To develop the chitosan /polyethylene glycols succinate (CH/PEG-SA) mitomycin C (MMC) film drug del ivery system and its release effect in vitro. Methods MMC loading in composite films was determined using a UV-visible spectrophotometer. Freeze-dried films (90 mg) were immersed in 1 mL PBS buffer (pH 7.4). The concentrations ofMMC releasing in vitro were calculated refer to the standard curve of relationship between the concentrations of MMC and the value of UV-visible spectrophotometer. The curve of the concentrations of MMC releasing from the films in vitro was drawn at different time. The relationship between the films, structure and the drug releasing was revealed. Results The films showed swell ing without brittleness. The equation of Linear Regression was y=0.593x3– 2.563x2 +25.944x – 0.236 (R2=1.000). The film had a good drug del ivery capabil ity. The samples weighing 20 mg were soaked into the l iquid of PBS, the releasing concentrations of MMC were 14.961 6 μg/mL at 12 days, 14.482 4 μg/mL at 18 days and 11.409 2 μg/mL at 32 days, which was higher than ID50 of MMC (10.471 3 μg/L) to fibroblast. Then MMC was released at a low concentration. The releasing concentrations of MMC was 0.179 3 μg/ mL at 60 days until being del ivered completely. Conclusion The flexibil ity is enhanced , and the mechanical function is improved, so that there is better nature of membrane. The initial burst is avoided more effectively, and the drug releasing would be maintained for a certain time.
Objective To investigate the therapeutic effect of the chitosan/polyethylene glycols-succinate/ mitomycin C (CH/PEG-SA/MMC) film on epidural scarring tissues. Methods According to a specific proportion of respective materials, the film of CH/PEG-SA/MMC was developed under some condition. Thirty SD rats were selected and randomized into 6 groups with 5 rats in each group. A rat model of lumbar laminectomy was used. The amount of 20 mg of the CH film was implanted into the animals in group I, 20 mg of CH/PEG film in group II, 20 mg of CH/PEGSA film in group III, 0.05 mg/mL of the MMC soaking for 5 minutes in group IV, 20 mg of CH/PEG-SA/MMC film in group V, and nothing was done in group VI. Specimens were harvested 4 weeks after the above procedures and were then subjected to immunohistochemical and histological examinations to compare their therapeutic effects on epidural cicatricial tissues. Results All rats were in good conditions after operation, without gait abnormal ity, restlessness, infection and death. There was no significant difference among the 6 groups in the postoperative Rydell score (P lt; 0.05). The content of hydroxyprol ine in groups I, II, III, IV, V and VI was (0.570 8 ± 0.345 0), (0.728 6 ± 0.150 6), (0.553 4 ± 0.122 3), (0.313 3 ± 0.106 4), (0.261 9 ± 0.102 1)and (1.020 1 ± 0.120 6) μg/ mg, respectively. There was a significant difference between groups IV, V and groups I, II, III (P lt; 0.05), and there was significant difference between group VI and the rest 5 groups (P lt; 0.05). According to the histological observation, group V had less collagenous fiber parallel ing the dura mater, with few inflammatory cells infiltration, with few capillary vessels and no reaction of macrophages. Conclusion CH/PEG-SA/MMC films can effectively reduce the amount of Hyp in epidural scarring tissues after lumbar laminectomy and therefore is a good treating method in preventing scarring tissue adhesion.