Accelerated Mice Skin Acute Wound Healing in Vivo by Combined Treatment of Argon and Helium Plasma Needle

Overview

Journal Arch Med Res

Specialty General Medicine

Date 2013 Mar 20

PMID 23506720

Citations 29

Authors

Elizabeth Garcia-Alcantara

Regulo Lopez-Callejas

Pedro R Morales-Ramirez

Rosendo Pena-Eguiluz

Raul Fajardo-Munoz

Antonio Mercado-Cabrera

Samuel R Barocio

Raul Valencia-Alvarado

Benjamin G Rodriguez-Mendez

Arturo E Munoz-Castro

Anibal de la Piedad-Beneitez

Israel A Rojas-Olmedo

Affiliations

Soon will be listed here.

Abstract

Background And Aims: The efficacy of a direct application of plasma needle to in vivo wound healing was experimentally studied in mice. This kind of plasma has achieved considerable success in blood coagulation and tissue restoration in mice. In the development of the present study, an argon plasma needle was chosen for coagulation purposes, whereas for healing purposes, a helium plasma needle was used.

Methods: Treatment was applied with a plasma needle produced by argon and helium to a wound induced in laboratory mice. Tissue regeneration was carried out by three argon plasma treatments with 0.5 SLPM flow for 1 min and three treatments of helium with 1.5 SLPM flow. Intervals between each treatment were 5 min and 60 min for argon and helium plasmas, respectively, thus completing a total treatment time of 180 min. Histological sections were performed to corroborate the internal bleeding and tissue regeneration.

Results: After three treatments with argon plasma, the blood produced in the wound was coagulated and protein material appeared. By means of treatment with helium plasma, an approach of the wound edges was produced until the conclusion thereof. These results were corroborated histologically.

Conclusions: This type of acceleration during the skin wound healing process can be attributed to the formation of reactive species such as NO, which were increased in the helium plasma needle with respect to the argon plasma needle.

Citing Articles

Non-Thermal Atmospheric Pressure Plasma as an Adjunct to Intestinal Anastomosis: A Pilot Study on Preventing Anastomotic Leaks.

Betancourt-Angeles M, Lopez-Callejas R, Berrones-Stringel G, Jaramillo-Martinez C, Navarro-Luna B, Rodriguez-Mendez B Life (Basel). 2024; 14(11).

PMID: 39598248 PMC: 11595499. DOI: 10.3390/life14111450.

Autofluorescence-guided Removal of Bacterial Biofilms from Tissues Using Cold Atmospheric Pressure Plasma (CAP).

Okebiorun M, Oberbeck C, Waite C, Clark S, Alomar Z, Miller D IEEE Trans Radiat Plasma Med Sci. 2024; 8(8):990-996.

PMID: 39512890 PMC: 11540416. DOI: 10.1109/trpms.2024.3370503.

Cold Atmospheric Pressure Plasma: A Growing Paradigm in Diabetic Wound Healing-Mechanism and Clinical Significance.

Barjasteh A, Kaushik N, Choi E, Kaushik N Int J Mol Sci. 2023; 24(23).

PMID: 38068979 PMC: 10706109. DOI: 10.3390/ijms242316657.

Innovative Curved-Tip Reactor for Non-Thermal Plasma and Plasma-Treated Water Generation: Synergistic Impact Comparison with Sodium Hypochlorite in Dental Root Canal Disinfection.

Arguello-Sanchez R, Lopez-Callejas R, Rodriguez-Mendez B, Scougall-Vilchis R, Velazquez-Enriquez U, Mercado-Cabrera A Materials (Basel). 2023; 16(22).

PMID: 38005133 PMC: 10672626. DOI: 10.3390/ma16227204.

The Role of Cold Atmospheric Plasma in Wound Healing Processes in Critically Ill Patients.

Bolgeo T, Maconi A, Gardalini M, Gatti D, Di Matteo R, Lapidari M J Pers Med. 2023; 13(5).

PMID: 37240907 PMC: 10219374. DOI: 10.3390/jpm13050736.