The fabrication and assessment of mosquito repellent cream for outdoor protection.

Mosquito-borne infections like dengue, malaria, chikungunya, etc. are a nuisance and can cause profound discomfort to people. Due to the objectional side effects and toxicity associated with synthetic pyrethroids, N,N-diethyl-3-methylbenzamide (DEET), N,N-diethyl phenylacetamide (DEPA), and N,N-di ethyl benzamide (DEBA) based mosquito repellent products, we developed an essential oil (EO) based mosquito repellent cream (EO-MRC) using clove, citronella and lemongrass oil. Subsequently, a formulation characterization, bio-efficacy, and safety study of EO-MRC were carried out. Expression of Anti-OBP2A and TRPV1 proteins on mosquito head parts were studied by western blotting. In-silico screening was also conducted for the specific proteins. An FT-IR study confirmed the chemical compatibility of the EOs and excipients used in EO-MRC. The thermal behaviour of the best EOs and their mixture was characterized by thermogravimetric analysis (TGA). GC-MS examination revealed various chemical components present in EOs. Efficacy of EO-MRC was correlated with 12% N,N-diethyl benzamide (DEBA) based marketed cream (DBMC). Complete protection time (CPT) of EO-MRC was determined as 228 min. Cytotoxicity study on L-132 cell line confirmed the non-toxic nature of EO-MRC upon inhalation. Acute dermal irritation study, acute dermal dose toxicity study, and acute eye irritation study revealed the non-toxic nature of EO-MRC. Non-target toxicity study on Danio rerio confirmed EO-MRC as safer for aquatic non-target animals. A decrease in the concentration of acetylcholinesterase (AChE) was observed in transfluthrin (TNSF) exposed Wistar rats. While EO-MRC did not alter the AChE concentrations in the exposed animals. Results from western blotting confirmed that Anti-OBP2A and TRPV1 proteins were inhibited in TNSF exposed mosquitoes. Mosquitoes exposed to EO-MRC showed a similar expression pattern for Anti-OBP2A and TRPV1 as the control group. In silico study revealed eight identified compounds of the EOs play significant roles in the overall repellency property of the developed product. The study emphasizes the mosquito repellent activity of EO-MRC, which could be an effective, eco-friendly, and safer alternative to the existing synthetic repellents for personal protection against mosquitoes during field conditions.

Safety profile of silver sulfadiazine-bFGF-loaded hydrogel for partial thickness burn wounds.

In the present investigation, the safety of novel combinational silver sulfadiazine-bFGF-loaded hydrogel was assured by performing acute skin irritation, sensitization, acute dermal toxicity, and eye irritation in compliance with the Organization for Economic Co-operation and Development guidelines. In the skin irritation study, placebo, test, and positive control (0.8% w/v aqueous solution of formaldehyde) were applied on New Zealand rabbits and monitored for abnormal skin responses including erythema and edema. The placebo and test formulation did not induce any adverse reactions and were classified as nonirritating materials. In the skin sensitization test, guinea pigs were sensitized by positive control (0.1% w/v 1-chloro-2,4-dinitrobenzene in 10% of propylene glycol as a standard skin sensitizing agent), placebo, and test formulations. Weak sensitization was observed in the placebo and test formulation treated groups. Additionally, acute dermal toxicity test was performed in Wistar rats, where no signs of toxicity were observed in biochemical, hematological, and histopathological studies. Moreover, the acute eye irritation test was carried out in rabbits and no abnormal clinical signs were evident in the cornea or iris. As a whole, these findings suggest that the hydrogel formulation does not cause any skin irritation, skin sensitizationand dermal toxic effects, and eye irritation following dermal and ocular applications, respectively. Therefore, all the findings obtained from this preclinical study indicated that this hydrogel formulation is nontoxic and safe for use in animal models.

Capsaicin, the primary constituent of pepper sprays and its pharmacological effects on mammalian ocular tissues.

Capsaicin is the principal constituent of oleoresin capsicum, or pepper spray, as it is commonly known. Pepper sprays are frequently used in riot control situations by defence organizations all over the world to deal with uncontrolled civil or criminal disturbances. Although capsaicin is noted for its irritant and inflammatory properties, the ocular profile of capsaicin has not been specifically studied and interpreted. The present review analyses the mammalian opthalmological profile of capsaicin and its pharmacological and toxicological manifestations including capsaicin induced corneal changes, neurogenic inflammation, neuroprotective influences on retinal ganglion cells (RGCs), depletion of neuropeptide content in sensory nerve terminals etc. Substantial views on the capsaicin receptor Transient Receptor Potential Vanilloid V1 (TRPV1), its presence, significance and capsaicin induced mediations have been presented. Studies conducted previously on the reversal of capsaicin evoked ocular responses have been briefly demonstrated. In this regard, TRPV1 antagonists (especially the competitive antagonist Capsazepine) have been indicated as potential candidates in mitigating or alleviating capsaicin elicited ocular responses. The review overall is a comprehensive perspective of the ocular inflammatory and pharmacological responses generated on exposure to capsaicin and concludes suggesting a possible regulatory framework for relief from the same presumably by the employment of specialized and target specific TRPV1 antagonists.