PLoS ONE (Jan 2019)

Validation of a low-cost, carbon dioxide-based cryoablation system for percutaneous tumor ablation.

  • Bailey Surtees,
  • Sean Young,
  • Yixin Hu,
  • Guannan Wang,
  • Evelyn McChesney,
  • Grace Kuroki,
  • Pascal Acree,
  • Serena Thomas,
  • Tara Blair,
  • Shivam Rastogi,
  • Dara L Kraitchman,
  • Clifford Weiss,
  • Saraswati Sukumar,
  • Susan C Harvey,
  • Nicholas J Durr

DOI
https://doi.org/10.1371/journal.pone.0207107
Journal volume & issue
Vol. 14, no. 7
p. e0207107

Abstract

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Breast cancer rates are rising in low- and middle-income countries (LMICs), yet there is a lack of accessible and cost-effective treatment. As a result, the cancer burden and death rates are highest in LMICs. In an effort to meet this need, our work presents the design and feasibility of a low-cost cryoablation system using widely-available carbon dioxide as the only consumable. This system uses an 8-gauge outer-diameter needle and Joule-Thomson expansion to percutaneously necrose tissue with cryoablation. Bench top experiments characterized temperature dynamics in ultrasound gel demonstrated that isotherms greater than 2 cm were formed. Further, this system was applied to mammary tumors in an in vivo rat model and necrosis was verified by histopathology. Finally, freezing capacity under a large heat load was assessed with an in vivo porcine study, where volumes of necrosis greater than 1.5 cm in diameter confirmed by histopathology were induced in a highly perfused liver after two 7-minute freeze cycles. These results demonstrate the feasibility of a carbon-dioxide based cryoablation system for improving solid tumor treatment options in resource-constrained environments.