Harnessing Non-Thermal Plasma to Supercharge Recovery in Abdominal Surgeries: A Pilot Study.
Benjamín Gonzalo Rodríguez-MéndezRégulo López-CallejasAntonio Mercado-CabreraRosendo Peña-EguiluzRaúl Valencia-AlvaradoMario Betancourt-ÁngelesGuillermo Berrones-StringelCésar Jaramillo-MartínezPublished in: Journal of clinical medicine (2024)
(1) Background: This study aims to evaluate the efficacy and safety of non-thermal plasma (NTP) therapy in accelerating wound healing in patients who have undergone laparoscopic and open surgeries. (2) Methods: NTP was applied using a needle-type reactor with an irradiance of 0.5 W/cm 2 on the surgical wounds of fifty patients after obtaining informed consent. Three NTP treatments, each lasting three minutes, were administered hourly. (3) Results: The pilot study showed that NTP-treated surgical wounds healed completely without any signs of infection, dehiscence, pain, or itching. Notably, patients reported minimal pain after the NTP treatment. Visual assessments conducted twenty-four hours after surgery revealed no redness or fluid discharge. Comparisons with traditionally sutured wounds indicated that NTP-treated wounds healed at a rate equivalent to seven days. (4) Conclusions: The application of NTP in laparoscopic and open wounds proved safe and effective, expediting the wound healing process and eliminating clinical risks post-surgery. Significantly, NTP facilitated a healing rate within twenty-four hours, equivalent to seven days for suture-treated wounds, significantly reducing the hospitalization time to a single day. These findings highlight the potential of NTP to be a transformative approach for promoting postoperative recovery.
Keyphrases
- newly diagnosed
- end stage renal disease
- wound healing
- chronic kidney disease
- ejection fraction
- minimally invasive
- prognostic factors
- chronic pain
- stem cells
- patients undergoing
- acute coronary syndrome
- patient reported outcomes
- atrial fibrillation
- mesenchymal stem cells
- machine learning
- spinal cord
- cell therapy
- artificial intelligence
- single cell
- ultrasound guided