Topical Treatment of Standardised Burns with Herbal Remedies in Model Rats

Experimental studies of burns require the use of different animal models. The aim of this work was to establish experimental model of thermal injuries and to evaluate the effects of topical agents on healing of the burn wounds. Forty female Wistar rats were randomly classified in  groups and isolated for  weeks before the onset of experiment. Animals were primarily anaesthetized with pentobarbital-sodium and then shaved (skin area of their back with diameters  cm x  cm). A round metal stamp with contact area of  cm and total weight of  g was heated up to oC and then applied without additional pressure on the depilated skin of the back for  seconds. This procedure produced a standardized burn wound. Induced burn wounds were immediately drowned in the oCwater for  s in order to maintain microcirculation. After the inducement of thermal injures, all rats were treated with  silver sulfadiazine cream, herbal topical preparations or were not treated at all. Burn wounds were treated twice a day until the healing completion. The result of treatment application was a significant reduction of burn wound diameters. Herbal topical preparations expressed positive therapeutic effects on the parameters of burn wounds. The efficiency of silver sulfadiazine cream in burn wound healing was significantly more expressed in comparison to healing process in control group of animals (p≤,). We conclude that herbal topical preparations efficiently caused the completion of burn wound healing process without scar formation.


Introduction
Pharmacological-toxicological studies present an important contribution in the evaluation of protective effects of the new drugs in treatment of burns.These researches consist of preliminary (in vitro), preclinical (in vivo), and clinical researches (,).Animal models are successfully used in investigation of the different diseases and diverse pathophysiologic processes.The utilization of animal models provides careful control of alterations, because all animals are modified in similar manner.At the same time, it should be kept in mind that such alterations might affect the course of investigated diseases.Beside the limited utilization of laboratory animals, animal models have some advantages in comparison to similar studies in humans.Little mammals have accelerated life cycle.That fact has been successfully used in shortening of the duration and costs of complex researches.The advantage of animal models is possibility to observe a great number of subjects allowing the generation of adequate data and confirmation of the complete importance of statistical analysis.In addition, using animal models make possible the realisation of more precise control of experiment conduction.The best option is to use the most investigated and most available animals.However, the most available animals are not necessarily the most appropriate ones for required animal model ().An increased interest in development and utilization of in vitro and in vivo experimental models appeared in the beginning of nineties of the past century, particularly interest in investigation of the pathophysiologic skin disorders.For the majority of dermatological problems there are no models that completely reflect all symptoms and mechanisms normally present in clinical praxis ().A unique problem in dermatological pharmacology is skin burn.Experimental variables might be better controlled in animal models reflecting, in significant extent, the situation in humans ().Burns induce complex skin damages.

STUDY PLAN AND EXPERIMENTAL ANIMALS
Prospective, cross-sectional, intervention animal study was designed to evaluate the influence of topical herbal preparations in burn wound healing process.Animals were raised and cared according to European Convention for the protection of vertebrate animals used for experimental and other scientific purposes ().Healthy laboratory Rattus rats of Wistar type and albino sort were used in the study (rodents, mam-mals).These were all female animals with body weight of approximately  g.Animals originated from their own brood.During experiment performed during summertime, all animals were situated in appropriate cages, in rooms with natural light regime and humidity level, on controlled temperature ( ±   C).Experimental animals were given food and water ad libitum.

STUDY PROTOCOL AND EXPERIMENTAL MODEL
Forty Wistar rat females were randomly sorted in four groups and put in quarantine for two weeks before the initiation of experiment.Each group consisted of  animals treated according to following schedule:

CHANGES IN BODY WEIGHT
The percentage of body weight changes was analysed throughout t-test in order to determine the significance of differences.Obtained values are presented on Graph , with additional note, that every point is representing the percentage of average change in body weight of all animals from each animal group.

BURN HEALING TIME
The study results of cumulative sizes of burn radiuses indicate the presence of statistically significant difference between treated and control animals.Bimodal grouping might be observed, as well.Animal groups treated with tested preparations are on one side while control group of animals is on the other side.

Discussion
There are many in vitro and in vivo models of wound healing described in literature.The choice of animal model depends on numerous factors including animal availability, costs, handling, as well as their anatomical and functional similarity with human body.Small animals are more frequently used in wound healing studies.Nevertheless, there are a lot of anatomical and physiological differences between frequently utilized small mammalians and humans.Pig skin is the most resembled to human skin from the anatomical and physiological point of view.But, the size of pigs is limiting factor for their larger utilization as animal models ().In our model, a very available animal sort accomplishing all requirements is used (,,).Body weight loss is a crucial characteristic of post-burning period.Hypermetabolic response of burned animals is frequently up to two times increased comparing to the state of normal metabolism.Body weight loss in post-burning period is in a direct proportion with depth and size of burn, physical state of burns, as well as the choice of treatment.In initial post-burning period, body weight loss is a result of metabolism and excretion of separated fluid inside the burns.Comparison between body masses of animals with identical burns is in direct relation with energy differences or metabolic balance ().In our study, a statistically significant difference in the change of body mass between differently treated experimental animals is not established.Two probable curing phases in thermal wound healing processes are noticed in our histologically analysed material.The first one would be the removal of necrotic material, while the second one would be wound cicatrisation, that is, the appearance of newly-formed tissue.Control animals, not treated with protective medical preparations, have prolonged both first and second phase.From the reparation point of view, the most efficient healing is observed in wounds treated with sulphadiazine silver.Our finding is entirely in accordance with results noted by Isler et al., Snelling and Roberts, as well as by Fox et al. (,,).In addition, subsequent healing phases are in accordance with the intensity of initial catabolism, wound purification and resorption of disintegration products.In the same time, these are basic determinants of anabolism extent and reparation status, as well ().It is necessary to emphasise that minor skin injuries provide a greater possibility for inner immune system to accomplish more successful infection inhibition.Denatured eschar products, in II degree burns, primarily make a solid cover representing temporary blockage of the wound.Burn wound healing represent a dynamic relation between necrosis and pus against and macrophage and fibroblast activa-tion.Burn wound healing can be divided to primary, secondary and tertiary healing.The significance of secondary burn wound healing has the most important role in investigation of the new topical preparations ().
The results of our study show that tested preparations reduce the duration of exudative and inflammatory phases of the wound healing in rats with standardised burns.Obtained results are consistent with those found in literature, representing the favourable effects of application of different herbal extracts on the processes of wound healing (,,).The improvement in burn healing is monitored throughout the wound radius measuring method.References

FAHIR
BEČIĆ ET AL.: TOPICAL TREATMENT OF STANDARDISED BURNS WITH HERBAL REMEDIES IN MODEL RATS BURN SURFACE Exponential reduction in sizes of surfaces of burn wounds alongside with time distances from the moment of burn inducement is evident on Graph .MACROSCOPIC MANIFESTATION Macroscopic expression of burn wounds was observed daily while the improvement in healing process was recorded.Burn wounds were defined as completely healed when eshar was entirely separated and wound surface re-epithelized.Day : An improvement in wound healing process is observed (FigureA,D,G).Control burn is dry and shrivelled together with the presence of necrotic tissue.Its size approximately corresponds to size of three day-old treated burn (FigureJ).Also, a difference in inflammatory reaction between treated and control animals is evident.Day : A significant improvement in healing process is evident.Formed incrustation is already dropped down or is in process of dropping down.Additionally, a difference in healing process between burns treated with herbal preparations and those treated with sulphadiazine silver is evident (FigureB,E,H).Healing of the control burns is characterised by irregular contraction of the newly-formed tissue (FigureK).Burn wounds treated with tested preparations are visibly less expressed in comparison to control ones, while being characterised by noticeable epithelization of the margins and uniform contraction of the newly-formed tissue.Day : Treated burn wounds are completely healed with minor and cosmetically acceptable scars.Cheloids, formed in rats treated with herbal preparations, are cosmetically much more acceptable if compared to those observed in rats treated with sulphadiazine silver or in control animals (FigureC,F,I).Rough healing process, accompanied with the formation of uneven and bumpy scars, is evident in control animals (FigureL).
BEČIĆ ET AL.: TOPICAL TREATMENT OF STANDARDISED BURNS WITH HERBAL REMEDIES IN MODEL RATS visible keratinous superficial layer is evident in animals treated with sulphadiazine silver.It is separated from healthy skin by demarcation line formed of inflammatory-cell infiltration with prevailing presence of the leukocytes.Stripes of immature granulation tissue full of cells spread from the burn margins bellow the burn zone.Connective fibres in skin corium are swelled while vessels were mostly hyperaemic.Normal skin with numerous hair follicles and sweat glands are visible near the burn zone (FigureA).Day : Evidently distracted epidermis partially homogenous and with acidophilic properties is evident in animals treated with Jomelop.It is surrounded with massive cell detritus.Occasionally, in the deeper zone of cellular-inflammatory infiltration, numerous erythrocytes are present (FigureD).Some parts of demarcation zone, in the form of a slightly wider area, are characterised by coagulation exudate with accumulation of cellular-inflammatory infiltration and residues of necrotic tissue.In deep wound zone no structure alteration is evident.In maintained epidermis, especially alongside the margins of burn, there is a hypertrophic stratum spinosum.A granulation tissue with numerous blood vessels is below the burn zone.In healthy skin, stratum spinosum cells are multiplied and large while containing circular and huge nuclei.
MORTALITY RATE There were no signs of morbidity in our study of experimental burns.Additionally, no mortality was recorded during the study period.Achieved results are congruent with literature reports (mortality rate ranging from  to  in burns of partial thickness).Day : A wide zone of coagulated necrotic mass with FAHIR Day : A coagulation necrotic mass with abundant cellular detritus is present in animals treated with HD ointment (FigureC).Demarcation zone is formed of numerous inflammatory cells, mostly leukocytes.Connective tissue components are not present below the centre of burn wound.Scab material is directly reclined on granulation tissue with some cellular-inflammatory infiltration and blood vessels.Relatively rich, multiplied granulation tissue is present beside and below the burn zone.Day : In histological tissue slices of burned skin treated with Jomelop, intensive fibroblast activation is evident particularly in the transition zone between burned and healthy skin (FigureE).A crust material, exceeding structurally preserved epidermis, can be observed.dentintissue slices made of control burns (FigureL).
BEČIĆ ET AL.: TOPICAL TREATMENT OF STANDARDISED BURNS WITH HERBAL REMEDIES IN MODEL RATSConclusionA simple, reproductive, low-cost and recommendable animal model for the investigation of thermal wound healing is adopted allowing insignificantly low morbidity and mortality in tested animals.The efficacy if sulphadiazine silver versus tested topical herbal preparations in the treatment of burn wounds is confirmed, as well.Additionally, tested herbal preparations appear to be efficacious in the healing of experimental burns comparing to control burn wounds.() Webb M.L. Research.In: Alfonso R. Gennaro, et al. eds.Remington: The Science and Practice of Pharmacy, th ed.Philadelphia, College of Pharmacy and Science, ; -.() Luellmann H., Mohr K. Pharmakologie und Toxikologie, .komplett ueberarbeitete und neu gestaltete Auflage, Georg Thieme Verlag Stuttgart-New York, ; -.() Rouse M.S., Wilson, W.R. General Methodologies for Animal Models.In: Oto Zak (ed) Handbook of animal models of infection Experimental Models in Antimicrobial Chemotherapy.San Diego, London, Boston, New York, Sydney, Tokyo, Toronto, Academic Press, ; -. FAHIR