Tripterygium glycosides liposome(TPGL) were prepared by thin film-dispersion method, which were optimized accor-ding to their morphological structures, average particle size and encapsulation rate. The measured particle size was(137.39±2.28) nm, and the encapsulation rate was 88.33%±1.82%. The mouse model of central nervous system inflammation was established by stereotaxic injection of lipopolysaccharide(LPS). TPGL and tripterygium glycosides(TPG) were administered intranasally for 21 days. The effects of intranasal administration of TPG and TPGL on behavioral cognitive impairment of mice due to LPS-induced central ner-vous system inflammation were estimated by animal behavioral tests, hematoxylin-eosin(HE) staining of hippocampus, real-time quantitative polymerase chain reaction(RT-qPCR) and immunofluorescence. Compared with TPG, TPGL caused less damage to the nasal mucosa, olfactory bulb, liver and kidney of mice administered intranasally. The behavioral performance of treated mice was significantly improved in water maze, Y maze and nesting experiment. Neuronal cell damage was reduced, and the expression levels of inflammation and apoptosis related genes [tumor necrosis factor-α(TNF-α), interleukin-1β(IL-1β), BCL2-associated X(Bax), etc.] and glial activation markers [ionized calcium binding adaptor molecule 1(IBA1) and glial fibrillary acidic protein(GFAP)] were decreased. These results indicated that liposome technique combined with nasal delivery alleviated the toxic side effects of TPG, and also significantly ameliorated the cognitive impairment of mice induced by central nervous system inflammation.
Mice ; Animals ; Tripterygium ; Liposomes ; Glycosides/therapeutic use* ; Administration, Intranasal ; Lipopolysaccharides ; Central Nervous System ; Cognitive Dysfunction/drug therapy* ; Inflammation/metabolism* ; Tumor Necrosis Factor-alpha/metabolism* ; Cardiac Glycosides

In order to increase the stability and solubility of essential oil in Jieyu Anshen Formula, this study was to prepare the essential oil into liposomes. In this experiment, the method for the determination of encapsulation efficiency of liposomes was established by ultraviolet spectrophotometer and dextran gel column. The encapsulation efficiency and particle size of liposomes were used as evaluation indexes for single factor investigation and Box-Behnken design-response surface method was used to optimize the design. Then the optimal formulation of volatile oil liposome was characterized using methyleugenol, elemin, β-asarone and α-asarone as index components. Finally, the in vitro transdermal properties of liposomes were studied by modified Franz diffusion cell. The results showed that the concentration of lecithin, the mass ratio of lecithin to volatile oil, and the stirring speed were the three most significant factors affecting the liposome preparation. The optimum formulation of volatile oil liposome was as follows: the concentration of lecithin was 7 g·L~(-1); mass ratio of lecithin to volatile oil was 5∶1; and the stirring speed was 330 r·min~(-1). Under such conditions, the prepared liposomes had blue emulsion light, good fluidity, half translucent, with particle size of(102.6±0.35) nm, Zeta potential of(-17.8±0.306) mV, permeability of(1.67±1.01)%, and stable property if liposome was stored at 4 ℃. 24 h after percutaneous administration, the cumulative osmotic capacity per unit time was(30.485 2±1.238 9),(34.794 8±0.928 3),(26.677 1±1.171 7),(3.066 2±0.175 3) μg·cm~(-2)respectively for methyleugenol, elemin, β-asarone and α-asarone. In vitro transdermal behaviors of methyleugenol, elemin, β-asarone and α-asarone in liposomes were all consistent with Higuchi equation. The prepared volatile oil liposomes met the relevant quality requirements, providing a reference for further research on preparation of multi-component Chinese medicine essential oil liposomes.
Administration, Cutaneous ; Drugs, Chinese Herbal ; analysis ; Liposomes ; Oils, Volatile ; analysis ; Particle Size ; Solubility

OBJECTIVE: To test the acute and chronic toxicity of topical application of 0.5% podophyllotoxin-loaded nanostructured lipid carriers (POD-NLC) to the vaginal mucosa. METHODS: Twelve New Zealand rabbits were randomized into 3 groups and subjected to daily topical applications of normal saline (control group), 0.5% podophyllotoxin tincture (POD-T) or 0.5% POD-NLC on the vaginal mucosa for 10 consecutive days, and the pathological changes in the mucosa were graded using the Eckstein scoring system.The acute toxicity of POD-NLC was tested in 20 SD female rats, which received intravaginal administration of POD-NLC or vehicle for 3 times within 24 h; After 14 days of continuous observation, the rats were dissected for calculating the viscera coefficient.For testing the chronic toxicity of POD-NLC, 80 SD female rats were randomized into 4 groups and subjected to daily intravaginal administration of the vehicle or POD-NLC at low, moderate or high doses for 13 consecutive weeks.The rats were weighed once a week and at the end of the experiment, 2/3 of the rats from each group were sacrificed to collect blood samples, calculate the viscera coefficient, and examine the pathological changes in the liver.The remaining 1/3 rats were observed for another 2 weeks without further drug treatment and the same examinations were performed. RESULTS: In the rabbits, 0.5% POD-NLC elicited only mild irritation while POD-T caused moderate irritation of the vaginal mucosa.In the acute toxicity test, the organ coefficients were comparable between the rats treated with the vehicle and POD-NLC (>0.05).Long-term intravaginal administration of POD-NLC did not produce significant changes in the behavior, activity, body weight, blood biochemical profiles or organ coefficient as compared with the vehicle control group (>0.05). CONCLUSIONS Intravaginal administration of 0.5% POD-NLC causes very mild irritation without obvious acute or chronic toxicity to the vaginal mucosa in rabbits and rats.
Administration, Intravaginal ; Animals ; Female ; Liposomes ; Mucous Membrane ; drug effects ; Nanostructures ; toxicity ; Podophyllotoxin ; administration & dosage ; toxicity ; Rabbits ; Random Allocation ; Rats ; Vagina ; drug effects

BACKGROUND: Afatinib, a second-generation irreversible epidermal growth factor inhibitor receptor for the development of non-small cell lung cancer and secondary drug resistance, has low bioavailability and adverse reactions due to current oral administration. The aim of this study was to prepare a novel drug delivery system, afatinib liposome, and to establish a method for the determination of encapsulation efficiency. METHODS: Four different preparation methods were used to prepare afatinib liposomes, and the optimal preparation process was determined by comparing the encapsulation efficiency and particle size. RESULTS: It has been verified that sephadex microcolumn centrifugation can be used to purify afatinib liposomes, and UV spectrophotometry can be employed to determine the entrapment efficiency of liposomes. Among different preparation methods, the encapsulation efficiency of afatinib liposomes prepared by ammonium sulfate gradient method was 90.73% and the average particle size was 108.6 nm. CONCLUSIONS Ammonium sulfate gradient method can be successfully applied to prepare afatinib liposomes that performed higher encapsulation efficiency and smaller particle size. The UV spectrophotometry employed to determine the liposome encapsulation efficiency was easy operation and with high accuracy.
Afatinib ; Capsules ; Carcinoma, Non-Small-Cell Lung ; drug therapy ; Drug Compounding ; methods ; Liposomes ; Lung Neoplasms ; drug therapy ; Quinazolines ; administration & dosage ; chemistry ; therapeutic use

Eradication of Helicobacter pylori is recommended for the management of various gastric diseases, including peptic ulcers and mucosa-associated lymphoid tissue lymphoma. Because of the increasing prevalence of antibiotic resistance, the eradication rates of antibiotic-based therapies have decreased. Therefore, alternative treatments should be considered. The antibacterial properties of fatty acids (FAs) have been investigated in various organisms, including H. pylori. Some FAs, particularly polyunsaturated FAs, have been shown to have bactericidal activity against H. pylori in vitro; however, their antibacterial effects in vivo remain controversial. Poor solubility and delivery of FAs may be important reasons for this discrepancy. Recently, a series of studies demonstrated the antibacterial effects of a liposomal formulation of linolenic acid against H. pylori, both in vitro and in vivo. Further research is needed to improve the bioavailability of FAs and apply them in clinical use.
Animals ; Anti-Bacterial Agents/administration & dosage/*therapeutic use ; Drug Delivery Systems ; Fatty Acids/administration & dosage/*therapeutic use ; Helicobacter Infections/diagnosis/*drug therapy/microbiology ; Helicobacter pylori/*drug effects/pathogenicity ; Humans ; Liposomes ; Treatment Outcome

OBJECTIVETo compare the efficacy and safety between liposome-paclitaxel plus carboplatin (LPC) and paclitaxel plus carboplatin (PC) as first-line treatment for advanced non-small cell lung cancer (NSCLC).

METHODSTotally 54 chemotherapy-naive NSCLC patients were equally and randomly assigned into LPC group and PC group. Liposome-paclitaxel was injected on D1 at a dosage of 175 mg/m(2); the same dose and administration with paclitaxel injection in the PC group for a maximum of 2 cycles. The efficacy and adverse reactions after 2 cycles of chemotherapy were compared between these two groups.

RESULTSThe overall response rate (CR+PR) was 44.4% in the LPC group and 33.3% in the PC group after 2 cycles of chemotherapy respectively (P=0.577). In the LPC group and PC group, the incidences of myelodepression was 81.5% and 63.0%, respectively (P=0.080), gastrointestinal toxicity was 96.3% and 77.8% respectively (P=0.100), and allergic reactions was 0 and 11.1%, respectively (P=0.000). The median time to progression was 6 months and 5 months, respectively (P=0.420).

CONCLUSIONLPC group has the same efficacy with PC group and less adverse reactions than PC group.

Adult ; Aged ; Carboplatin ; administration & dosage ; Carcinoma, Non-Small-Cell Lung ; drug therapy ; Female ; Humans ; Liposomes ; Lung Neoplasms ; drug therapy ; Male ; Middle Aged ; Paclitaxel ; administration & dosage ; Treatment Outcome

In this study, we developed a novel liposome-silica hybrid nano-carrier for tumor combination therapy via oral route, using paclitaxel and cyclosporine as a model drug pair. Optimization of the preparation of the drug-loading formulation and characterization of its physicochemical parameters and drug release profile were performed in vitro. Then in vivo pharmacodynamics and pharmacokinetics studies were performed. The results showed that the obtained formulation has a small particle size (mean diameter of 100.2 +/- 15.2 nm), a homogeneous distribution [the polydispersity index was (0.251 +/- 0.018)] and high encapsulation efficiency (90.15 +/- 2.47) % and (80.64 +/- 3.52) % for paclitaxel and cyclosporine respectively with a mild and easy preparation process. A sequential drug release trend of cyclosporine prior to palictaxel was observed. The liposome-silica hybrid nano-carrier showed good biocompatibility in vivo and co-delivery of cyclosporine and paclitaxel significantly enhanced the oral absorption of paclitaxel with improved anti-tumor efficacy, suggesting a promising approach for multi-drug therapy against tumor and other serious diseases via oral route.
ATP-Binding Cassette, Sub-Family B, Member 1 ; antagonists & inhibitors ; Administration, Oral ; Animals ; Antineoplastic Agents, Phytogenic ; administration & dosage ; pharmacokinetics ; pharmacology ; Biological Availability ; Cyclosporine ; administration & dosage ; pharmacokinetics ; pharmacology ; Drug Carriers ; chemistry ; Female ; Liposomes ; chemistry ; Male ; Mice ; Nanoparticles ; Neoplasm Transplantation ; Paclitaxel ; administration & dosage ; pharmacokinetics ; pharmacology ; Particle Size ; Random Allocation ; Rats ; Rats, Sprague-Dawley ; Sarcoma 180 ; pathology ; Silicon Dioxide ; chemistry ; Tumor Burden ; drug effects

To investigate whether accelerated blood clearance (ABC) phenomenon could be induced after repeated injection of mitoxantrone thermosensitive liposomes, LC-MS/MS and enzyme linked immunosorbent assay (ELISA) were used to measure the concentration of mitoxantrone and the anti-polyethylene glycol (PEG) IgM levels in rat plasma, separately. The drug was rapidly cleared away after the second administration. The anti-PEG IgM was detected after the first dose which was neutralized quickly after the second dose. It is proved that repeated administration of mitoxantrone thermosensitive liposomes in rat caused the ABC phenomenon.
Animals ; Antineoplastic Agents ; administration & dosage ; blood ; pharmacokinetics ; Chromatography, High Pressure Liquid ; Immunoglobulin M ; blood ; Liposomes ; administration & dosage ; blood ; pharmacokinetics ; Male ; Metabolic Clearance Rate ; Mitoxantrone ; administration & dosage ; blood ; pharmacokinetics ; Polyethylene Glycols ; administration & dosage ; chemistry ; pharmacokinetics ; Rats ; Rats, Wistar ; Spectrometry, Mass, Electrospray Ionization ; Tandem Mass Spectrometry

Antineoplastic Agents ; administration & dosage ; pharmacology ; Drug Delivery Systems ; Humans ; Liposomes ; administration & dosage ; pharmacology ; Sesquiterpenes ; administration & dosage ; pharmacology

The purpose of this study is to explore the feasibility of wheat germ agglutinin (WGA) modified liposome as a vehicle for ophthalmic administration. Liposome loaded with 5-carboxyfluorescein (FAM) was prepared by lipid film hydration method. WGA was thiolated and then conjugated to the surface of the liposome via polyethylene glycol linker to constitute the WGA-modified and FAM-loaded liposome (WGA-LS/FAM). The amount of thiol groups on each WGA molecule was determined, and the bioactivity of WGA was estimated after it was modified to the surface of liposome. The physical and chemical features of the WGA-modified liposome were characterized and the ocular bioadhesive performance was evaluated in rats. The result showed that each thiolated WGA molecule was conjugated with 1.32 thiol groups. WGA-LS/FAM had a mean size of (97.40 +/- 1.39) nm, with a polydispersity index of 0.23 +/- 0.01. The entrapment efficacy of FAM was about (2.95 +/- 0.21)%, and only 4% of FAM leaked out of the liposome in 24 h. Erythrocyte agglutination test indicated that after modification WGA preserved the binding activity to glycoprotein. The in vivo ocular elimination of WGA-LS/FAM fitted first-order kinetics, and the elimination rate was significantly slower than that of the unmodified liposome, demonstrating WGA-modified liposome is bioadhesive and suitable for ophthalmic administration.
Absorption, Physicochemical ; Adhesiveness ; Administration, Ophthalmic ; Animals ; Drug Carriers ; Eye ; metabolism ; Fluoresceins ; chemistry ; Liposomes ; administration & dosage ; chemistry ; pharmacokinetics ; Male ; Particle Size ; Polyethylene Glycols ; chemistry ; Rats ; Rats, Sprague-Dawley ; Wheat Germ Agglutinins ; administration & dosage ; chemistry ; pharmacokinetics