Introduction: As representatives of prokaryotic beings, bacteria were selected in nature for their very high capacity to adapt to the environment. The human body comprises a vast population of bacteria needed for health maintenance; skin lesions represent a major public health problem involving the nutritional, hospital and illness of the patient. Objective: The objective of this study was to verify the effect of the plasma jet on bacterial species and to correlate it with clinical physiotherapy. Method: This is an in vitro experimental study carried out at FSG University Center. Performed through cultures of bacteria Sthaphylococcus aureus, Pseudomonas aeruginosa and Klebsiella pneumoniae under the effect of plasma jet. Results: As observed all strains were resistant to penicillin, creating no inhibition halo in any of them. In the plates of the bacteria Staphylococcus aureus, in the area where the Plasma Jet was applied there was no microbial growth. In Klebsiella pneumoniae strains microbial growth was achieved in 90 and 120 seconds. Finally, Pseudomonas aeruginosa plates in the 90 seconds were microbial growth compared to the 120 and 180 seconds. Conclusion: It can be concluded that the time of application of the plasma jet has an important role in the antimicrobial action, when compared to Physiotherapy, a new method of treatment for skin lesions may be an option, with the aim of reducing infections and accelerating the process of tissue healing.
As representatives of prokaryotic beings, bacteria were selected in nature for their high ability to adapt to the environment around them due to their high multiplication rate, as well as their metabolic rate. These organisms are still used in studies, and used in several areas of microbiology [
The human body comprises a vast population of bacteria necessary for maintaining health [
Bacteria cause two types of infections: one is called pyogenic, being responsible for the production of pus; the other is granulomatous, where the defense cells clump, which serve to isolate insoluble bacteria or foreign substances that the organism was unable to expel [
However, the bacteria end up infecting the skin lesions, which result in a major public health problem involving the nutritional and hospital aspects and causing sickness of the patient, in addition to social and personal care issues [
Pressure injury occurs due to some factors that are triggered during hospitalization, since it is an environment where patients are exposed to risk factors such as hemodynamic instability, impaired physical mobility, compromised general health, and nutritional condition [
Infections in pressure injuries end up generating high costs to healthcare facilities, influencing the increase in the hospitalization period with direct repercussions on the discomfort and dysfunction that are caused to patients affected by this type of wound [
All wounds are colonized by microorganisms, among them, the most common found in skin lesions are Pseudomonas aeruginosa, Staphylococcus aureus, Acinetobacter spp. and Candida albicans that form a colony in the wound, however, not all are infected. Infections can present themselves in different ways, usually with local signs of soft tissue involvement such as heat, erythema, edema, purulent secretion and the presence of a foul odor [
The treatment of pressure lesion infections is based on the severity of the infection and the resistance profile of the bacteria [
Penicillin was discovered in mid-1928 by Alexandre Fleming, considered as a fluke in medicine, being used until today as a treatment for diseases such as Syphilis and other pathologies [
However, clinical physiotherapy works with the multidisciplinary team to prevent the development of skin lesions through patient assessment. It acts mainly in the promotion of early mobilization, in active and passive exercises that favor the increase of circulation and cellular nutrition, in the observation of the general condition of the patient, identifying associated factors as well as the physical integrity of the skin, accelerating the healing process through various techniques and conducts that correspond to the specialties of the physical therapist [
Technology over time encompasses several areas, so it has been incredibly assisting the work that is done by the physiotherapist. In this study, a technology called plasma jet will be approached, which can be used as another physiotherapeutic resource for the treatment of wounds due to its bactericidal action. In addition, the three most common bacteria that may be present in these lesions will be analyzed, namely Staphylococcus aureus, Pseudomonas aeruginosa, and Klebsiella pneumoniae. The antimicrobial action of penicillin and their resistance to this antibiotic will be studied. Thus, the aim of the present study was to monitor the effect of the plasma jet on bacterial species and to correlate it with clinical Physiotherapy.
This in vitro experimental study was carried out at Faculdade da Serra Gaúcha.
The study was conducted using cultures of bacteria Staphylococcus aureus, Pseudomonas aeruginosa, and Klebsiella pneumoniae in a Petri dish, under the effect of the plasma jet.
Plasma is popularly known as the fourth state of matter and can be defined as a gas with a low degree of ionization, consisting of charged particles that have multiple interactions, being macroscopically neutral [
Described as a gaseous substance produced from helium, argon, among other possibilities where part of its particles are ionized, the plasma can be obtained with different compositions. It consists of several active components including particles charged with ions, electrons and neutrons, radicals, highly Reactive Oxygen Species (ROS) and Reactive Nitrogen Species (RNS), ultraviolet, among others [
The interaction of the constituent components of plasma can give rise to different actions such as the chemical effect that is characterized by the disruption of the cell membrane, which can lead to cell death by oxidative stress. In the physical effect, ions cause an increase in the potential at the surface of the microorganisms, creating an electrostatic tension between the different layers of the cell wall and, finally, the neutralizing effect of the plasma neutralizes the cell wall, which, by nature, is negatively charged, triggering cell death. The effects mentioned can occur both in healthy non-cancer cells and in cancer cells [
Argon is a noble gas, the largest amount of which is found in the gaseous mixture of atmospheric air and about 0.93% of the volume of air we breathe consists of it. The plasma jet with argon gas has a wide indication in the healthcare area and makes it an important antimicrobial resource, aiming at improving the patient’s quality of life, allowing the physiotherapist new therapeutic possibilities for the rehabilitation of tissue repair of pressure injuries [
This study included reference strains Klebsiella pneumoniae (ATCC 49168), Pseudomonas aeruginosa (ATCC 49027, and Staphylococcus aureus ATCC 49029; all strains were KWIK-STIK). The inoculants that were used in the tests were obtained from culture of these microorganisms on MacConkey agar for the bacteria K. pneumoniae and P. aeruginosa, and blood agar for the bacteria S. aureus, in a Petri dish.
The cultures of these bacteria were sown using the method of depletion in the culture media already mentioned and were incubated in an oven at 36˚C ± 2˚C for 24 hours. After this period, the bacteria were diluted in 0.9% sodium chloride (saline) according to the McFarland scale 0.5 to perform the antibiogram in the Mueller-Hinton culture medium.
The antibiogram was performed in the Mueller-Hinton culture medium, in which the bacteria diluted in saline were spread throughout the culture medium for homogeneous growth. This method was used to check whether the antibiotic and the plasma jet are effective in eliminating the bacteria. Each antibiogram culture of each bacterium was performed in triplicate.
To check for bacterial death, the plasma jet was used and to compare the efficiency, the antibiotic penicillin was used. To check the efficiency of the plasma jet, an area where the jet passed was delimited and used, then evaluated by direct and directed observation of the inhibition halo generated by the effect of the plasma jet. Penicillin was used in a diffusion disk, an area was delimited where the jet has been used, and penicillin was used in that disk.
The exposure of the plasma jet, together with a noble gas, called argon in the culture medium with the bacterium, was of 90, 120, and 180 seconds with a distance of 2 mm from the plate, programmed continuously, density of 40% with an amplitude of 100%. After exposure in triplicate at each time, the plates were incubated for 24 hours in an oven at 36˚C ± 2˚C and observed the next day (
All procedures were performed inside a laminar flow hood to avoid external contamination (
The strains used in the study were Staphylococcus aureus, Klebsiella pneumoniae, Pseudomonas aeruginosa. As observed, all strains were resistant to penicillin, creating no inhibition halo in any of them (
As shown, in the Staphylococcus aureus bacterium plates, there was no microbial growth in the area where the Plasma Jet was applied. Thus, the Jet was considered efficient with an antimicrobial action at all times (Figures 5-7).
In the strains of Klebsiella pneumoniae, microbial growth was obtained in 90 and 120 seconds. Thus, the time of application of the Plasma Jet can influence the inhibition of its growth. The jet was only efficient in its antimicrobial action after 180 seconds, which, according to observation, was the time that had the lowest growth rate (Figures 8-10).
Finally, microbial growth was observed at 90 seconds in the Pseudomonas aeruginosa plates, when compared to the times of 120 and 180 seconds. Thus, the time of application of the Plasma Jet will influence the inhibition of microbial growth, considered efficient after 120 seconds (Figures 11-13).
Neurological, cardiac, respiratory, infectious, and neoplastic diseases represent more than 85% of hospitalizations, being frequent in critically ill patients resulting in hemodynamic instability and limited mobility [
In the present study, it was possible to verify the resistance of bacteria to penicillin. In this perspective, resistance to antibiotics occurs due to biological adaptations by which microorganisms develop defense mechanisms against the action of the antibiotic, resulting in the development of new, more potent and more active drugs [
According to data obtained by BrCAST, the clinical cutoff points for the diameter of the halo with penicillin are: Staphylococcus aureus is sensitive when its inhibition zone is >26 mm and resistant <26 mm; Pseudomonas aeruginosa is sensitive >18 mm and resistant <18 mm, and finally, Klebsiella pneumoniae is sensitive >24 mm and resistant <24 mm. Therefore, there was no inhibition halo in any of the bacteria, which makes them resistant to penicillin [
In the present study, it was observed that there was no microbial growth in the Staphylococcus aureus plates, in the area where the plasma jet was applied continuously. Thus, the jet was considered efficient with an antimicrobial action at 90, 120, and 180 seconds. However, in the Klebsiella pneumoniae strains, microbial growth was observed between 90 and 120 seconds. Therefore, the plasma jet application time factor is considered important to inhibit growth, since it was only efficient in its antimicrobial action after 180 seconds, which, according to observation, was the time that had the least development, being necessary the application in longer times to obtain a satisfactory result.
On the other hand, microbial growth was observed at 90 seconds in the plates of Pseudomonas aeruginosa when compared to the times of 120 and 180 seconds. Therefore, the time of application of the plasma jet will influence the inhibition of microbial growth, considering it more efficient when applied after 120 seconds.
In one study, it can be analyzed that the closer to the agar it is and the longer the exposure time, the greater the diameter of the halo, showing that the increase in the application distance may hinder the effect of the ion molecules generated by the jet plasma, which are responsible for antimicrobial activity [
To evaluate the clinical application of argon plasma jet coagulation in the ablation of Barret’s esophagus, a group of 30 patients was selected, 25 of whom were male, aged between 12 and 72 years old and 5 of them were female, aged between 45 and 60 years, who underwent antireflux surgery and later referred for treatment with argon plasma coagulation. Patients were submitted to sessions at 30-day intervals until the lesion completely disappeared on endoscopy; a success rate with a total ablation of 93.4% was observed, with no death data during the study period, supporting our study in the safe use of argon gas for therapeutic use in skin lesions [
The use of plasma sterilization technique offers advantages over other methods used, as it is very effective in reducing microbial load, in addition to developing at low temperatures and not using toxic gases, consisting of exposing reactive materials generated by the ionization of a gas, using electromagnetic fields; therefore, it becomes efficient in the process of sterilizing microorganisms [
The healing of skin wounds is a complicated process that involves several cells and cytokines, divided into inflammatory, proliferative, and remodeling phases. Due to multiple healing phases, the lesions are affected by internal and external disorders that can lead to chronic wounds, such as pressure injuries, diabetic foot, cancerous ulcers, and post-operative wound infections [
However, the plasma jet, when applied to wounds, reduces the bacterial load, providing an improvement in vascularization at the wound site, in addition to the oxygen supply and supply of nutrients, thus promoting healing. According to a literature review, the plasma jet, in addition to exerting bactericidal effects, acts on tumor cells inhibiting cell metastasis, inducing DNA damage, causing death by proliferating and malignant cell apoptosis. The author also mentions that a clinical study of patients with head and neck carcinoma showed an improvement in cancerous ulcerations and a reduction in tumor proliferation after plasma application [
The antimicrobial use of plasma in dermatology is of great importance because it is used at low temperatures and allows a direct action on pathogens present in the skin. In a study carried out with pig skin, because it is equivalent to human skin, it was reported that treatment with plasma led to the decolonization of the tested bacteria Staphylococcus aureus and Escherichia coli without harming the skin of the pig sample [
A study carried out in diabetic rats with skin wounds was submitted to the application of the plasma jet, where the healing process would be analyzed, divided into two groups, one with the application of the plasma jet and the other not. The results were positive where it was possible to verify that the wounds were practically closed around the 14th day, the author also reports that the fastest healing happened in the group treated with the plasma jet with an important reduction in the inflammatory process [
So this anti-inflammatory action occurs due to the increase in tissue temperature during plasma treatment in conjunction with ultraviolet radiation and gas ionization, resulting in a reduction in the microbial load [
From the results obtained, it can be concluded that the time of application of the plasma jet has an importance in the antimicrobial action, since in the strains of Staphylococcus aureus, growth was inhibited at all times. When correlated with Physiotherapy, one can think of a new treatment method for skin lesions, in order to decrease infections and accelerate the tissue healing process, promoting an improvement in the patient’s quality of life, pain relief, besides reducing hospital expenses.
In light of the difficulty of locating plasma jet studies and because it is a technology still under development, additional studies are recommended for further technical-scientific deepening on the subject as well as for a direction for clinical trials followed by a systematic monitoring of at least 6 months of all patients involved.
To the Company Tonederm for the scientific technical support to this study.
The authors declare no conflicts of interest regarding the publication of this paper.
dos Reis, D.A., Pires, D.P., Ribeiro, S.B., Medeiros, N., Sampaio, A.R., Fortuny, E., de Mello Pinto, M.V. (2023) The Effect of Plasma Jet on Bacterial Species and Correlation with Physiotherapy. Journal of Biosciences and Medicines, 11, 343-355. https://doi.org/10.4236/jbm.2023.1111029