Effects of the application of Aloe vera (L.) and microcurrent on the healing of wounds surgically induced in Wistar rats

Mendonça, Fernanda Aparecida Sampaio; Passarini Junior, José Roberto; Esquisatto, Marcelo Augusto Marretto; Mendonça, Josué Sampaio; Franchini, Cristina Cruz; Santos, Glaucia Maria Tech dos

doi:10.1590/S0102-86502009000200013

Abstracts

PURPOSE: To investigate the effects of topical application of an Aloe vera gel combined or not with microcurrent application on the healing of skin wounds surgically induced in Wistar rats. METHODS: The animals were randomly divided into the following groups: control group, animals topically treated with Aloe vera, animals treated with a microcurrent, and animals receiving topical application of Aloe vera combined with microcurrent application. RESULTS: The results indicated differences in wound healing between the various treatments when compared to the control group. Tissue hyperplasia was lower in the control group compared to the other treated groups. Accelerated wound healing was observed in the group treated with Aloe vera compared to control. Animals submitted to microcurrent application only and the group treated with microcurrent plus Aloe vera presented an earlier onset of the proliferative phase compared to the control group and animals treated with Aloe vera gel alone. Morphometric data confirmed the structural findings. CONCLUSION: Simultaneous application of Aloe vera gel and microcurrent is an excellent choice for the treatment of open wounds thus indicating a synergistic action of these two applications.

Wound Healing; Aloe; Electric Stimulation; Histology, Comparative; Rats

OBJETIVO: Investigar os efeitos da aplicação tópica do gel de Aloe vera, combinada ou não com a aplicação de microcorrente no reparo de lesões cutâneas induzidas cirurgicamente em ratos Wistar. MÉTODOS: Os animais foram distribuídos aleatoriamente em: grupo controle, tratado topicamente com gel in natura de Aloe vera, tratado com microcorrente e tratado com aplicação tópica de Aloe vera associada à microcorrente. RESULTADOS: Os resultados do presente trabalho indicaram que o reparo tecidual ocorreu de forma diferenciada nos vários tratamentos empregados quando comparados ao grupo controle. A hiperplasia tecidual no grupo controle foi menor que a observada nos demais grupos tratados. No grupo tratado com aplicação de Aloe vera o processo de reparo foi acelerado em relação ao controle. Os animais do grupo tratado somente com microcorrente e do grupo tratado com microcorrente associada à Aloe vera apresentaram uma fase proliferativa mais precoce quando comparados com o grupo controle e tratado somente com Aloe vera. Os dados morfométricos confirmaram os achados estruturais. CONCLUSÃO: A aplicação simultânea do gel de Aloe vera e microcorrente é uma excelente escolha para o tratamento de feridas abertas indicando uma ação sinérgica dessas duas aplicações.

Cicatrização de Feridas; Aloe; Estimulação Elétrica; Histologia Comparada; Ratos

13 - ORIGINAL ARTICLE

WOUND HEALING

Effects of the application of Aloe vera (L.) and microcurrent on the healing of wounds surgically induced in Wistar rats¹ 1 Research performed at Laboratory of Micromorphology, Herminio Ometto University Center - UNIARARAS, Araras-SP, Brazil.

Efeitos da aplicação de Aloe vera (L.) e microcorrente no reparo de lesões cirúrgicas induzidas em ratos Wistar

Fernanda Aparecida Sampaio Mendonça^I; José Roberto Passarini Junior^II; Marcelo Augusto Marretto Esquisatto^III; Josué Sampaio Mendonça^IV; Cristina Cruz Franchini^V; Glaucia Maria Tech dos Santos^VI

^IPhD, Head, Physiology Division, Herminio Ometto University Center, UNIARARAS, Araras-SP, Brazil

^IIGraduate Student, School of Biology, Herminio Ometto University Center, UNIARARAS, Araras-SP, Brazil

^IIIPhD, Head, Anatomy Division, Herminio Ometto University Center, UNIARARAS, Araras-SP, Brazil

^IVBucomaxilofacial Surgeon, Sao Lucas Hospital, Sao Paulo-SP, Brazil

^VMaster, Assistant Professor, Pharmacology Division, Herminio Ometto University Center, UNIARARAS, Araras-SP, Brazil

^VIPhD, Associate Professor, Physiology Division, Herminio Ometto University Center, UNIARARAS, Araras-SP, Brazil

^{Correspondence} Correspondence: Dr. Fernanda Aparecida Sampaio Mendonça. Physiology Division, Hermínio Ometto University Center - UNIARARAS Av. Dr. Maximiliano Baruto, 500 13607-339 Araras - SP Brazil Phone/Fax: 055 019 3543-1517 fernandamendonca@uniararas.br

ABSTRACT

PURPOSE: To investigate the effects of topical application of an Aloe vera gel combined or not with microcurrent application on the healing of skin wounds surgically induced in Wistar rats.

METHODS: The animals were randomly divided into the following groups: control group, animals topically treated with Aloe vera, animals treated with a microcurrent, and animals receiving topical application of Aloe vera combined with microcurrent application.

RESULTS: The results indicated differences in wound healing between the various treatments when compared to the control group. Tissue hyperplasia was lower in the control group compared to the other treated groups. Accelerated wound healing was observed in the group treated with Aloe vera compared to control. Animals submitted to microcurrent application only and the group treated with microcurrent plus Aloe vera presented an earlier onset of the proliferative phase compared to the control group and animals treated with Aloe vera gel alone. Morphometric data confirmed the structural findings.

CONCLUSION: Simultaneous application of Aloe vera gel and microcurrent is an excellent choice for the treatment of open wounds thus indicating a synergistic action of these two applications

Key words: Wound Healing. Aloe. Electric Stimulation. Histology, Comparative. Rats.

RESUMO

OBJETIVO: Investigar os efeitos da aplicação tópica do gel de Aloe vera, combinada ou não com a aplicação de microcorrente no reparo de lesões cutâneas induzidas cirurgicamente em ratos Wistar.

MÉTODOS: Os animais foram distribuídos aleatoriamente em: grupo controle, tratado topicamente com gel in natura de Aloe vera, tratado com microcorrente e tratado com aplicação tópica de Aloe vera associada à microcorrente.

RESULTADOS: Os resultados do presente trabalho indicaram que o reparo tecidual ocorreu de forma diferenciada nos vários tratamentos empregados quando comparados ao grupo controle. A hiperplasia tecidual no grupo controle foi menor que a observada nos demais grupos tratados. No grupo tratado com aplicação de Aloe vera o processo de reparo foi acelerado em relação ao controle. Os animais do grupo tratado somente com microcorrente e do grupo tratado com microcorrente associada à Aloe vera apresentaram uma fase proliferativa mais precoce quando comparados com o grupo controle e tratado somente com Aloe vera. Os dados morfométricos confirmaram os achados estruturais.

CONCLUSÃO: A aplicação simultânea do gel de Aloe vera e microcorrente é uma excelente escolha para o tratamento de feridas abertas indicando uma ação sinérgica dessas duas aplicações.

Descritores: Cicatrização de Feridas. Aloe. Estimulação Elétrica. Histologia Comparada. Ratos.

Introduction

The mechanism of tissue healing is a complex biological process that involves a perfect and coordinated cascade of cellular and molecular events promoting tissue reconstitution. This process arises as a response of the tissue to injuries induced by trauma or by surgical procedures. The process of wound healing is characterized by three phases that overlap and present a characteristic profile: inflammatory phase, proliferative phase and remodeling phase. Despite some recent advances in the understanding of these basic processes, wound healing disorders continue to cause diseases and even death. A wide variety of therapies has arisen with the advances in technological applications. Electrical stimulation has been shown to modify the healing process in living organisms, especially in terms of factors that delay or impair this process^1,2.

Several studies have investigated cellular responses to electrical currents of different amplitudes and frequencies^2,3. In this respect, Cheng and Goldman² and Kloth⁴ observed that cells exposed to electrical fields vary in cell proliferation and metabolism. In in vitro studies, Goldman and Pollack⁵ found that the application of electrical currents stimulated fibroblast proliferation and collagen synthesis. An increase of collagen biosynthesis, number of fibroblasts and hydroxyproline levels was also observed in animal experiments⁶. The technique of microamperage electrical stimulation is also called biostimulation or electrical therapy due to its capacity to physiologically stimulate cell growth.

The application of phytotherapeutic agents has also shown to be highly effective in the healing of wounds and burns⁷. Aloe vera (L.) (Liliaceae), popularly called aloe, is widely known for its therapeutic effects and has been used as a medicine since ancient times. "Aloe vera" was first called Aloe perfoliata var. vera by Linnaeus and was later recognized as a distinct species by Miller who called it Aloe barbadensis, and also by Burman who called it Aloe vera⁸. The plant originated in Africa and is well adapted to all regions. Two fractions can be extracted from its leaves: a bitter exudate and a mucilaginous gel. The first fraction is a yellow-red fluid extracted from cells of the pericycle which is rich in anthracene compounds. The second transparent gel-like portion (mucilage) originates from the leaf parenchyma and has been used for the treatment of burns and wounds because of its healing properties⁹. This mucilage consists of biologically active molecules that act on fibroblasts during the formation of cicatricial tissue, stimulating the deposition of collagen fibers in the extracellular matrix¹⁰. Reynolds and Dweck¹¹ investigated the biological activities of various Aloe species and observed that the whole gel extract of Aloe vera presents various pharmacological properties such as promoting wound, burn, and frost-bite healing, in addition to having anti-inflammatory, antifungal, hypoglycemic and gastroprotective properties.

In the present study, we investigated the effects of topical application of an Aloe vera gel combined or not with microcurrent application on the healing of skin wounds surgically induced in Wistar rats.

Methods

Experimental groups

Male rats from Wistar strain aged 120 days and with a mean weight of 250 to 350 g, obtained from the animal house of Hermínio Ometto University Center, Uniararas, were used. The animals were kept in individual cages, with commercial chow and water available ad libitum. In reason of similar genetic background of animals¹² and following orientation of Uniararas Ethics Commission (Protocol number 178/2006) were used four experimental groups with six animals each: control group, animals topically treated with Aloe vera gel (AV), animals treated with a microcurrent (10 µA/2 min) (MC), and animals receiving topical application of Aloe vera combined with a microcurrent (10 µA/2 min) (AV+MC). A Physiotonus Microcurrent apparatus was used for transcutaneous electrical stimulation.

Wound creation

The animals were submitted to trichotomy in the dorsal region and were anesthetized with 40 mg/kg body weight sodium pentobarbital. Next, a full-thickness skin surgical incision measuring 20 mm in length and 2 mm in depth was made in the skin of the back of the animal in the caudocranial direction. The incision was not sutured. The proposed treatments were started 24 h after the surgical intervention and were applied daily for 10 days. The animals were sacrificed on days 2, 6 and 10 for removal of the damaged area and structural and morphometric analysis. All surgical procedures and experimental design were performed by the same investigator in accordance with institutional ethical guidelines and following Rao and co-works¹³ orientation.

Preparation and administration of Aloe vera (L) N.L.Burm. (Liliaceae)

The leaves of Aloe vera plants were collected daily in the morning in the Experimental garden of Hermínio Ometto University Center - Uniararas, Araras (SP), Brazil, and sent to the Laboratory of Physiology, Hermínio Ometto University Center, for use. For administration, an incision was made in the leaf and the mucilage was removed with a sterile swab and immediately applied to the skin wounds.

Collection and preparation of wound samples for structural analysis

Animals of the control and experimental groups were sacrificed with a sodium pentobarbital overdose on days 2, 6 and 10 for removal of the healing area for comparative structural and morphometric analysis. The complete wound region and the underlying muscle with 2 mm adjacent unwound skin were collected by excising a rectangular area measuring approximately 120-160 mm². Each sample was fixed in buffered formalin for 24h at room temperature. Next, the specimens were washed in buffer and processed for embedding in Paraplast^TM. Longitudinal sections (7 µm thick), obtained from the mid-region toward the margin, were stained with hematoxylin/eosin, picrosirius-hematoxylin and Toluidine blue, pH 4.0. The specimens were observed and documented under a Leica DM 2000 photomicroscope at the Laboratory of Micromorphology, Centro Universitario Herminio Ometto, UNIARARAS.

Histomorphometric analysis

The histomorphometry of skin wounds healing in control and experimental groups was analyzed by Sigma Scan Pro 6.0^TM and Leica Image Measure^TM softwares using digital images captured from slides stained by Toluidine blue. Images were captured, using digitalization system (total magnification 200X) from Leica DM 2000 photomicroscope. Three randomly chosen optical microscopic fields for each histological slide pair were stored and submitted to a count of total cells (fibroblastic and inflammatory cells) (x 10³ µm²), of newly formed blood vessels and measurement of wound healing area (x 10³ µm²) and thickness of the regenerating epithelium (µm).

2.6. Statistical analysis

Data obtained for the different experimental groups were stored in electronic spreadsheets and compared by the ANOVA and Tukey test (5% level of significance) using the Biostat for Windows XP^TM program.

Results

In the present study we describe the repair of the epidermis and dermis, included morphometrical parameters, in wound healing between the various treatments when compared to control group.

Wound healing was completed in all animals within the 10-day observation period. Structural analysis was performed on days 2, 6 and 10. Tissue repair was observed 2 days after surgery (inflammatory phase) and was in the overt proliferative phase at 10 days in all experimental groups (Figures 1 and 2). Epithelization did not differ between the control and experimental groups. Discrete repair was observed two days after surgery in all groups. After 6 days, epithelial organization was similar to that observed at 10 days, but the wounds were not completely closed as observed for the last experimental period. With respect to the dermis, an accelerated wound healing was observed in the AV group (Figures 2A, B) compared to the control group (Figures 1A, B). The tissue of repair was lower in the control group than in the other treated groups. Animals of the MC group (Figures 1C, D) and AV+MC group (Figures 2C, D) presented an earlier onset of the proliferative phase than control animals and animals of the AV group. On the other hand, the area of newly formed tissue seemed to be lower in the MC group than in the AV+MC group.

The Figures 3, 4, 5 and 6 shows the morphometric data obtained for the different groups at 2, 6 and 10 days after experimental wound induction. On the second day after wound induction, a significant difference was only observed regarding the area of newly formed tissue, which was greater in the MC and AV+MC groups, with no significant difference between these two groups. The combined application of Aloe vera and microcurrent was found to be more effective in this process when compared to the control group and to the groups submitted to the application of either treatment alone. No blood vessel formation was observed during this period. After 6 days, the healing area was significantly greater in the MC and AV+MC groups, with no significant difference between these two groups. The same pattern was observed for the total number of cells and number of newly formed vessels. No significant difference in epithelial thickness was observed between groups. On day 10, the wound healing area was similar in the AV, MC and AV+MC groups and significantly greater than in the control group. On the other hand, the number of fibroblasts and the number of newly formed vessels were larger in the MC and AV+MC groups.

Discussion

In the present study, both microcurrent therapy and topical application of Aloe vera were effective in accelerating the tissue regeneration process. These findings agree with those reported in different studies demonstrating that low-intensity electrical currents stimulate wound healing^14,15. Numerous investigators have studied the effects of electrical stimulation using different amplitudes and frequencies and have observed modifications in the cellular and tissue responses in induced lesions^4,16. Some studies reported variations in cell metabolism, whereas others demonstrated fibroblast proliferation, neovascularization and collagen deposition in the wound area¹⁷. Significant acceleration of the healing process after microcurrent electrical stimulation has been widely documented^4,5,18,19. Becker¹⁴ reported that electrical currents are present in a biological system and may promote repair and growth after injury. According to this author, a specific stimulus of injury induces another stimulus of repair and also demonstrated that the membrane electrical potential is altered in injured tissues. The "injury signal" gradually decreases in parallel to the repair process and ceases when the latter is complete. The voltage peaks immediately after injury and gradually decreases as the wound heals, a fact leading to the concept that current flow may be defective in chronic wounds and that applying electrical currents to wounds may stimulate healing^4,20. Biedeback²¹ proposed that transmembrane currents open voltage-controlled calcium channels in fibroblasts, causing ATP resynthesis, activation of protein kinase mechanisms to synthesize new cellular protein, and DNA replication necessary for mitotic cell division.

In the present study, microcurrent application was found to be highly effective in terms of the parameters analyzed, with positive effects on the newly formed tissue area, number of fibroblasts, number of newly formed vessels and epithelial thickness, in agreement with the literature^4,21,22.

Similar, but less pronounced, effects were observed when Aloe vera extract was applied. Mello et al.²³ suggested that the healing capacity of Stryphnodendron adstringens might be attributed to the high tannin content in its stem bark. Tannins precipitate proteins in damaged tissues, forming a protective lining that favors healing by reducing wound permeability and exudation²⁴. Sarabia et al.²⁵ demonstrated the presence of antioxidant substances in Aloe vera that confer anti-inflammatory and healing properties. Kuzuya et al.²⁶ also reported an antibacterial action of Aloe vera and attributed these properties to the presence of anthraquinones such as aloenin, barbaloin and iso-barbaloin in its chemical composition. Chitra et al.¹⁰ also suggested that treatment with Aloe vera has a beneficial effect on the tissue proliferation phase, influencing fibroplasia and collagen synthesis and thus increasing the healing area. Mannose-6-phosphate is a major structural constituent of Aloe vera. Davis et al.²⁷ speculated that the binding of mannose-6-phosphate to fibroblast receptors activates fibroblast proliferation.

As observed in the present study, wound healing was more effective since the beginning of treatment in animals submitted to the simultaneous application of microcurrent and Aloe vera, thus indicating a synergistic action of these two applications. This treatment presented advantages in all parameters studied when compared to the control group and to the other treatments. These findings agree with Soares²⁸ who combined a chemical substance, i.e., vitamin C, and physical agents for the healing of experimental wounds similar to those used in the present study, and demonstrated that the combination of antioxidant agents and photodynamic or low-amperage electrical therapy accelerates wound healing.

Conclusion

Despite the lack of scientific studies regarding the combination of phytochemical and physical agents for the treatment of surgical wounds, the present investigation shows that the simultaneous application of Aloe vera and microcurrent was effective for the treatment of open wounds potentiating wound healing.

Received: October 15, 2008

Review: December 18, 2008

Accepted: January 14, 2009

Conflict of interest: none

Financial source: PROPESQ/UNIARARAS

How to cite this article

Mendonça FAS, Passarini Junior JR, Esquisatto MAM, Mendonça JS, Franchini CC, Santos GMT. Effects of the application of Aloe vera (L.) and microcurrent on the healing of wounds surgically induced in Wistar rats. Acta Cir Bras. [serial on the Internet] 2009 Mar-Apr;24(2). Available from URL: http://www.scielo.br/acb

*Color figures available from www.scielo.br/acb

1. Houghton PE, Kincaid CB, Lovell M, Campbell KE, Keast DH, Woodbury MG, Harris KA. Effect of electrical stimulation on chronic leg ulcer size and appearance. Phys Ther. 2003;83(1):17-28.
2. Cheng K, Goldman RJ. Electric fields and proliferation in a dermal wound model: cell cycle kinetics. Bioelectromagnetics. 1998;19(2):68-74.
3. Mertz PM, Davis SC, Cazzaniga AL, Cheng K, Reich JD, Eaglstein WH. Electrical stimulation: acceleration of soft tissue repair by varying the polarity. Wounds. 1993;5(3):153-9.
4. Kloth LC. Electrical stimulation for wound healing: a review of evidence from in vitro studies, animal experiment, and clinical trials. Int J Low Extrem Wounds. 2005;4(1):23-44.
5. Goldman R, Pollack S. Electrical fields and proliferation in a chronic wound model. Bioelectromagnetics. 1996;17(6):450-7.
6. Alvarez OM, Menz PM, Smerbeck RV, Eaglstein WH. The healing of superficial skin wounds is stimulated by external electrical current. J Invest Dermatol. 1983;81(2):144-8.
7. Rao SG, Udupa AL, Udupa SL, Rao PGM, Rao G, Kulkarni DR. Calendula and Hypericum: two homeopathic drugs promoting wound healing in rats. Fitoterapia. 1991;62(6):508-10.
8. Reynolds GW. The aloes of South Africa XXIV The aloes of S.A. Book fund, 520;1966.
9. Dorneles D, Wouk AF, Pontarolo R, Oliveira AB. Efeito de Aloe vera Linné sobre a cicatrização de feridas de pele em coelhos. Visão Acad. 2003;4(1):39-46.
10. Chithra P, Sajithlal BG. Chandrakasan G. Influence of Aloe vera on the healing of dermal wounds in diabetic rats. J Ethnopharmacol. 1998;59(3):195-201.
11. Reynolds T, Dweck AC. Aloe vera leaf gel: a review update. J Ethnoparmacol. 1999;68(1):3-37.
12. Gill TJ, Smith GJ, Wissler RW. The rat as an experimental animal. Science. 1989;245(4915):269-76.
13. Rao KS, Patil PA, Malur PR. Promotion of cutaneous wound healing by famotidine in Wistar rats. Indian J Med Res. 2007;125(2): 149-54.
14. Becker R. The body electric. N.Y., William Morrow and Co Inc; 1985.
15. Basset CA. Beneficial-effects of electromagnetic-fields. J Cell Biochem. 1993;51(4):387-93.
16. Bayat M, Asgari-Moghadam Z, Maroufi M, Rezaie FS, Bayat M, Rakhshan M. Experimental wound healing using microamperage electrical stimulation in rabbits. J Rehabil Res Dev. 2006;43(2): 219-28.
17. Aaron RK, Ciombor DM. Therapeutic effects of electromagnetic fields in the stimulation of connective tissue repair. J Cell Biochem. 1993;52(1):42-6.
18. Davis SC, Ovington LG. Electrical stimulation and ultrasound in wound healing. Dermatol Clin. 1993;11(4):775-81.
19. Evans RD, Foltz D, Foltz K. Electrical stimulation with bone and wound healing. Clin Pediatr Med Surg. 2001;18(1):79-95.
20. McGinnis ME, Vanable JW. Voltage gradients in newt limb stumps. Prog Clin Biol Res. 1986;210:231-8.
21. Biedeback MC. Accelerated healing of skin ulcers by electrical stimulation and intracellular physiological mechanisms involved. Acupunct Electrother Res. 1989;14(1):43-60.
22. Markov MS, Colbert AP. Magnetic and electromagnetic field therapy. J Back Musculoskelet Rehabil. 2001;15:17-29.
23. Mello JCP, Peterit F, Nahrstedt A. A dimeric proanthocyanidin from Stryphnodendron adstringens Phytochemistry. 1999;51(8):1105-7.
24. Bedi MK, Shenefelt PD. Herbal therapy in dermatology. Arch Dermatol. 2002;138(2):232-42.
25. Sarabia JEL, Clares VPR, Clares RAR, Hernandez VP. Actividad antiinflamatoria y cicatrizante del ungüento rectal de Aloe vera L (sábila). Rev Cubana Plantas Med. 1999;4(3):106-9.
26. Kuzuya K, Tamai I, Beppu H, Shimpo K, Chihara T. Determination of aloenin, barbaloin and isobarbaloin in Aloe species by micellar electrokinetic chromatography. J Chromatogr. 2001;752(1):91-7.
27. Davis RH, Di Donato JJ, Hartman GM, Haas RC. Anti-inflammatory and wound healing activity of a growth substance in Aloe vera J Am Pediatr Med Assoc.1994;84(2):77-81.
28. Soares FRL. Reparação de feridas cutâneas tratadas com vitamina C, laser e a associação de vitamina C e laser: estudo histológico em ratos [Tese de Mestrado]. Marília: Universidade de Marília (Unimar), Faculdade de Odontologia; 2005. 80p.

Correspondence:

Dr. Fernanda Aparecida Sampaio Mendonça.

Physiology Division, Hermínio Ometto University Center - UNIARARAS

Av. Dr. Maximiliano Baruto, 500

13607-339 Araras - SP Brazil

Phone/Fax: 055 019 3543-1517

fernandamendonca@uniararas.br

1

Research performed at Laboratory of Micromorphology, Herminio Ometto University Center - UNIARARAS, Araras-SP, Brazil.

Publication Dates

Publication in this collection
22 Apr 2009
Date of issue
Apr 2009

History

Reviewed
18 Dec 2008
Received
15 Oct 2008
Accepted
14 Jan 2009

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

[1] 1. Houghton PE, Kincaid CB, Lovell M, Campbell KE, Keast DH, Woodbury MG, Harris KA. Effect of electrical stimulation on chronic leg ulcer size and appearance. Phys Ther. 2003;83(1):17-28.

[2] 2. Cheng K, Goldman RJ. Electric fields and proliferation in a dermal wound model: cell cycle kinetics. Bioelectromagnetics. 1998;19(2):68-74.

[3] 3. Mertz PM, Davis SC, Cazzaniga AL, Cheng K, Reich JD, Eaglstein WH. Electrical stimulation: acceleration of soft tissue repair by varying the polarity. Wounds. 1993;5(3):153-9.

[4] 4. Kloth LC. Electrical stimulation for wound healing: a review of evidence from in vitro studies, animal experiment, and clinical trials. Int J Low Extrem Wounds. 2005;4(1):23-44.

[5] 5. Goldman R, Pollack S. Electrical fields and proliferation in a chronic wound model. Bioelectromagnetics. 1996;17(6):450-7.

[6] 6. Alvarez OM, Menz PM, Smerbeck RV, Eaglstein WH. The healing of superficial skin wounds is stimulated by external electrical current. J Invest Dermatol. 1983;81(2):144-8.

[7] 7. Rao SG, Udupa AL, Udupa SL, Rao PGM, Rao G, Kulkarni DR. Calendula and Hypericum: two homeopathic drugs promoting wound healing in rats. Fitoterapia. 1991;62(6):508-10.

[8] 8. Reynolds GW. The aloes of South Africa XXIV The aloes of S.A. Book fund, 520;1966.

[9] 9. Dorneles D, Wouk AF, Pontarolo R, Oliveira AB. Efeito de Aloe vera Linné sobre a cicatrização de feridas de pele em coelhos. Visão Acad. 2003;4(1):39-46.

[10] 10. Chithra P, Sajithlal BG. Chandrakasan G. Influence of Aloe vera on the healing of dermal wounds in diabetic rats. J Ethnopharmacol. 1998;59(3):195-201.

[11] 11. Reynolds T, Dweck AC. Aloe vera leaf gel: a review update. J Ethnoparmacol. 1999;68(1):3-37.

[12] 12. Gill TJ, Smith GJ, Wissler RW. The rat as an experimental animal. Science. 1989;245(4915):269-76.

[13] 13. Rao KS, Patil PA, Malur PR. Promotion of cutaneous wound healing by famotidine in Wistar rats. Indian J Med Res. 2007;125(2): 149-54.

[14] 14. Becker R. The body electric. N.Y., William Morrow and Co Inc; 1985.

[15] 15. Basset CA. Beneficial-effects of electromagnetic-fields. J Cell Biochem. 1993;51(4):387-93.

[16] 16. Bayat M, Asgari-Moghadam Z, Maroufi M, Rezaie FS, Bayat M, Rakhshan M. Experimental wound healing using microamperage electrical stimulation in rabbits. J Rehabil Res Dev. 2006;43(2): 219-28.

[17] 17. Aaron RK, Ciombor DM. Therapeutic effects of electromagnetic fields in the stimulation of connective tissue repair. J Cell Biochem. 1993;52(1):42-6.

[18] 18. Davis SC, Ovington LG. Electrical stimulation and ultrasound in wound healing. Dermatol Clin. 1993;11(4):775-81.

[19] 19. Evans RD, Foltz D, Foltz K. Electrical stimulation with bone and wound healing. Clin Pediatr Med Surg. 2001;18(1):79-95.

[20] 20. McGinnis ME, Vanable JW. Voltage gradients in newt limb stumps. Prog Clin Biol Res. 1986;210:231-8.

[21] 21. Biedeback MC. Accelerated healing of skin ulcers by electrical stimulation and intracellular physiological mechanisms involved. Acupunct Electrother Res. 1989;14(1):43-60.

[22] 22. Markov MS, Colbert AP. Magnetic and electromagnetic field therapy. J Back Musculoskelet Rehabil. 2001;15:17-29.

[23] 23. Mello JCP, Peterit F, Nahrstedt A. A dimeric proanthocyanidin from Stryphnodendron adstringens Phytochemistry. 1999;51(8):1105-7.

[24] 24. Bedi MK, Shenefelt PD. Herbal therapy in dermatology. Arch Dermatol. 2002;138(2):232-42.

[25] 25. Sarabia JEL, Clares VPR, Clares RAR, Hernandez VP. Actividad antiinflamatoria y cicatrizante del ungüento rectal de Aloe vera L (sábila). Rev Cubana Plantas Med. 1999;4(3):106-9.

[26] 26. Kuzuya K, Tamai I, Beppu H, Shimpo K, Chihara T. Determination of aloenin, barbaloin and isobarbaloin in Aloe species by micellar electrokinetic chromatography. J Chromatogr. 2001;752(1):91-7.

[27] 27. Davis RH, Di Donato JJ, Hartman GM, Haas RC. Anti-inflammatory and wound healing activity of a growth substance in Aloe vera J Am Pediatr Med Assoc.1994;84(2):77-81.

[28] 28. Soares FRL. Reparação de feridas cutâneas tratadas com vitamina C, laser e a associação de vitamina C e laser: estudo histológico em ratos [Tese de Mestrado]. Marília: Universidade de Marília (Unimar), Faculdade de Odontologia; 2005. 80p.

Brasil

Brasil

Effects of the application of Aloe vera (L.) and microcurrent on the healing of wounds surgically induced in Wistar rats

Efeitos da aplicação de Aloe vera (L.) e microcorrente no reparo de lesões cirúrgicas induzidas em ratos Wistar

Abstracts

Publication Dates

History