
  • Image Processing, Computer-Assisted / methods
  • Kidney Calculi / diagnostic imaging
  • Kidney Calculi / surgery*
  • Laparoscopy / methods*
  • Minimally Invasive Surgical Procedures / methods
  • Motion
  • Video Recording*

Associated data

  • DRKS/DRKS00009732