J Arthropod-Borne Dis, September 2018, 12(3): 269–275 SE Eskandari et al.: Safety Evaluation of … 269 http://jad.tums.ac.ir Published Online: September 30, 2018 Original Article Safety Evaluation of Nano-Liposomal Formulation of Amphotericin B (Sina Ampholeish) in Animal Model as a Candidate for Treatment of Cutaneous Leishmaniasis Seyed Ebrahim Eskandari 1, Alireza Firooz 1, Mansour Nassiri-Kashani 1, Mahmoud Reza Jaafari 2, 3, Amir Javadi 1, 4, Akram Miramin-Mohammadi 1, Hossein Valian-Keshavarz 5, 6, *Ali Khamesipour 1 1Center for Research and Training in Skin Diseases and Leprosy (CRTSDL), Tehran University of Medical Sciences, Tehran, Iran 2Nanotechnology Research Center, Pharmaceutical Technology Institute, Mashhad University of Medical Sciences, Mashhad, Iran 3Department of Pharmaceutical Nanotechnology, School of Pharmacy, Mashhad University of Medical Sciences, Mashhad, Iran 4School of Allied Sciences, Tehran University of Medical Sciences, Tehran, Iran 5Department of Medical Parasitology and Mycology, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran 6Center for Research of Endemic Parasites of Iran, Tehran University of Medical Sciences, Tehran, Iran (Received 22 Aug 2017; accepted 10 Feb 2018) Abstract Background: Development of a topical treatment for cutaneous leishmaniasis (CL) is an important step in the im- provement of lesion management. Amphotericin B (AmB) is effective against Leishmania species but it is toxic, a Nano-liposomal form of AmB with a size of about 100nm (Lip-AmB) was developed and showed to be effective against Leishmania major, and Leishmania tropica in vitro and against L. major in vivo in animal model. This study was designed to check the irritancy Draize test in rabbits and was completed in the Center for Research and Training in Skin Diseases and Leprosy, TUMS, in 2012. Methods: Twenty rabbits in 3 steps were housed individually with artificial lighting (12/12h light/dark). SinaAm- pholeish cream or empty liposomes (prepared under GMP condition at Minoo Company, Tehran, Iran), was applied on a gauze patch and the patches were placed on the designated sites of the skin in the back of the rabbits. At 48 and 72h later, the erythema and oedema were checked, scored and recorded. Results: The erythema score in rabbits was 0.83+0.41 for the SinaAmpholeish and 0.5+0.55 for empty liposomes (P= 0.16). The average score for oedema was 0.67+0.52 for SinaAmpholeish and 0.33+0.52 for empty liposomes (P= 0.16). Conclusion: Based on skin irritancy reactions the topical formulation of SinaAmpholeish is safe and could be further checked in human trials. Keywords: Cutaneous leishmaniasis, Nano-liposomes, Amphotericin B, Draize test Introduction Cutaneous leishmaniasis (CL) is endemic in 88 countries (72 of them are developing coun- tries and 16 developed ones) and 90% of CL cases are reported from 6 countries including Brazil, Peru, Afghanistan, Saudi Arabia, Syria and Iran (1-3). Pentavalent antimonial deriv- atives (sodium stibogluconate=Pentostam and meglumine antimoniate=Glucantime) are still considered as the standard first-line treatment for CL. Currently available treatments are far from acceptable criteria either by the patients or by the health authorities due to pain at the site of injections, high risk of side effects, high cost and low efficacy, moreover resistant is *Corresponding author: Ali Khamesipour, E-mail: ali.khamesipour@gmail.com, khamesipour@tums.ac.ir, khamesipour_ali@yahoo.com http://jad.tums.ac.ir/ J Arthropod-Borne Dis, September 2018, 12(3): 269–275 SE Eskandari et al.: Safety Evaluation of … 270 http://jad.tums.ac.ir Published Online: September 30, 2018 reported from endemic areas. The development of new treatment is highly demanded, inven- tion of a topical treatment for CL is very es- sential to increase the compliance rate and con- trol of anthroponotic CL (4-7). Amphotericin B (AmB) is a polyene an- tibiotic produced from Streptomyces nodosus. Several formulations of AmB have been mar- keted and used to treat fungal infections and visceral leishmaniasis, but the main drawback is toxicity. AmBisome™ is a liposomal form of AmB which is the first line treatment for visceral leishmaniasis in some endemic areas but is not as effective against CL (8-11). A nano-liposomal form of amphotericin B (Lip- AmB) with a size of about 100nm was for- mulated and the method of preparation is un- der US Patent. The formulation is effective against Leishmania major and Leishmania tropica in vitro and against L. major in vivo in a murine model of leishmaniasis (9). Large- scale production of 0.4% Lip-AmB was done under Good Manufacturing Practice guide- lines under the trade name of SinaAmpholeish at Minoo Company of (Tehran, Iran). Draize test was initially introduced to test various medical, cosmetic, and chemical sub- stances, but was also later used to check the safety of several other products such as cream, lipstick, mascara, face lotion, soap, shampoo, powder, hairspray, toothpaste, lacquer, deter- gent and anything, which could possibly in- duce skin irritation (10). It has been modi- fied and updated several times and the most commonly used method is the one introduced by Federal Hazardous Substance Act, Title 16, Chapter II, reference Consumer Product Safety Commission 1980 as a standard test to check skin irritancy reactions. The rabbit is the most commonly used animal for skin irritation test and usually, 6 rabbits are used (11-14). The in vivo rabbit eye irritation/corrosion test developed from Draize skin test since 1981. It is used for two types of substances that either might be exposed to the eye due to regular use in or around the eyes (such as eye creams) or through accidental exposure of the eyes to the products that are not original- ly designed to be in contact with eyes (such as shampoos or skin creams). The evaluation of eye irritation potential for cosmetic substanc- es is necessary to assure that the products are safe for consumers if eyes are exposed to intentionally or accidentally. Usually, 0.1 ml (or weight equivalent approximately 100mg) of the test substance is placed into one eye and the other eye is not treated and kept as control. The treated eye and the control eye are checked regularly after application of the product, usually 1, 24, 48 and 72h after ex- posure or more frequently if required. Eye irritation is defined as induction of patho- logical changes in the eye fully recovered within 21d or tissue damages in the eye which might not fully recover even within 21d (14, 15). The objective of this study was to evaluate the safety and irritancy potential of SinaAm- pholeish in rabbit model (Draize test) as well as an eye irritation test, as a step prior to clinical trials in humans. Materials and Methods The study was conducted in 2012 in the Center for Research and Training in Skin Diseases and Leprosy, TUMS, Tehran, Iran. The proposal of this study was approved by the Ethical Committee of Center for Research and Training in Skin Diseases and Leprosy, Tehran University of Medical Sciences, Teh- ran, Iran Five-month-old male and female rabbits were purchased from Razi Vaccine and Serum Research Institute, Hesarak, Iran and kept in the animal house of CRTSDL. Rabbits were housed individually with artificial lighting (12h light, 12h dark) and free access to con- ventional laboratory diets and an unrestricted supply of drinking water with a collar fitted http://jad.tums.ac.ir/ J Arthropod-Borne Dis, September 2018, 12(3): 269–275 SE Eskandari et al.: Safety Evaluation of … 271 http://jad.tums.ac.ir Published Online: September 30, 2018 and fastened around the rabbit’s neck. The irritation test was performed in 3 steps: Step 1) Healthy white rabbits with no hair loss were purchased and hairs on the back of the animals were shaved. After 24h, 6 rabbits with no sign of abrasion, erythema or oede- ma due to shaving were selected, 500mg of either 0.4% SinaAmpholeish gel or empty lip- osomes (prepared under GMP condition at Minoo Company, Tehran, Iran), was applied on a gauze patch and the patches were placed on the designated sites of the skin in the back of the rabbits, secured and moistened using 0.5 ml of phosphate buffer saline (PBS). The pos- itive control site was covered with a patch con- taining 0.5ml of 1% of sodium lauryl sulfate (SLS). The negative control site was covered with a patch containing 0.5ml of PBS. Then the entire back of the rabbits was covered for 24h. After 24h of wrapping, the patches were removed. At one hour after removal of the patches and at 48 and 72h later, the erythema and oedema were checked, scored and rec- orded (Table 1). Step 2) Healthy New Zealand Albino rabbits were screened and rabbits with no hair loss were selected. The hairs on the back of the rabbits were clipped. After 24h, 6 rabbits with no signs of abra- sion, erythema or oedema due to shaving were selected and the following materials were ap- plied on their back: SinaAmpholeish gel, empty liposome (as placebo), SLS 1% as a positive control and PBS as negative control similar to step 1. Step 3) In a pilot study, first white but not New Zealand Albino rabbits were screened and 2 healthy rabbits with no ocular lesion was se- lected, after gently pulling the lower lid away from the right eyeball, 100mg of SinaAm- pholeish gel was placed in the conjunctival sac, then lids were then gently held together for about one second in order to prevent loss of the material. The left eye was untreated as a control. The eyes of the rabbits were regular- ly checked for 24h and in 2 of them daily for one week. As there was no sign of pain (such as repeated pawing or rubbing of the eye, ex- cessive blinking, excessive tearing), no anaes- thesia was required for the other rabbits. Than 6 New Zealand Albino rabbits with no sign of ocular lesions were selected and treated similarly to the pilot study in white rabbits. In 2 rabbits the right eyes were covered for one hour. The eyes of the rabbits were regularly checked for the first 24h and pho- tos were taken at 24, 48 and 72h. Statistical analysis The Wilcoxon signed-rank test was used for comparing reaction between the two arms of study, P-value of less than 0.05 was considered significant. Results Step one results of the irritancy potential test of the substances were checked in 6 white rabbits (but not New Zealand Albino), the re- sults showed no reaction in any of the rab- bits, no erythema, and no oedema. In step 2, irritancy potential test was checked in New Zealand Albino rabbits, as it is shown in Table 2, the average of erythema scores in 6 rabbits in 3-time points was 0.83 +0.41 for 0.4% SinaAmpholeish gel and 0.5+ 0.55 for empty liposomes (P= 0.16). The av- erage scores for oedema in the same rabbits was 0.67+0.52 for SinaAmpholeish gel and 0.33+0.52 for empty liposomes (P 0.16). The results of erythema and oedema are shown in Tables 2 and 3, respectively (Table 3). No sign of eye irritation was seen during 72h observation in 8 rabbits (two from the pilot study and 6 from the main study) and two-week observation in 2 rabbits (Fig. 1). http://jad.tums.ac.ir/ J Arthropod-Borne Dis, September 2018, 12(3): 269–275 SE Eskandari et al.: Safety Evaluation of … 272 http://jad.tums.ac.ir Published Online: September 30, 2018 Table 1. Rabbit score values for skin reactions (erythema and oedema) Skin reaction Value Erythema formation: No erythema 0 Very slight erythema (barely perceptible) 1 Well-defined erythema 2 Moderate to severe erythema 3 Severe erythema (beet redness) to slight scar formation (injuries in depth) 4 Necrosis (death of tissue) +N Scar (sloughing or scar formation) +E Oedema Formation: No oedema 0 Very slight oedema (barely perceptible) 1 Slight oedema (edges of area well-defined by definite raising) 2 Moderate oedema (raised approximately one millimetre) 3 Severe oedema (raised approximately one millimetre and ex- tending beyond the area of exposure) 4 Total possible score for primary irritation 8 Table 2. Skin erythema reactions in New Zealand Albino rabbits (Wilcoxon Signed Ranks test) Nano Liposomal Amphotericin-B Placebo Empty Liposome P-value Hours Mean+SD Median+QR Mean+SD Median+IQR 25 0.83+0.41 1+0.25 0.5+0.55 0.5+1 0.16 48 0.5+0.55 0.5+1 0 0 0.08 72 0 0 0 0 1 Sodium Lauryl Sulfate (SLS) was used as a positive control and PBS as a negative control Positive control results were 3, 4, 3 at 25, 48 and 72h and negative control was 0 Table 3. Skin oedema reactions in New Zealand Albino rabbits (Wilcoxon Signed Ranks test) Nano Liposomal Amphotericin-B Placebo Empty Liposome P- value Hours Mean+SD Median+IQR Mean+SD Median+IQR 25 0.67+0.52 0 0.33+0.52 0.16 48 0 0 0 0 1 72 0 0 0 0 1 Sodium Lauryl Sulfate (SLS) was used as a positive control and PBS as a negative control http://jad.tums.ac.ir/ J Arthropod-Borne Dis, September 2018, 12(3): 269–275 SE Eskandari et al.: Safety Evaluation of … 273 http://jad.tums.ac.ir Published Online: September 30, 2018 Fig. 1. Pictures of eye irritation test, left experiment, right control. Positive control results were 2, 2, 2 at 25, 48 and 72h and negative control showed was 0 at all time frames Discussion Treatment of CL is sometimes a dilemma, the only standard treatment is to use penta- valent antimonite which needs multiple in- jections, accompanies side effects and more- over is not always effective. Development of new more acceptable treatment for CL is ur- gently needed to increase compliance and fa- cilitate control of anthroponotic form of CL. Topical formulation is an ideal treatment for CL, several topical ointment have been de- veloped and checked in phase 3 clinical tri- als (4, 6, 13, 15-17). Paromomycin had therapeutic effect on old world and new world CL, but currently, none is available in the market for endemic areas (17). Various modalities including even im- munotherapy have been proposed to treat CL with limited efficacy (18). A Nano-liposomal form of amphotericin B was developed. This formulation showed to be effective against L. major and L. tropica in vitro and against L. major in vivo in a murine model of leish- maniasis (9). The risk of topical formulations such as cosmetic and therapeutic to induce irritation or corrosion is usually checked in rabbit us- ing Draize test (12-14). An alternative meth- od has been developed to decrease and even avoid using animal models for experiment studies (13). Originally it was proposed to use alternative in vitro test to check the irritancy test but due to politically imposed sanctions against Iran, the cell line needed to use in vitro test was not available so with no other option, the formulation of Nano-liposomal Am- photericin B potential irritancy was checked in rabbit model (Draize test). According to our previous unpublished da- ta, usually New Zealand Albino rabbit is more sensitive to irritancy test than white rabbits, so first 6 white rabbits were included and no erythema and no oedema was seen in 25, 48 and 72h exposure to either SinaAmpholeish or empty liposomes. When the same procedure was used in 6 New Zealand Albino rabbits the average of erythema and oedema scores was 0.83+0.41 and 0.67+0.52, respectively for SinaAmpholeish gel and 0.5+0.55 and 0.33+ 0.52 for erythema and oedema for empty lipo- somes, respectively, although there was no significant difference between irritancy test between SinaAmpholeish gel and empty lip- osomes and control groups (P=0.16), but New Zealand Albino rabbits were more sen- sitive than white rabbits but the formulation was completely safe and could be further checked in human trials. Conclusion Based on skin irritancy reactions the top- ical formulation of SinaAmpholeish is safe and could be further checked in human trials. Acknowledgements The study was financially supported by Drugs for Neglected Diseases initiative (DNDi), and Center for Research and Training in Skin Diseases and Leprosy, Tehran University of Medical Sciences, Tehran, Iran. The authors declare that there is no con- flict of interest. http://jad.tums.ac.ir/ J Arthropod-Borne Dis, September 2018, 12(3): 269–275 SE Eskandari et al.: Safety Evaluation of … 274 http://jad.tums.ac.ir Published Online: September 30, 2018 References 1. WHO (2016) Leishmaniasis fact sheet no. 375. World Health Organization, Geneva, Switzerland. http://www.who.int/en/news- room/fact-sheets/detail/leishmaniasis 2. WHO (2000) WHO Report on Global Sur- veillance of Epidemic-prone Infectious Diseases Leishmaniasis. http://www.who.int/csr/resources/public ations/CSR_ISR_2000_1leish/en/ 3. Alvar J, Vélez ID, Bern C, Herrero M, Desjeux P, Cano J, Jean Jannin, Margriet den Boer (2012) Leishmaniasis world- wide and global estimates of its inci- dence. 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