Objective To study the medicine dynamics, distribution in tissue and abdominal cavity fluid concentration of 5-FU after giving intraperitoneal by using a gelatin carrier to be made 5-FU slowing-release microballoons. Methods 5-FU slowing-release microballoons medicine release speed, tissue distributing and the concentration in abdominal cavity fluid were measured by high performance liquid chromatography. Results 5-FU wrapped by gelatin were slowly released. The concentration in abdominal cavity fluid was obviously higher than that in tissue or in blood. Using established standard curve line, it was proved that in body area under curve (AUC) of 5-FU slowing-release microballoons group was obviously higher than that of simple 5-FU injection group, analyzed by 3p97 pharmacokinetic software management. Conclusion 5-FU enwrapped by gelatin can retain an effective anticancer activity concentration in abdominal cavity 7 days after giving intraperitoneal and it is distributed mostly in abdominal cavity.
Objective To investigate the controlled release effect and the anti-cancer cell ability of a 5-FU loaded poly-L-lactic acid (PLLA) nanofibers membrane blending with keratin. Methods Making PLLA and keratin mix together and crosslinking to generate blending solution. Then the anti-cancer drug 5-FU was added into the solution to fabricate nanofibers membrane by high voltage electrospinning method. The micro morphology was observed by scanning electron microscope (SEM). The controlled release effect of 5-FU from the nanofibers membrane was measured by high performance liquid chromatography (HPLC). The cytotoxicity of 5-FU/PLLA keratin nanofibers membrane was evaluated by using 3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide (MTT) assay on HCT116 cell lines. At the meantime, cell growth morphology of HCT116 in experiment group were observed by microscope and transmission electron microscope. Results 5-FU could be dispersed homogeneous in the PLLA/keratin nanofibers membrane through SEM. HPLC suggested that 5-FU could be diffused out from the fibers slowly and uniformly, which corresponded the zero order kinetics basically. After different treatment, the longer time the 5-FU/PLLA keratin nanofibers (experiment group) immerse in the medium, the much more swelling, apoptosis, and necrocytosis of the cells were observed. The cell viability for experiment group was (47.5±2.8)% by MTT, while the PLLA keratin nanofibers without 5-FU had no significant impact on cell viability (93.9±2.8)%, which was statistic significance (P<0.01). Conclusion 5-FU/PLLA keratin nanofibers membrane owns good controlled release effect and satisfies cell inhibitory effect against HCT116 cells in vitro,which suggested that it has a promising prospect for clinical therapy.
ObjectiveTo detect 5-FU concentration and investigate the changes of pathology, and Ki-67 protein expression after intraoperative regional chemotherapy (RC) for colon cancer. MethodsAll the patients were randomized into two groups: RC group (n=20), received intraoperational RC with 100 ml physiological saline contained 5-FU (15 mg/kg) and camptothecine (0.06 mg/kg); control group (n=20), saline alone. The samples from portal vein blood, peripheral blood, peritoneal fluid, and peri-cancerous tissues in RC group were taken to detect the 5-FU concentration by high performance liquid chromatography (HPLC), respectively at 2, 5, 10, 20, 30, and 60 minutes after treatment. The pathological changes were observed and Ki-67 protein expressions were examined by immunohistochemical staining for all the cancer tissues postoperatively in two groups. ResultsPeak concentration of 5-FU appeared at 2 min after treatment, and decreased gradually. 5-FU concentration in peritoneal fluid was the highest, and the lowest in the peripheral blood (Plt;0.01). In RC group, light karyopyknosis, nuclear swelling, and coagulative necrosis of cancer cells, and light intercellular substance hydropsia, inflammatory cells invasion were observed under light microscopic examination; light vasculitis presented also in five cases. Nuclear swelling, heterochromatin agglutination, perinuclear gap expansion, mitochondrial swelling, endoplasmic reticulum expansion, and Golgi complex expansion were observed with transmission electron microscope. Ki-67 protein expression of colon cance tissues in RC group was lower than that in control group (Plt;0.05). Conclusions Intraoperative RC for colon cancer may sustain a high concentration of chemotherapy drugs in peritoneal fluid and portal vein blood, and alter histopathological morphology of cancer cells, and suppress Ki-67 protein expression. So, intraoperative RC may play an important role in preventing intraoperative spreading and postoperative recurrence of colon cancer.