Lung Cancer

​Lung Cancer

Nanobubbles technology demonstrates potential in treating lung cancer that does not respond to traditional methods. In one case study, a 66-year-old patient with inoperable right lung cancer saw a considerable reduction in tumor size after four weeks of consuming oxygen and ozone nanobubbles water. This improvement allowed the patient to be discharged from the hospital, highlighting nanobubbles as a promising initial option for those excluded from standard treatments.

The success of this case underscores the promise of nanobubbles technology as an innovative and accessible treatment for individuals struggling with conventional lung cancer therapies. The combination of oxygen and ozone nanobubbles water not only significantly reduced the tumor size in a short period but also facilitated the patient’s hospital discharge. This suggests that nanobubbles-based treatments could be a viable option, especially for those non-responsive to or excluded from traditional interventions, such as cases where the cancer is inoperable.

This case study serves as a strong foundation for further research into the effectiveness and safety of nanobubbles technology in treating lung cancer. Comprehensive clinical trials with larger participant groups are crucial to confirming these initial findings, establishing optimal treatment protocols, and understanding varying patient responses. As research advances, nanobubbles therapy could be considered as a standalone treatment or in combination with other methods, paving the way for personalized and comprehensive lung cancer care.

For more reference and information:

Development of Ultrasound-Triggered and Magnetic-Targeted Nanobubble System for Dual-Drug Delivery
Journal of Pharmaceutical Sciences, Volume 108, Issue 3, March 2019, Pages 1272-1283
https://www.sciencedirect.com/science/article/abs/pii/S0022354918306300

Development of single nanometer-sized ultrafine oxygen bubbles to overcome the hypoxia-induced resistance to radiation therapy via the suppression of hypoxia-inducible factor-1α
International journal of oncology, Volume 52, Issue 3, March 2018, Pages 679-686
https://pure.fujita-hu.ac.jp/en/publications/development-of-single-nanometer-sized-ultrafine-oxygen-bubbles-to