Rapid development of textile technology as well as vast final user application purposes has lead to development of numerous opportunities for utilization of new chemical finishing in textiles. In recent years, cooperation of textile experts with biology and medical specialists has lead to production of textiles called cosmetic textiles. Cosmetic textiles are designed to transfer active cosmetic materials into the body via skin. Slimming textiles as well as anti-cellulite ones are among the desired related textiles. Overweight is spreading with an increasing alarming speed across all societies and age groups. Cellulite is among the diseases caused by overweight. One way to prevent overweight and consequent cellulite is to use slimming and anti-cellulite textiles. In this study, it is attempted to develop slimming effect in lycra/cellulose fabric and also, to investigate the reloading capability in non-industrial conditions. This substrate was chosen due to being elastic and to produce full and direct contact with skin in order to provide the active material transfer to various skin parts. In order to develop a controlled release system, the grafting of ?_Cyclodextrin to the textile via crosslinking is utilized. The pad-dry-cure method is utilized to graft the ?_Cyclodextrin to the fabric. In the next step, the active material loading over the fabric surface with slimming and anti-cellulite features was performed by immersion method after determining the optimum conditions and then the release behavior of caffeine from the textile was studied. After completing the first release stage and complete extraction of the active material from the fabric, the reloading of caffeine over the same fabric via spray method was performed for the second time in order to investigate the second charging capability of the fabric and the release behavior of the caffeine was evaluated. Also, the active material permeability experiment was performed using Frans diffusion cell and nylon membrane, which simulate the skin conditions approximately, in order to investigate the active material permeability into skin then the washing stability of loaded caffeine was investigated after one week release test. Weight gain, FTIR spectra, and morphological investigation of the fabric surface were performed to prove the presence of ?_Cyclodextrin molecule using scanning electron microscope (SEM). Also, wash and abrasion fastness, air permeability, bending propertiers, moisture regain were performed to investigate the physical characteristics difference between treated and untreated fabrics. For loading the fabric using industrial method, 4 percent solution and keeping the fabric impregnated with the solution in a closed chamber for 4 hours were taken as optimum conditions and at the second loading stage, 2.5% caffeine solution in distilled water was chosen for spraying over the fabric due to low solubility of caffeine in water. The results of measuring weight gain, FTIR spectrum measure, and SEM imaging tests indicated successful grafting of ?_Cyclodextrin to the fabric. The evaluation of the process of caffeine release using industrial method showed gradual release of anti-cellulite material from the treated fabric with ?_Cyclodextrin. Also, the results showed successful reloading of caffeine from recharged fabric using domestic method as well as gradual release of caffeine from the fabric. Also, the release using nylon membrane test showed gradual and continuous release of active material from the treated fabric. Also, the acquired results from the washing fastness test showed high loaded caffeine stability within ?_Cyclodextrin cavities. Key words: slimming garment, slow release system, ?_Cyclodextrin, Citric Acid, caffeine