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Drug delivery systems design

Bernkop-Schniirch, A., and M. Hornof. 2003. Intravaginal drug delivery systems Design, challenges, and solutions. Am J Drug Deliv 1 241. [Pg.465]

D. D. Breimer. Pharmacokinetic and pharmacodynamic basis for peptide drug delivery system design. J. Control. Release 21 5—10, 1992. [Pg.37]

The macaque rhesus monkey has an ovarian cycle of approximately 28 days, as does the human female, and it also exhibits an estrus pattern very similar to the menstrual pattern of the human female. It is widely believed by researchers in the fertility field that rhesus monkeys and humans have comparable anatomy and physiology, as well as similar reproductive func-tions. Therefore, the female rhesus monkey is a superior animal model for studying the vaginal absorption of various drugs from a drug delivery system designed for use in human females. [Pg.1348]

SCF processing offers many advantages over conventional methods of extraction, drug particle formation, and drug delivery system design. Reduction of potentially harmful organic solvents and steps required for... [Pg.3580]

PREFORMULATION ASPECTS ON INHALATION DRUG DELIVERY SYSTEM DESIGN... [Pg.298]

INHALATION DRUG DELIVERY SYSTEM DESIGN—NEBULIZED DRUG DELIVERY... [Pg.304]

INHALATION DRUG DELIVERY SYSTEM DESIGN—METERED-DOSE INHALERS Introduction... [Pg.308]

Potential for Skin Penetration Enhancement, Aquaculture, Bovine Mastitis and Intramammary Drug Delivery, Veterinary Dental Drug Delivery, Drug Delivery System Design for the Control of the Estrous Cycle in Cattle... [Pg.299]

Figure 14.15 Typical transdermal drug delivery system designs. Figure 14.15 Typical transdermal drug delivery system designs.
The pressurized metered dose inhaler (pMDI) is a pocket sized, hand-held drug delivery system designed to deliver consistent small doses of medicines directly to the patient s lungs. The essential constituents are the medicine, the propellant, and a storage canister, a metering valve, and an actuator. This chapter is concerned with the propellants. It addresses... [Pg.371]

M. Hruby, T. Etrych, J. Kucka, M. Forsterov and K. Ulbrich, Hydroxybisphosphonate-containing polymeric drug-delivery systems designed for targeting into bone tissue, J. Appl. Polym. Sci., 101, 3192-3201 (2006). [Pg.62]

Accordingly, a drug delivery system design utilizing the characteristics of gels is becoming important to development of ointments. In the... [Pg.1104]

Savic S, Tambuiic S Savic MM. 2010. From conventional towards new - natural surfactants in drug delivery systems design current status and perspectives. Expert Opinion on Drug Delivery 7(3) 353-369. [Pg.265]

See other pages where Drug delivery systems design is mentioned: [Pg.8]    [Pg.1262]    [Pg.5]    [Pg.826]    [Pg.988]    [Pg.3768]    [Pg.3941]    [Pg.319]    [Pg.85]    [Pg.92]    [Pg.687]    [Pg.411]    [Pg.206]    [Pg.457]    [Pg.348]    [Pg.436]    [Pg.50]    [Pg.290]   
See also in sourсe #XX -- [ Pg.1245 , Pg.1258 , Pg.1332 ]



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