1. Introduction
Burn is one of the most important difficulties in the world which has been followed by many morbidity and mor- tality in addition to changing life quality of patients. In burns, oxidative system changes have been revealed by increasing in activity of free radicals and lipid peroxidation and also salient reducing can be observed in total antioxidant and the capacity of cleaning anti-oxidative. Two main resources in reactive oxygen species (ROS) in burns are xanthine oxidase enzyme (XO) and increasing activity of neutrophil [1] .
Many studies indicated that in burns following by producing toxins like (ROS), systematic inflammatory reaction has been started which leads to lipid peroxidation. Following by lipid peroxidation the hurt in cellular membrane has been occurred and finally cell has been died. Close relationship recorded between lipid peroxidation and burn complications. One of total productions in lipid per oxidation is malondialdehyde (MDA). Many studies have been shown that ischemia-reperfusion damage is along with increasing MDA level in tissues and different organism. In common situation, body is able to defend against free radicals damage with antioxidative mechanism like enzymatic system, vitamins, mineral elements and some antioxidative molecules. But, in situation like burns that balance has been lost between producing and removing free radicals from cells and tissues by yielding a lot of free radicals, oxidative stress has been created. So, clinical reply to this burn has been done based on balance between producing free radicals and removing them [2] .
Antioxidants can decrease lipid peroxidation by reducing these items: oxygen concentration, cleaning free radicals, preventing from starting free radicals production, analyzing peroxides and breaking attraction chain of hydrogen free radicals [3] . Protecting of oxidative damage can be done by endogenous antioxidative activity or exogenous (like people diet) [4] .
In some researches, vitamin E, vitamin C, sulfate zinc, allopurinol, melatonin and N-acetyl cysteine (NAC) have been used as industry oxidant in burn patients that cause improving in curing in burn [1] [5] . There would be this belief that drug plants are potential sources of antioxidant and cleaning ROS molecules. In some studies some types of plants like Echium amoenum Fischin (Ranjbar et al., 2009) and Melissa officinalis [3] [6] - [9] have been used as full antioxidant resource. Lemon balm is a kind of plants that belong to Lamiaceae that has been grown in center and south of European, Asia and north part of Iran. Other names of it are Varangboo and Faranjmoshkin in Iran [3] . The extract of this plant has been used for preventing from neurologic patients related to oxidative stress [10] and improving cognitive function in patients who are suffering from amnesiac [11] .
Also, infusion of this plant is applicable in these items: enforcing memory & comprehension and stimulating stomach, anti-convulsion, dyspnea, improving in joint ache, curing headache, curing heartbeat, tranquilizing features, and anemia and curing dry skin [12] . Regarding destructive effects of free radicals and oxidative stress on patients who are suffering from burn and specially their role in revealing inflammatory reactions and secondary tissue damages and also willing to using natural antioxidant and limiting the number of researches on natural antioxidants, the researchers were going to conduct this research on the effect of lemon balm on oxidative stress level of patients serum and improve them. Although there are some researches on the effect of lemon balm antioxidants, regarding the relationship between free radicals in burn and repairing injury and also the lack of study in this matter in burn patients. If this plant is effective on anti-oxidative system in patients and improving injury, it can be possible to use it as supplementary treatment in patients and in addition to reducing bedridden period and treatment charges can improve their life quality.
1.1. Bates-Jensen Wound Assessment Tool
The Bates-Jensen wound assessment tool (Barbara Bates-Jensen, 2001), is a validated wound assessment tool that evaluates 13 wound characteristics (size, depth, edges, undermining, necrotic tissue type, necrotic tissue amount, exudate type, exudate amount, skin color surrounding wound, peripheral tissue, peripheral tissue indurations, granulation tissue, and epithelialization) with each item scored on a 1-5 scale. A total score is obtained by adding all individual scores and the results are plotted on the wound status continuum. Higher total scores indicate a more severe wound status.
1.2. Statistical Analysis
Statistics analysis stats direct 2.7.9 was used to analyze data. Kolmogorov-Smirnov test was applied (K-S test) to check whether the data were normally distributed. Finally using paired t-test and repeated measurement variance were compared. p value less than 0.05 was considered as significant.
2. Method and Materials
This study is a clinical trial research was conducted on 60 patients (16 females and 44 males) in the age range of 50 - 18 years with 50 - 15 burn percentage (estimated based on Bravder Landau chart). These patients admitted to Vali-Asr University Hospital of Arak between December 2012 and June 2013. At first patients are likely to be selected by the investigator and then randomly were placed in two groups of experimental (n = 30) and control (n = 30). Before entering to this study, patients filled out the form of satisfying in participating to this research of Medical Science in Arak University. The study was approved in Ethical Committee of Medical Science in Arak University. All samples participated as volunteer and could go out from this research in every stage. The criteria for entering to this research were included: The participants didn’t NPO and pregnant. They didn’t affected by diseases such as thyroid disorders, diabetes, cancer and infection diseases, their reason for burn shouldn’t be electrical reasons, they shouldn’t be addicted or use alcohol and they were not under treatment by antioxidants or anti depression drugs. The criteria for extracting participates from this study were the lack of coordination for attending to study, possible allergy to lemon balm, patients discharge, transferring to other hospital or patients’ death.
In beginning of the study, one questionnaire which made by researchers has given to participants to fill it out. Some questions about their injury, burn, demographic features and their social-economical situation. Then experimental group have been drunk lemon balm infusion which contains 1.5 gr dried sheet of it in 100 cc water and two times in one day (9 am & 9 pm) for two weeks, in addition to receiving daily routine care such as daily dressing in burn part. Related information on anti-oxidative serum level of two groups investigated in which Venus blood sample (5 cc) were taken for routine experiments in first and fifteenth days of the research. The blood sample of participants were centrifuged and they have been kept in −70˚C until their analyze. In the beginning of the research, 7th and 15th days the injury position investigated by standard instruments (Bates-Jensen) by researchers. Oxidative stress parameters included serum total antioxidant and lipid peroxidations are measured [13] .
Preparation of Protocol and Infusion
Infusing based on standard protocol has been done by people who were expert. After cleaning dried leaves of lemon balm, they have been packaged on 1.5 gr boxes. Infusion has been prepared by mixing one box (1.5 gr) with 100 cc water in 98˚C for 30 minutes [3] .
3. Results
The age average of participants was 30.862 in experimental group and 30.241 in control group. In experimental group 21 people (70%) and in control group 23 people (76.6%) were males. Also, 9 people (30%) in experimental group and 7 people (76.6%) in control group were females. The means of burn percent in experimental group and control group were 23.83% and 24%, respectively. Frequency distribution of burn depth in experimental and control subjects in Table 1 is shown.
The mean scores of investigating in jury in 1st, 7th and 15th days were 33.63, 24.7 and 16.87 in experimental group and were 32.53, 28.03 and 25.07 in control group. As results indicated injury position in first day was similar in both experimental and control group, while it seems amplitude change in repairing injury in second and third periods (7th and 15th days) which were more than amplitude changes in control group (Table 2). 1st day mean ± SD values for
MDA
plasma levels in intervention and control groups were 15.55 ± 16.35 and 0.10 ± 16.86, respectively. 15th day mean ± SD values for
MDA
plasma levels in intervention and control groups were 10.18 ± 3.55 and 0.53 ± 11.44, respectively. 1st day mean ± SD values for FRAP plasma levels in intervention and control groups were 0.252 ± 0.063 and 0.276 ± 0.069, respectively. 15th day mean ± SD values for FRAP plasma
Table 1. Frequency distribution of burn depth in experimental and control subjects.
levels in intervention and control groups were 0.260 ± 0.060 and 0.284 ± 0.061, respectively (Table 2). The meaningful level of Kolmogorov-Smirnov indicated for studied indexes in both groups. These rates obtained bigger than 0.05 and as a result variables in every part of experiment are normal. So, conducting paired t-test and also repeated measurement variance was used. The result of repeated measurement variance presented that pattern changes of this index in experimental group are different from control group during three stages (first day, later 7 days and later 15 days) in meaningful level of first type (0.05). Of course, we should take into account that the rate of wound in both groups are improving but the rate of improved wound in experimental group is meaningful than control group as it is obvious in Figure 1. Also the meaningful test of groups’ encounter effects and scores in improved wound in three turns indicated meaningful difference in improved wound score in both groups in every stage. Although, their basic scores didn’t have significant difference, this interval registered in the rate of their improved wound in 2nd and 3rd periods (in 7th and 15th days) after beginning of the treatment.
MDA is one of the productions which derived from decomposing lipid peroxidation and was measured as lipid peroxidative index. Also the rate of final antioxidant capacity (FRAP) was considered as total antioxidant of serum. The mean of total antioxidant has been increased in both groups but it is not possible to claim about meaningful changes in this index. For lipid peroxidation has been observed that this index has been increased at the end of period than first day. While, this index had significant decrease in experimental group at the end of 15 days period.
The meaningful level of T test of paired sample obtained mean of total antioxidant in patients or control group (p = 0.861) and experimental group (p = 0.505) that is bigger than first error (0.05) and as a result the hypothesis about equal amount of final mean antioxidants is not rejected in first and end of study in every group (Table 3). So, regarding the results of this study, there isn’t evidence on the effectiveness of lemon balm on the mean of patients’ final antioxidants. The mean of lipid peroxidation in control group was (p = 0.034) and experimental group (p = 0.059). By comparing this meaningful level with first error (0.05), it can be claim that the rate of patients’ lipid peroxidation in control group has meaningful difference in first and end of research period (Table 4). It can be conclude that the rate of lipid peroxidation mean is more than mean at the end of period regarding negative part in the test and also mean differences in this group. But, it is observable that there isn’t meaningful difference between mean in first and end of research regarding meaningful level for experimental group. So, using lemon balm has significant effect on lipid peroxidation mean of patients who suffering from burn. In order to investigate the correlation between wound healing and oxidative stress level, spearman correlation coefficient has been used. The greater amount of meaningful level in correlation test in 0.05 error indicated that there isn’t meaningful correlation between any of oxidative stress level with wound healing based on two factors of lipid peroxidation and serum total antioxidant and it is true for both groups. So it can be concluded that oxidative stress level that lead to wound healing in patients who suffering from burn has not been studied.
In this regard, Bonferroni test has been used for investigating created differences in the rate of improved wound. The results of aforementioned test presented that improved wound’s scores decreased in every period than previous period in experimental group. But in control group, improved wound had meaningful difference only 7 days after starting period. But this rate was not different in 15 days after starting period (Table 5, Table 6).
Table 2. The concentrations’ indexes and dispersion of research variables.
Table 3. The concentration of total antioxidant in case and control group before and after the study.
Table 4. The concentration of lipid peroxidation in case and control group before and after the study.
Figure 1. Mean of total score of wounds assessment in both of groups in assessment days is shown. Higher total scores indicate a more severe wound status.
4. Discussion
In present study, the effects of lemon balm infusion has been investigated on second grade burning wound healing and the state of serum oxidative stress in bedridden patients in burn unit. Results indicated significant development in the rate of wound healing in patients who used the infusion. On the other hand, from beginning to the end of research, the amount of MDA as lipid peroxidation index didn’t increased in experimental group compared to control group.
Table 5. The result of repeat measure analyses for improve in experimental and control group.
*p < 0.05.
Table 6. Changes in the three stages of healing scores (Bonferroni test).
*p < 0.05.
In burns, inflammatory cells produce ROS as a part of microbicidal vesitocid system. As previously mentioned, a lot of studies indicated that systematic inflammatory reactions begin which followed by producing toxins like ROS and finally lead to creating lipid peroxidation. Because of the main part of cell membranes is composed of polyunsaturated fatty acids (PUFA) which is the most vulnerable target of ROS attack and many tissues suffering from damaging in cell membranes peroxidation and finally cause to cellular death. In other side, there is close relationship between the amount of lipid peroxidation and burn complications.
Produced MDA which is one of total productions of lipid peroxidation is known as suitable index for oxidative damages. A lot of researches indicated that damage in perfusion is followed by increasing MDA level in organisms and different tissues. On the other hand, in first phase of burn, collecting neutrophils has been observed that known as another source for producing ROS in distant organs in damaged pathogenesis [2] . Other main sources of producing free radicals (ROS) in burning trauma is xanthine oxidase enzyme which has important role in ischemia reperfusion damage by producing destructive free radicals in cleaning capacity in endogenous enzymes [3] . According to producing free radicals in burn occur a remarkable decrease in total antioxidant status and antioxidantive cleaning capacity [1] . In this situation, there is a lot of free radicals production and unsuitable application in antioxidants system. So, this balance between producing and removing free radicals failed in cells and tissues and there would be situation like oxidative stress. So, clinical responses have been done based on keeping this balance [2] .
Lemon balm is a kind of plant with natural antioxidants and is effective in many related disease to oxidants [6] . In vitro & ex vivo studies, antioxidant activity in lemon balm has been shown but there are limited disease to oxidative stress studies particularly related to human. In vivo studies, lemon balm extract just was able to decrease LPO rate in rodents and hyperlipidemic liver in rats. Lemon balm extract as a full resource of very useful antioxidants and many researches indicated great amount of phenolic in polar extract and antioxidants activity and cleaning capacity in free radicals. These components have antioxidants and cleaning free radicals and also, decreased LPO rate [3] .
Some studies used of various antioxidants to antagonize ROS in burned patients; such as: vitamin E, vitamin C, zinc sulphate, allopurinol, N-acetylcysteine [1] [5] and melatonin [5] .
In those studies MDA were significantly increased at zero time in burn patients (p > 0.05) when compared with healthy subjects (control group). In group that didn’t use antioxidant, serum MDA levels were non-signifi- cantly decreased on days 3, 7, and 14 compared with zero time, while on discharge day serum MDA levels were significantly decreased by 61.37% compared with zero time. This result was still significantly higher than control group.
The main phenolic compounds that were identified in tea infusion from lemon balm, respectively were rosmarinic acid, luteolin 7-o-glucoside, quercetin 3-rutinoside, gallic acid, quercetin 3-o galactoside and ferulic acid. Recent studies indicated that the oral administration of lemon balm is beneficial in protection against oxidative stress and DNA damage in subjects exposed to long-term low-dose ionizing radiation and fatty liver diseases that a significant decrease (p = 0.0001) in LPO level and liver enzyme were observed [3] [14] . Also may be useful for the protection of aluminium worker from toxic effects of that is mediated through oxidative stress [8] . In this study antioxidant parameters significantly increased but LPO was not different before and after use of lemon balm infusion.
Some studies used medicinal plants in second-degree burn wounds healing such as onosma stenosiphon boiss that assessed on gerbil (field mouse) (rat) [15] , or alcoholic extract of Camellia sinensis that assessed on burn wounds in gerbil [16] . In these studies a significant improvement in wound healing were shown. In recent study antioxidant effects of Camellia sinensis has been used. Also, using lemon balm infusion didn’t significantly increase serum MDA as an index of LPO. Therefore, MDA that is a product of lipid peroxidation is decreased and significantly improved wound healing in burn patients.
5. Conclusion
The oral administration of lemon balm infusion may be helpful for improving antioxidant defense system by decreasing LPO help to second-degree burn wounds healing. These findings encourage pursuing further studies such as determining effects of lemon balm on other degree burn wounds healing and healing time. As limitation of this study, the researchers were not able to control other antioxidants that they intake exactly because of ethical reasons.
Acknowledgements
The authors would like to thank all subjects and burn ward staff of Valiasr Hospital in Arak for their kind cooperation.
Authors Note
This study was the outcome of an MA thesis of the first author in Arak University of Medical Sciences.
Abbreviations List
PRN: pro re nata, as needed;
LPO: lipid peroxidation;
ROS: reactive oxygen species;
XO: xanthine oxidase enzyme;
MDA: malondialdehyde;
NAC: N-acetyl cysteine;
TAC: total antioxidant capacity;
PUFA: poly unsaturated fatty acids;
NPO: nulla per os.
NOTES
*Corresponding author.