Journal of

Background and aim: Saffron possesses a lot of medical applications in traditional medicine. One of its properties is ultraviolet (UV) light absorption. The aim of this study was preparation, determination of properties and investigating sun protevtive effects of nanoliposomes containing saffron extract and safranal, a substance existing in saffron.
Methods: Nanoliposomal hydroalcoholic extract of saffron stigma in concentrations 2%, 4%, 8% and nanoliposomal safranal in concentrations 0.25% , 0.5% and 1% were prepared. Standard lotion of homosalate 8% was used according to FDA standards for sun protection factor (SPF) determination and assessment of accuracy of the method. SPFs of substances were calculated in vitro by diluted solvent method using Mansur, et al equation and absorptiometry.

Results: SPf of Nanoliposomal saffron 8% extract was significantly higher than standard sunscreen homosalate with similar concentration. SPFs of safranal (1% and 0.5%) component of saffron were significantly higher than the standard sunscreen homosalate 8%.
Conclusion: Saffron can act as a sunscreen. Safranal existing in saffron is much more sun protective than standard substance, homosalate 8%. Thus , the safranal existing in saffron may have significant sun protective effect in low concentration if encapsulated in liposome.

Background and Aim: As a blistering agent, mustard gas causes a variety of disorders in different body organs, including the skin, such as altrations in DNA and clinical manifestations like pruritus. TGF-β1 molecule is a cytokine with anti-cell growth and inflammation suppression effects in skin inflammation. The aim of this study was to determine TGF-β1 gene exprtession in victims exposed to mustard gas and the correlation with the severity of their pruritus.
Methods: 17 victims exposed to mustard gas, 17 patients with chronic contact dermatitis and 10 healthy individuals were included in the study. The assessment of TGF-β1 expression in their skin samples was conducted by semi-quantitative RT-PCR followed by immunohistochemistry and classification of patients was done by pruritus severity scoring system (0-3).
Results: There was a significant decrease in TGF-β1 gene expression in mustard gas exposed victims comparing to chronic contact dermatitis group and the control group (P<0.05). In addition, in the absence of TGF-β1 expression, the severity of pruritus in the patient group significantly increased (P<0.05).
Conclusion: TGF-β1 has a significant role in chronic inflammatory skin lesions caused by mustard gas.