论文信息 - A novel skeletal drug-delivery system using self-setting calcium phosphate cement. 3. Physicochemical properties and drug-release rate of bovine insulin and bovine albumin.

A novel skeletal drug-delivery system using self-setting calcium phosphate cement. 3. Physicochemical properties and drug-release rate of bovine insulin and bovine albumin.

A novel drug-deliver device based on a self-setting bioactive cement formed from tetracalcium phosphate and dicalcium phosphate has been developed and tested in vitro using bovine insulin and bovine albumin as model polypeptide drugs. Equimolar mixtures of the calcium phosphate powders containing bovine insulin and bovine albumin were transformed into a hydroxyapatite cement after being mixed with a dilute phosphoric acid solution. X-ray diffraction and FT-IR spectra results suggested that the raw materials transformed into lower crystallinity of hydroxyapatite as it hardened. In vitro drug release from cement pellets into a 0.1 mol/L phosphate buffer at pH 7.40 and 37 degrees C continued for more than 3 weeks. Release from the drug-loaded cements followed the Higuchi model equation.

J. Fox | M. Otsuka | W. Higuchi | Y. Matsuda | Y. Suwa

[1] P. Delmas,et al. Insulin-like growth factor-II increases plasma osteocalcin concentration in newborn lambs. , 1992, Bone and mineral.

[2] K. Takaoka,et al. Telopeptide‐depleted bovine skin collagen as a carrier for bone morphogenetic protein , 1991, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[3] J. Fox,et al. A novel skeletal drug delivery system for anti-bacterial drugs using self-setting hydroxyapatite cement. , 1990, Chemical & pharmaceutical bulletin.

[4] J. Olefsky,et al. Demonstration of insulin receptors and modulation of alkaline phosphatase activity by insulin in rat osteoblastic cells. , 1986, Endocrinology.

[5] W. E. Brown,et al. A New Calcium Phosphate, Water-setting Cement , 1986 .

[6] T. Higuchi. MECHANISM OF SUSTAINED-ACTION MEDICATION. THEORETICAL ANALYSIS OF RATE OF RELEASE OF SOLID DRUGS DISPERSED IN SOLID MATRICES. , 1963, Journal of pharmaceutical sciences.

[7] D. Othmer,et al. Correlating Diffusion Coefficient in Liquids , 1953 .