Otostegia persica extraction on healing process of burn wounds

Ganjali, Amin; Sotoudeh, Amir; Jahanshahi, Amirali; Takhtfooladi, Mohammad Ashrafzadeh; Bazzazan, Ali; Roodbari, Nasim; Harati, Maryam Pourramezani

doi:10.1590/S0102-86502013000600001

Abstract

PURPOSE: To investigate if the methanolic extract of the Otostegia persica can accelerating healing process of burn wound because of its anti-inflammatory and antioxidant effects. METHODS:Forty eight male Wistar rats were randomized into three study groups of 16 rats each. Burn wounds were created on dorsal part of shaved rats using a metal rod. In group I the burn wound was left without any treatment. Group was treated with topical silver sulfadiazine pomade. In group III, ointment containing the OP extract was administered. Skin biopsies were harvested from burn area on the 3rd, 5th, 14th and 21st days after burn and examined histologically. RESULTS: Re-epithelialization in the control group and in group II was lower than in group III. Re-epithelialization in groups II and III was significantly different from that in the control group. On the 5th day of the experiment, we assessed lower inflammation in the burn area compared to control group. This means that the inflammation was suppressed by methanolic extract of OP. From day 5 to 14; the fibroblast proliferation peaked and was associated with increased collagen accumulation. It was obvious that angiogenesis improved more in the groups II and III, which facilitated re-epithelialisation. CONCLUSION:Methanolic extract of Otostegia persica exhibited significant healing activity when topically applied on rats. OP is an effective treatment for saving the burn site.

Otostegia persica; Burn; Antioxidants; Rats

1 ORIGINAL ARTICLE

WOUND HEALING

Otostegia persica extraction on healing process of burn wounds¹ 1 Research performed at Department of Experimental Sciences, Faculty of Experimental Sciences, Islamic Azad University, Kahnooj Branch.

Amin Ganjali^I; Amir Sotoudeh^II; Amirali Jahanshahi^III; Mohammad Ashrafzadeh Takhtfooladi^III; Ali Bazzazan^IV; Nasim Roodbari^I; Maryam Pourramezani Harati^V

^IAssistant Professor, Faculty of Experimental Science, Kahnooj Branch, Islamic Azad University, Kerman, Iran. Design of the study, manuscript writing

^IIAssistant Professor, Faculty of Veterinary Science, Kahnooj Branch, Islamic Azad University, Kerman, Iran. Design of the study, analysis and interpretation of data

^IIIFellow PhD degree, Postgraduate Program in Veterinary Science, Department of Surgery, Faculty of Specialized Veterinary Sciences, Science and Research Branch, Islamic Azad University, Tehran, Iran. Helped with technical procedures, collection and processing of study information

^IVGraduate student, Faculty of Veterinary Science, Garmsar Branch, Islamic Azad University, Semnan, Iran. Collection and processing of study information

^VYoung Researchers and Elite Club, Kahnooj Branch, Islamic Azad University, Kerman, Iran. Analysis and interpretation of data

^{Correspondece} Correspondence: Amin Ganjali Islamic Azad University Kahnooj Branch Kahnooj, Iran Phone: 00989158378828 Fax: 00983495230203 amin.ganjali@yahoo.com

ABSTRACT

PURPOSE: To investigate if the methanolic extract of the Otostegia persica can accelerating healing process of burn wound because of its anti-inflammatory and antioxidant effects.

METHODS:Forty eight male Wistar rats were randomized into three study groups of 16 rats each. Burn wounds were created on dorsal part of shaved rats using a metal rod. In group I the burn wound was left without any treatment. Group was treated with topical silver sulfadiazine pomade. In group III, ointment containing the OP extract was administered. Skin biopsies were harvested from burn area on the 3rd, 5th, 14th and 21st days after burn and examined histologically.

RESULTS: Re-epithelialization in the control group and in group II was lower than in group III. Re-epithelialization in groups II and III was significantly different from that in the control group. On the 5th day of the experiment, we assessed lower inflammation in the burn area compared to control group. This means that the inflammation was suppressed by methanolic extract of OP. From day 5 to 14; the fibroblast proliferation peaked and was associated with increased collagen accumulation. It was obvious that angiogenesis improved more in the groups II and III, which facilitated re-epithelialisation.

CONCLUSION:Methanolic extract of Otostegia persica exhibited significant healing activity when topically applied on rats. OP is an effective treatment for saving the burn site.

Key words: Otostegia persica. Burn. Antioxidants. Rats.

Introduction

Burn wound treatment is one of the challenges in the medical science. In burn area, excessive inflammation leading to increased vascular permeability, local tissue edema and neutrophil activation that cause local tissue damage¹. New wound healing compounds are welcomed for accelerating regenerating process for its anti-inflammatory and antimicrobial effects. The interest in natural antioxidants has been increased considerably. As resources of natural antioxidants much attention has been paid to plants^2,3. The antioxidant activity of several Iranian plants has been reported⁴.

Otostegia persica (OP) that locally called «Golder» is an endemic medicinal plant growing in Kerman province in south of Iran^5,6. The aerial part of OP is reported to have high antioxidant activity which is related to the flavonoids⁷. It is used in Iran traditional medicine to treat malaria, fever⁵. It has also been used as analgesic in toothache⁶. The equeous extract of the OP is traditionally used as antihistaminic antispasmodic, anti-arthritis and antipyretic⁵. Additional biological screening of the methanolic extract has revealed strong antioxidant as well as antibacterial activities against various strains of Gram-positive and Gram-negative bacteria^7,8. Recent studies indicated that the methanolic extract of its aerial parts has anti-diabetic effect⁶.

Despite many uses of OP, little data can be found about the wound healing effects of the plant. This prompted us to carry out an investigation for healing effects of OP on burn wound in rat. According to the experiments, it is determined that methanolic extract of the OP has antioxidant properties⁶.

We hypothesized that methanolic extract of the OP can accelerating healing process of burn wound through its antioxidant activity.

Methods

Plant material

The plant OP was collected from Kahnooj, Kerman province, Iran, in April 2013. The plant was identified by the Department of Botany of the Islamic Azad University, Kahnooj branch (BIAUK), Kerman. A voucher specimen has been deposited at the Herbarium of BIAUK.

Aerial parts of OP were finely powdered in a mill. 500 g of sample was percolated with methanol. The solvent was removed under reduced pressure at low temperature. The solvents were evaporated under the reduced pressure⁵.

OP extract was concentrated using rotary machine and dried with heating for 48 hours at 70ºC in ban marry bath. In the next stage, 9 g dried extract was dissolved in 8 ml of distilled water and 92 mg Eucerin was added as preservative. The produced material was sterilized by ultraviolet and packed in 5 g tube.

Laboratory animals

Animals were kept in individual cages and they had free access to food and water, and were maintained in a controlled temperature (24 ± 2ºC) and light cycle (12 h light and 12 h dark).

The Experimental animal research laboratory at Islamic Azad University, Kahnooj branch, provided 48 male Wistar rats, weighing between 300 and 350 g. The study was conducted in accordance with ethical standards and approved by our institutional animal research ethics board. The rats were randomized into three study groups of 16 rats each.

Experimental protocol and burn model

Burn wounds were created on dorsal part of shaved rats using a metal rod (1.5 cm diameter) heated to 80-85ºC and exposed for 20 s⁹.

In group I (control group), the burn wound was left to secondary healing without any treatment. In group II, the burn was treated with a twice-daily application of topical silver sulfadiazine pomade. In group III, ointment containing the OP extract was administered twice a daily. Animals were kept during wound healing for a period of 21 days.

Histopathological studies

The 1/5 cm skin biopsies were harvested elliptically from burn area on the 3rd, 5th, 14th and 21st days. For this purpose, four animals in each group were euthanized at the set time. The samples were fixed in a 10% formaldehyde solution for 24 h and later embedded in paraffin blocks. Serial 5 µm sections were cut using a rotary microtome. The tissues were stained by haematoxylin and eosin and the number of inflammatory cells, new fibroblast cells, new capillary formation, epithelial cells and collagen fibers formation were counted in 5 high power fields (×100) over three separated sections. Assessment was performed by a blinded assessor while considering the histologic grading scale for wound healing, described by Roodbari et al.¹⁰.

The data was analyzed using Stata 16. All results were presented as means and standard deviations of their respective groups. Significance was calculated using analysis of variance and Duncan multiple range test. P value less than 0.05 was considered as significant.

Results

Histopathological assessments

On the 3rd day, in all burn-injured groups, there was damage of epidermis, dermis, and subcutaneous adipose tissue as well as some portion of subjacent skeletal muscle tissue; necrotic blood vessels were also observed in the burned region. The inflammation in groups I and II on day 3 was severe in the burn area (Figure 1). Statistically, there were no significantly differences between three groups.

On day 5, in all groups, the burn causes damages to skin obvious, but in the groups III, the new vessels formation was observed (Figure 2).

The difference in angiogenesis between the control group and group III was statistically significant. Control group showed no distinguishable epithelium and the dermal layer was half the thickness of the adjacent unburned region.

At day 14, the group III displayed the best burn healing results among the other groups. Group I exhibited wounds covered with a thick layer of scar (Figure 3). In comparison, skin sections from groups II and III showed a multilayered epithelium.

On day 21, in the groups II and III showed relatively well organized epidermal layer and the thickness of epidermal layer. The subcutaneous skeletal muscle organization in the groups II and III was same but in the control groups the dermal compartment had irregularity (Figure 4).

The differences between the fibroblast proliferations of the groups II and III were also not statistically significant.

Re-epithelialization in the control group and in group II was lower than in group III. Re-epithelialization in groups II and III was significantly different from that in the control group. Table 1 summarizes the histopathological responses on days 3, 7 and 21.

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Discussion

Burns are sensitive to infection that may effects on healing of these wounds. Because of its oily and moisturizing features, topical antibiotics are required to promoting burn wound healing and re-epithelialisation¹¹. Topical antimicrobial agents containing silver sulfadiazine have been used clinically to eliminate infections common in local burn wounds¹². Therefore we compared treatment with OP pomade with no treatment and topical treatment alone.

Burn wounds healing are complex process characterized by re-epithelialisation, and granulation tissue formation and remodeling of the burn site⁹. Saving the burn area is a major focus of burn studies. Thermal injury causes excessive inflammation. Neutrophils are the primary inflammatory cells that accumulate on the injured tissue within the first 24 h after injury¹³. It is thought that antioxidants play a significant role in protecting the living organisms from the toxic effects of chemical substances¹⁴. Antioxidants are able to suppress the inflammation. According to the experiments, it is determined that methanolic extract of the plant has antioxidant properties⁸. Extract of OP treatment may prevent neutrophil-dependent tissue damage and burn-induced oxidative injury.

Flavonoids are known to promote the wound healing process mainly due to their properties such as reducing lipid peroxidation to prevent or slow the onset of cell necrosis, increasing the viability of collagen fibrils by increasing the strength of collagen fibers, preventing the cell damage by promoting the DNA synthesis and increasing the circulation¹⁵. Generally, Morin as a flavonoid contains antioxidant, anti-allergic, anti-inflammatory, anti-mutation and anti-cancer effects¹⁶. The antioxidant activity of methnolic extract of OP may be due to Morin in it.

On the 5th day of the experiment, we assessed lower inflammation in the burn area compared to control group. This means that the inflammation was suppressed by methanolic extract of OP, which is essential in the burns healing. Reports in the literature indicate that on day 5, angiogenesis (neo-vascularisation) is established and re-epithelialisation is re-established¹⁷.

Accordingly in this study from day 5 to 14, the fibroblast proliferation peaked and was associated with increased collagen accumulation. It was obvious that angiogenesis improved more in the groups II and III, which facilitated re-epithelialisation.

The composition of the methanolic extract of Otostegia persica and the results of our work like dermal regeneration confirmed that the extract had a positive effect towards cellular proliferation, granulation tissue formation and epithelialisation.

Conclusion

Methanolic extract of Otostegia persica exhibited significant healing activity when topically applied on rats. OP is an effective treatment for saving the burn site.

Received: February 14, 2013

Review: April 16, 2013

Accepted: May 13, 2013

Conflict of interest: none

Financial source: Islamic Azad University

1. Kufman T, Neuman RA, Weinberg A. Is postburn dermal ischemia enhanced by oxygen free radicals? Burns. 1989;15:291-4.
2. Couladis M, Tzakou O, Verykokidou E, Harvala C. Screening of some Greek aromatic plants for antioxidant activity. Phytother Res. 2003;17:194-6.
3. Linn CC, Wu SJ, Chang Ch. Antioxiant activity of Cinammomum cassia. Phytother Res. 2003;17:726-30.
4. Asgri S, Naderi GA, Bashardoost N, Etminan Z. Antioxidant effect of the essential oil and extract of Matricaria camomilla L on isolated rat hepatocytes. J Med Plants. 2002;1:9-75.
5. Ayatollahi SAM, Kobarfard F, Asgarpanah J, Choudhari MI. Antiglycation activity of Otostegia persica (Burm) Boiss. Afr J Biotechnol. 2010;9(24):3645-8.
6. Hedayati M, Pouraboli I. The effect of methanolic extract of Otostegia persica on serum glucose level and renal function indicators in streptozotocin induced diabetic rats. Zahedan J Res Med Sci. 2012;14(5):12-5.
7. Ayatollahi SAM, Kobarfard F, Asgarpanah J, Ahmed Z. Chemical constituents from Otostegia persica. J Chem Soc Pak. 2007;29(1):61-3.
8. Sharififar F, Mozaffarian V, Moradkhani S. Comparison of antioxidant and free radical scavenging activities of the essential oils from flowers and fruits of Otostegia persica Boiss. Pak J Biol Sci. 2007;10(21):3895-9.
9. Shanmuga Priya K, Gnanamani A, Radhakrishnan N, Babu M. Healing potential of Datura alba on burn wounds in albino rats. J Ethnopharmacol. 2002;83:193-9.
10. Roodbari N, Sotoudeh A, Jahanshahi A, Takhtfooladi MA. Healing effect of Adiantumcapillus veneris on surgical wound in rat. Res Opin Anim Vet Sci. 2012;2(12):591-5.
11. Palmieri TL, Greenhalgh DG. Topical treatment of pediatric patients with burns: a practical guide. Am J Clin Dermatol. 2002;3:52934.
12. Turtay MG, Firat C, Samdanci E, Oguzturk H, Erbatur S, Colak C. Effects of montelukast on burn wound healing in a rat model. Clin Invest Med. 2010;33:41321.
13. Firat C, Samdancı E, Erbatur S, Hamdi Aytekin A, Muharrem AK, Gokhan Turtay M, Kenan Coban Y. β-Glucan treatment prevents progressive burn ischaemia in the zone of stasis and improves burn healing: an experimental study in rats. Burns. 2013;39:10512.
14. Sheweita SA, El-Gabar MA, Bastawy M. Carbon tetrachloride changes activity of cytochrome P450 system in the liver of male rats: role of antioxidants. Toxicology. 2001;169:83-92.
15. Imperato F. Sulphate esters of hydroxycinnamic acid-sugar derivative from Adiantum Capillus-Veneris. Phytochemistry. 1982;11:2717-8.
16. Subash S, Subramanian P. Effect of morin on the levels of circulatory liver markers and redox status in experimental chronic hyperanemic rats. Singap Med J. 2008;49(8):650-5.
17. Chan GC, Chan WK, Sze DM. The effects of β-Glucan on human immune and cancer cells. J Hematol Oncol. 2009;10:225.

Correspondence:

Amin Ganjali

Islamic Azad University

Kahnooj Branch

Kahnooj, Iran

Phone: 00989158378828

Fax: 00983495230203

amin.ganjali@yahoo.com

1

Research performed at Department of Experimental Sciences, Faculty of Experimental Sciences, Islamic Azad University, Kahnooj Branch.

Publication Dates

Publication in this collection
04 June 2013
Date of issue
June 2013

History

Received
14 Feb 2013
Accepted
13 May 2013
Reviewed
16 Apr 2013

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Kufman T, Neuman RA, Weinberg A. Is postburn dermal ischemia enhanced by oxygen free radicals? Burns. 1989;15:291-4.

[2] 2. Couladis M, Tzakou O, Verykokidou E, Harvala C. Screening of some Greek aromatic plants for antioxidant activity. Phytother Res. 2003;17:194-6.

[3] 3. Linn CC, Wu SJ, Chang Ch. Antioxiant activity of Cinammomum cassia. Phytother Res. 2003;17:726-30.

[4] 4. Asgri S, Naderi GA, Bashardoost N, Etminan Z. Antioxidant effect of the essential oil and extract of Matricaria camomilla L on isolated rat hepatocytes. J Med Plants. 2002;1:9-75.

[5] 5. Ayatollahi SAM, Kobarfard F, Asgarpanah J, Choudhari MI. Antiglycation activity of Otostegia persica (Burm) Boiss. Afr J Biotechnol. 2010;9(24):3645-8.

[6] 6. Hedayati M, Pouraboli I. The effect of methanolic extract of Otostegia persica on serum glucose level and renal function indicators in streptozotocin induced diabetic rats. Zahedan J Res Med Sci. 2012;14(5):12-5.

[7] 7. Ayatollahi SAM, Kobarfard F, Asgarpanah J, Ahmed Z. Chemical constituents from Otostegia persica. J Chem Soc Pak. 2007;29(1):61-3.

[8] 8. Sharififar F, Mozaffarian V, Moradkhani S. Comparison of antioxidant and free radical scavenging activities of the essential oils from flowers and fruits of Otostegia persica Boiss. Pak J Biol Sci. 2007;10(21):3895-9.

[9] 9. Shanmuga Priya K, Gnanamani A, Radhakrishnan N, Babu M. Healing potential of Datura alba on burn wounds in albino rats. J Ethnopharmacol. 2002;83:193-9.

[10] 10. Roodbari N, Sotoudeh A, Jahanshahi A, Takhtfooladi MA. Healing effect of Adiantumcapillus veneris on surgical wound in rat. Res Opin Anim Vet Sci. 2012;2(12):591-5.

[11] 11. Palmieri TL, Greenhalgh DG. Topical treatment of pediatric patients with burns: a practical guide. Am J Clin Dermatol. 2002;3:52934.

[12] 12. Turtay MG, Firat C, Samdanci E, Oguzturk H, Erbatur S, Colak C. Effects of montelukast on burn wound healing in a rat model. Clin Invest Med. 2010;33:41321.

[13] 13. Firat C, Samdancı E, Erbatur S, Hamdi Aytekin A, Muharrem AK, Gokhan Turtay M, Kenan Coban Y. β-Glucan treatment prevents progressive burn ischaemia in the zone of stasis and improves burn healing: an experimental study in rats. Burns. 2013;39:10512.

[14] 14. Sheweita SA, El-Gabar MA, Bastawy M. Carbon tetrachloride changes activity of cytochrome P450 system in the liver of male rats: role of antioxidants. Toxicology. 2001;169:83-92.

[15] 15. Imperato F. Sulphate esters of hydroxycinnamic acid-sugar derivative from Adiantum Capillus-Veneris. Phytochemistry. 1982;11:2717-8.

[16] 16. Subash S, Subramanian P. Effect of morin on the levels of circulatory liver markers and redox status in experimental chronic hyperanemic rats. Singap Med J. 2008;49(8):650-5.

[17] 17. Chan GC, Chan WK, Sze DM. The effects of β-Glucan on human immune and cancer cells. J Hematol Oncol. 2009;10:225.

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Otostegia persica extraction on healing process of burn wounds

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