APLIKASI KITOSAN TERADIASI SINAR GAMMA 150 kGray DALAM FORMULASI NANOPARTIKEL GAMAVUTON-0 DENGAN METODE GELASI IONIK DAN PENGAIT SILANG TRIPOLIFOSFAT

Chitosan is a natural polymer and it is biodegradable polysaccharide, nontoxic, unfold tight junction, mucoadhesive and increase drug absorbtion. Long chains chitosan has properties that are less profitable, because of its poor solubility in water and high viscosity. Thus, in this research, chitosan chain scission with 150 kGy radiation dose of gamma rays. This study aims to produce GVT-0 nanoparticles using irradiated chitosan with ionic gelation method and tripolyphosphate as a crosslinker. Characterization of Gamma-rays irradiated chitosan are organoleptic, determination of its viscosity, and degree of deacetylation, meanwhile the characterization of GVT-0 nanoparticles include particle size, particle size distribution, morphology of nanoparticles, and entrapment efficiency. The results showed that the irradiated chitosan has more brownish color flake, lower viscosity (2,26 ± 0,12 cP) and higher degree of deacetylation (65,230%) compared with non-irradiated chitosan (viscosity: 86,78 ± 4,008 cP and a degree of deacetylation: 65,230%). Irradiated chitosan can produce GVT-0 nanoparticles that has better characteristics than non-irradiated chitosan. GVT-0 nanoparticles produced by irradiated chitosan has smaller particle size (48,967 ± 4,126 nm), more uniform particle size distribution, spherical shape, but has lower entrapment efficiency (93,048% ± 0,033%) at the formula C2 with concentration of GVT-0: chitosan: TPP = 0,02% - 0,04% - 0,003%, compared with GVT-0 nanoparticles produced by non-irradiated chitosan.