Lactoferrin (Lf) is one of the food protein belonged to the innate immune system. Apart from its main biological function of binding and transport of iron ions, lactoferrin also has many other functions and properties such as antibacterial, antiviral, antiparasitic, catalytic, anti-cancer, anti-allergic and radioprotecting. Lf is usually used as additives of food and cosmetics. The research of lactoferrin has been increasingly reported, and the application of lactoferrin as a drug carrier has drawn extensive attention over the recent year. In this paper, researches of lactoferrin as drug carriers are classified and summarized in brain targeting, liver tumor targeting, lung tumor targeting and oral delivery systems according to their different characteristics.
Administration, Oral ; Brain ; Drug Carriers ; Humans ; Lactoferrin ; chemistry ; Neoplasms

Pharmaceutical researchers at home and abroad have been working in pursuit of an effective, easy-to-use and safe way of non-injecting insulin administration. Oral insulin was considered to be one of the ideal administration ways for the treatment of diabetes mellitus. In this review, we introduce the clinical value and progress of oral insulin delivery in recent years. The mechanisms, therapeutic effect, limitations of oral insulin delivery, and the future perspectives in this research field are also discussed.
Administration, Oral ; Animals ; Diabetes Mellitus ; drug therapy ; Drug Carriers ; Drug Delivery Systems ; Humans ; Insulin ; administration & dosage

OBJECTIVETo prepare morphine-loaded chitosan microspheres by emulsion ionic cross-linking and investigate the effect of initial morphine quantity and different cross-linking degrees on drug loading, encapsulation efficiency and in vitro drug release.

METHODSChitosan (with a relative molecular mass of 50,000 and deacetylation degree no less than 90%) at 100 mg and morphine at 20, 30, 40, or 50 mg were dissolved by 2% acetate and dripped slowly into 15 ml soy-bean oil containing 0.75 ml Span80. After full emulsification at 35 degrees C; for 1.5 h, the mixture was dripped slowly into sodium tripolyphosphate (10 mg/ml) at the mass ratio of 5:1, 7:1, or 9:1 to allow cross-linking for 2 h. The drug loading, encapsulation efficiency and in vitro drug release of the preparations were measured.

RESULTSThe drug loading in the microsphere increased while the encapsulation efficiency reduced with the increment of the initial morphine quantity. High cross-linking degree resulted in prolonged release time of the drug loaded in the preparations.

CONCLUSIONThe microspheres loaded with morphine allows sustained release of morphine.

Polymeric drug delivery system for insulin controlled-release is one of the most active fields of research and development in the world. Up to date, several kinds of intelligent drug carriers for glucose-responsive insulin delivery have been reported. On the basis of a large quantity of references on this topic, a review has been made on the developments of the intelligent polymeric systems for glucose-responsive insulin delivery.
Delayed-Action Preparations ; Drug Carriers ; Drug Delivery Systems ; instrumentation ; Hypoglycemic Agents ; administration & dosage ; Insulin ; administration & dosage

Major advantages of transdermal drug delivery system (TDDS) include avoiding of drug degradation in hepatic and gastrointestinal, predetermining release rate and blood drug level, reducing administration frequency and adverse reactions, and increasing patient compliance. But its application was limited by stratum corneum barrier and low skin permeability of drugs. Terpene penetration enhancers are low toxic and can improve the skin permeability and enhance the permeating veloc both of hydrophilic and lipophilic drugs. Terpenes can also significantly enhance the cumulative release amount of drug at its low concentration comparing with other synthetic penetration enhancers, and play an important role in the TDDS. This review presented the source, classification, mechanism and applications of terpenes, combined use with other enhancers and methods. Optimization, evaluation and prospective applications of terpene penetration enhancers were also discussed.
Animals ; Drug Carriers ; administration & dosage ; chemistry ; toxicity ; Humans ; Skin Absorption ; Terpenes ; administration & dosage ; chemistry ; pharmacokinetics

Various geometric shapes and structures self-assembled of amphiphilic lipids when present in an aqueous environment, as active delivery vehicles, are becoming one of focuses of drug delivery system. Lipid-based cubic liquid crystalline nanoparticles (or Cubosomes) consisting of "honeycombed (cavernous)" structure spontaneously formed when a certain concentration of amphiphilic lipids dispersed in aqueous solution has curved bicontinuous lipid bilayer in three dimensions, separating two congruent networks of water channels. Its unique structure consists of internal double water channels and large interfacial areas, which reveal great flexibility in encapsulation efficiency of various polarities and amount of drugs, and has variegated range of drugs encapsulated. As a drug delivery vehicle, high drug payloads, stabilization of peptides or proteins and simple preparation process are also its advantages. The ability of cubic phase to incorporate and control release of drugs of varying size and polar characteristics, and biodegradability of lipids make it an interesting drug delivery system for various routes of administration, including oral, topical (or mucosal) and intravenous administrations, with extensive application in a multitude of dosage forms. Furthermore, a number of different proteins in cubic phase appear to retain their native conformation and bioactivity, and are protected against chemical and physical inactivation. In this paper, investigations of lipid-based cubic liquid crystalline nanoparticles are reviewed and summarized, with a hope to provide a reference for its in-depth study. At the end, the authors made a development prospect of this novel excellent candidate for active ingredients delivery vehicle.
Drug Carriers ; chemistry ; Drug Delivery Systems ; methods ; Lipids ; administration & dosage ; chemistry ; Liquid Crystals ; chemistry ; Nanoparticles

Magnetic chitosan (CS) nano-spheres were prepared by the modified suspension cross-linking technique. The results demonstrated that the magnetic drug nano-spheres are mainly spherical in form with a size of 200 to 800 nm, and show good magnetic responsivity. Here, Doxorubicin was used as exam drug. Glutaraldehyde connects Doxorubicin to CS by the chemical bond (-N = C-), and the drug content is in range of 1% to 15% (w/w). The chemical bond is broken depending on pH, so pH is the important factor for the release of doxorubicin. The doxorubicin release was 22.0%, 13.4%, and 4.1% in the space of 7d, when pH was 1, 2, 4. So the nano-spheres are pH-sensitive magnetic targeting drug micro-spheres.
Chitosan ; chemistry ; Doxorubicin ; administration & dosage ; Drug Carriers ; chemical synthesis ; Drug Delivery Systems ; methods ; Magnetics ; Nanospheres ; chemistry

Liposomes and nanoparticles have been used as drug carriers to increase solubility, prolong drug duration in vivo, target drug delivery, reduce toxicity and combat multi-drug resistance. With major advances in the preparation techniques, preparation material, and surface modifiers in recent years, liposomes and nanoparticles delivery systems have achieved success in fields including cancer therapy, overcoming biological barriers, and biological drugs and vaccine carriage.
Drug Carriers ; Drug Delivery Systems ; methods ; Humans ; Liposomes ; Nanoparticles ; Vaccines ; administration & dosage ; chemistry

Drug Carriers ; Drug Combinations ; Drugs, Chinese Herbal ; administration & dosage ; Poloxamer ; Polyethylene Glycols ; Solubility ; Technology, Pharmaceutical ; methods

Dosage Forms ; Drug Carriers ; Drug Delivery Systems ; Drugs, Chinese Herbal ; administration & dosage ; Humans ; Nanotechnology