Scientific Reports (Oct 2023)

Novel intrathoracic irrigation using ultrafine ozone bubbles in a rat empyema model

  • Masaki Ikeda,
  • Yojiro Yutaka,
  • Toyofumi F. Chen-Yoshikawa,
  • Michio Tanaka,
  • Masaki Yamamoto,
  • Satona Tanaka,
  • Yoshito Yamada,
  • Akihiro Ohsumi,
  • Daisuke Nakajima,
  • Masatsugu Hamaji,
  • Akihiko Yoshizawa,
  • Eishi Kusaka,
  • Miki Nagao,
  • Hiroshi Date

DOI
https://doi.org/10.1038/s41598-023-43787-3
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 9

Abstract

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Abstract Dissolved ozone is generally used for sanitization, but it has not been used for thoracic cavity sanitization because of its short half-life (< 20 min) and possible toxicity. We developed a novel solution containing ultrafine ozone bubbles (ozone-UFB) with a fivefold longer half-life than non-UFB ozone. Using an in vitro model, Staphylococcus aureus colonies were counted after exposure to ozone-UFB or non-UFB ozone at the same ozone concentration (0.4 mg/L). The colony count was significantly lower in the ozone-UFB group than in the non-UFB ozone group (p = 0.034). The effect of repeated pleural irrigation using ozone-UFB and saline was compared in a rat empyema model of S. aureus infection. The bacterial count in the pleural effusion was decreased by at least fivefold following intrathoracic lavage with ozone-UFB (3 mg/L). To examine the safety of ozone-UFB for intrathoracic use, ozone-UFB with a higher ozone concentration (10 mg/L) was injected into the thoracic cavities of normal rats. The treatment did not result in any specific pleural damage or elevated serum interleukin-6 concentrations. The findings highlighted the efficacy and safety of ozone-UFB for intrathoracic sanitization, but further studies are needed to determine the optimal therapeutic ozone concentration with appropriate safety margins.