Parenteral suspensions syringeability

In contrast, parenteral suspensions have relatively low solids contents, usually between 0.5 and 5%, with the exception of insoluble forms of penicillin in which concentrations of the antibiotic may exceed 30%. These sterile preparations are designed for intramuscular, intradermal, intralesional, intraarticular, or subcutaneous injection. Syringeability is an important factor to be taken into consideration with injectable dosage forms. The viscosity of a parenteral suspension should be sufficiently low to facilitate injection. Common suspending vehicles include preserved isotonic saline solution or a parenterally acceptable vegetable oil. Ophthalmic and optic suspensions that are instilled into the eye/ear must also be prepared in a sterile manner. The vehicles are essentially isotonic and aqueous in composition. The reader should refer to Chapter 12 for further discussion on parenteral products. 

A surfactant is a surface-active agent that is used to disperse a water-insoluble drug as a colloidal dispersion. Surfactants are used for wetting and to prevent crystal growth in a suspension. Surfactants are used quite extensively in parenteral suspensions for wetting powders and to provide acceptable syringability. They are also used in emulsions and for solubilizing steroids and fat-soluble vitamins. 

Structured vehicles are usually not considered for the preparation of parenteral suspensions because, owing to their high viscosity, such systems lack sufficient syringe ability for ease of use. 

An important property of a good parenteral suspension is syringeability the ability of a parenteral solution or suspension to pass easily through a hypodermic needle, especially during the transfer of a product from vial to hypodermic syringe prior to injection. Increases in vehicle viscosity, vehicle density, and size and concentration of suspended particles make the transfer more difficult. 

Polymeric micropsheres, particularly those prepared from the biodegradable polylactide/ polyglycolide polymers, have been widely investigated as a means to achieve sustained parenteral drug delivery. The advantage of formulating the polymeric matrix as microspheres is the ability to administer them via a conventional needle and syringe as a suspension formulation, rather than as an implant (see below). Lupron depot formulations are available which can provide therapeutic blood levels of leuprolide acetate for up to four months. These products are presented as lyophilized polylactic acid microspheres which are reconstituted to form a suspension prior to administration. 

The liquid formulation for parenteral administration requires additional physical and microbiological functionalities, such as syringeability, sterility, osmolarity, and pyrogen freedom. The particle size change can influence the syringeability of injection of a suspension formulation as well as the level of irritation at the site. Terminal sterilization such as autoclave or gamma irradiation may affect the physical stability of the dosage form. Both formulation and container systems should be evaluated [63]. 

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