In recent years a new approach to skin care is emerging, cosmetic-textiles. Today, textiles are used as an appropriate substrate for effective and controlled release of active ingredient. Anti- aging and anti-wrinkling textiles ones are among the desired related textiles. UV rays from the sun are the primary cause of wrinkles, and skin aging. Loss of skin collagen accelerates the aging process, creates wrinkles and brown spots on the skin. The purpose of this research is to produce a cosmetic-textile for the repair of skin wrinkles using antioxidant active agents. In this study, microcapsules of vitamin E(?-tocopherol), Cyclodextrin Vitamin E complex, as strong antioxidants to inhibit free radicals, couple with aloe Vera and collagen were applied to improve the elasticity of the skin. A variety of these active ingredients combinations were finished on to the fabric's surface via pad-dry-cure method. Before samples finishing, the physical properties of the microcapsules, including apparent shape, shell surface charge, and the average distribution of the molecular size of the microcapsules were evaluated using the Zeta potential method and DLS method, respectively. The results show that the microcapsules are spherical with a smooth surface and different molecular sizes. The average molecular size for vitamin E and aloe Vera microcapsules is 424 and 134 nanometers, respectively. Also, Zeta's potential results indicate that vitamin E and Aloe Vera microcapsules have a negative charge level of -46/8 and -72/63 Mv,correspondingly. SEM, FTIR, weight gain, staining with methylene blue, a cationic dye, analysis of the coated samples confirmed the fixation of microcapsules and Cyclodextrin on to fabric surface. In addition, the effect of the samples finishing were investigated by measuring fastness properties, air permeability, moisture regain and antistatic characteristics. The results of measuring weight gain, FTIR spectrum, and SEM analysis revealed successful grafting of microcapsules and Cyclodextrin on the fabric surface. Furthermore, the results of fastness to washing test indicate the high durability of the finishing agents. The presence of Cyclodextrin on the fabrics by phenolphthalein was studied while the antioxidant properties of active agents by free radicals DPPH were investigated. The release behavior of the finished samples with fixed microcapsules and Cyclodextrin were evaluated using immersion method in ethanol solvent and phosphate buffer () at 37 ° C. The results indicate controlled and gradual release mechanism. Also, The release of the Vitamin E and Aloe Vera on fabric's surface, in 134 the phosphate buffer is less than that of the ethanol solvent. In phosphate buffer and ethanol solvent, the microcapsules shells are exposed to external forces and the shell is destroyed and vitamin E and Aloe Vera is released from the microcapsules. Vitamin E (alpha-tocopherol) is a lipophilic substance that has a good solubility in ethanol (non-polar) and has more affinity for release in the ethanol environment. Therefore, release of vitamin E from microcapsules and Cyclodextrin, in ethanol is faster than that from the phosphate buffer. But this release is still happening gradually for a long time, which is a controlled and suitable release for cosmetic -textiles. Moreover, in order to investigate the active agents permeability(diffusion) into skin, Frans diffusion cell and nylon membrane were applied to simulate the skin conditions approximately. This test also showed a gradual release of Vitamin E from the fabric.