Radiotherapy & Oncology
Volume 102, Issue 2 , Pages 297-302, February 2012

A new lung stent tested as fiducial marker in a porcine model

  • Jesper Carl

      Affiliations

    • Dept. of Medical Physics, Oncology, Aarhus University Hospital, Denmark
    • Corresponding Author InformationCorresponding author. Address: Dept. of Medical Physics, Oncology, Aalborg Sygehus, Aarhus University Hospital, Hobrovej 18-22, DK-9000 Aalborg, Denmark.
    • ,
  • Jane Nielsen

      Affiliations

    • Dept. of Medical Physics, Oncology, Aarhus University Hospital, Denmark
    • ,
  • Martin Skovmos Nielsen

      Affiliations

    • Dept. of Medical Physics, Oncology, Aarhus University Hospital, Denmark
    • ,
  • Peter Rose Zepernick

      Affiliations

    • Dept. of Cardiothoracic Surgery, Aarhus University Hospital, Denmark
    • ,
  • Benedict Kjaergaard

      Affiliations

    • Dept. of Cardiothoracic Surgery, Aarhus University Hospital, Denmark
    • ,
  • Henrik Kirstein Jensen

      Affiliations

    • Dept. of Pulmonary Diseases, Aalborg Hospital, Aarhus University Hospital, Denmark

Received 19 May 2011; received in revised form 21 November 2011; accepted 22 November 2011. published online 23 December 2011.

Abstract 

Introduction

The aim of the present study was to test the feasibility of a Nickel–Titanium (Ni–Ti) stent technique (Memocore™) in a porcine model. The stent is intended as a new fiducial for gated image guided radiotherapy in the lung. The study included test of an improved insertion system and respiratory gated treatments with this new technique.

Methods and materials

Tests were carried out in a porcine model using Göttingen mini-pigs. The study included 10 animals. Planning CT was performed as 4 dimensional CT (4DCT) using the Varian RPM system. Respiratory gated radiotherapy treatments were simulated using the Brainlab ExacTrac system. Reproducibility of stent position during treatment was analyzed off-line using an experimental version of the ExacTrac software. The experimental version has a dedicated algorithm for segmentation of the stent in the planning CT and subsequent registration to X-ray position images.

Results

A total of 23 stents were inserted in the 10 animals. Stents could be placed in all parts of the lungs. No stent migrated within the four weeks the experiment lasted. Stent trajectories in the lung were not reproducible, even though respiration was highly standardized using a respirator. The best accuracy of stent position in the gating window was obtained using gating at the half_max amplitude as reference level. The smallest stent movement within the gating window was observed in the exhale phase. Further success of human application will depend on the possibility to insert the stent within or close to lung tumors.

Conclusions

This new technique based on the Memocore™ lung stent used in connection with respiratory gated radiotherapy was demonstrated to be feasible in a porcine model. The study demonstrated lack of reproducibility in lung trajectories of inserted stents. The technique gave the best accuracy when applied to the exhale phase of respiration.

Keywords: Lung cancer, Gated radiotherapy, Bronchoscopy, Fiducial marker, Stent

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PII: S0167-8140(11)00706-7

doi:10.1016/j.radonc.2011.11.008

Radiotherapy & Oncology
Volume 102, Issue 2 , Pages 297-302, February 2012

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