Microbiological Stability of Allopurinol, Clindamycin Hydrochloride, Naltrexone Hydrochloride, Spironolactone and Ursodiol Oral Liquids Compounded in PCCA Base, SuspendIt®.

The individual physicochemical stabilities of Allopurinol, Clindamycin Hydrochloride, Naltrexone Hydrochloride, Spironolactone and Ursodiol in the proprietary suspending vehicle PCCA SuspendIt® have been previously studied and published by the author. Accordingly, Beyond-Use-Dates (BUDs) of 180 days were assigned to the five drugs based on the results of the respective studies. The data were donated to the United States Pharmacopeia (USP) for possible adoption as Official Compounded Drug Monographs. Following an extensive review process, all five studies were approved and published by the USP. However, due to a lack of microbiological stability information, the BUDs were limited to 90 days. The current study was undertaken as a follow-up project to determine the microbiological stability of these five drugs in PCCA SuspendIt® utilizing the same compounding procedures from the original studies. A stable extemporaneous product is defined as one that retains at least 90% of the initial drug concentration throughout the sampling period and is protected against microbial growth. The goal was to provide a viable, compounded alternative for Allopurinol, Clindamycin Hydrochloride, Naltrexone Hydrochloride, Spironolactone and Ursodiol in a thixotropic liquid dosage form, with an extended BUD of 6 months to meet patient needs. Given that the physical and chemical stabilities of all five drugs have been previously established and adopted by the USP as official compounded monographs, additional microbiological stability data would allow the official BUDs in the USP to be extended to 180 days to conform to the physicochemical stabilities. The current study showed that the preservative system in PCCA SuspendIt® successfully protected all the suspensions from growth of challenge microorganisms per the USP Chapter <51> AME Test. The results of the current study combined with the previous physicochemical studies demonstrate the following: Allopurinol is physically, chemically and microbiologically stable in PCCA SuspendIt for 180 days in the refrigerator and at room temperature over a bracketed allopurinol concentration range of 10 - 20 mg/mL. Clindamycin Hydrochloride is physically, chemically and microbiologically stable in PCCA SuspendIt for 180 days in the refrigerator and at room temperature at a concentration of 10-mg/mL of clindamycin. Naltrexone Hydrochloride is physically, chemically and microbiologically stable in PCCA SuspendIt for 180 days in the refrigerator and at room temperature, over a bracketed naltrexone hydrochloride concentration range of 0.5 - 5.0 mg/mL. Spironolactone is physically, chemically and microbiologically stable in PCCA SuspendIt for 180 days in the refrigerator and at room temperature at a concentration of 5 mg/mL of spironolactone. Ursodiol is physically, chemically and microbiologically stable in PCCA SuspendIt for 180 days in the refrigerator and at room temperature, over a bracketed ursodiol concentration range of 50 - 100 mg/mL. Taken collectively, the current study in conjunction with the earlier studies provide viable, compounded alternatives for Allopurinol, Clindamycin Hydrochloride, Naltrexone Hydrochloride, Spironolactone and Ursodiol in the suspending vehicle PCCA SuspendIt in liquid dosage forms, with an extended beyond-use-date to meet patient needs.

Physicochemical and Microbiological Stability of Compounded Clonidine Hydrochloride Oral Liquid Dosage Forms in PCCA Base, SuspendIt®.

Clonidine Hydrochloride is a centrally acting alpha-agonist hypotensive agent available as tablets for oral administration in three dosage strengths: 0.1 mg, 0.2 mg and 0.3 mg. A review of the therapeutic uses of clonidine hydrochloride reveals the need for flexibility in dosing. This flexibility is readily achieved using an oral liquid dosage form. However, no commercial liquid dosage form of clonidine hydrochloride currently exists. An extemporaneously compounded suspension from pure drug powder would provide a flexible, customizable option to meet unique patient needs with convenient and accurate dosing options. The purpose of this study was to determine the physicochemical and microbiological stability of extemporaneously compounded clonidine hydrochloride suspensions in the PCCA Base, SuspendIt. This base is a sugar-free, paraben-free, dye-free, and gluten-free thixotropic vehicle containing a natural sweetener obtained from the monk fruit. The study design included two clonidine hydrochloride concentrations to provide stability documentation over a bracketed concentration range for eventual use by compounding pharmacists. A robust stability-indicating high-performance liquid chromatographic assay for the determination of the chemical stability of clonidine hydrochloride in PCCA SuspendIt was developed and validated. Suspensions of clonidine hydrochloride were prepared in PCCA SuspendIt at 20-mcg/mL and 100-mcg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Given the potent nature of the drug, a 2% triturate of clonidine hydrochloride in microcrystalline cellulose was used to prepare the samples. Samples were stored in amber plastic prescription bottles at two temperature conditions (5°C and 25°C). Samples were assayed initially, and on the following time points (days): 7, 14, 28, 42, 63, 91, 119 and 182. Physical data such as pH, viscosity and appearance were also noted. Microbiological stability was tested. All measurements were obtained in triplicate. A stable extemporaneous product is defined as one that retains at least 90% of the initial drug concentration throughout the sampling period and is protected against microbial growth. Using this criterion, no significant degradation of the clonidine hydrochloride was observed over the 182-day test period for either concentration under refrigerated conditions. Drug concentrations were at, or above 94.6% of initial values. However, at room temperature the concentration of the 20-mcg/mL samples dropped below 90% after 119 days. No microbial growth was observed. pH values remained fairly constant. The viscosity of the suspensions allowed easy re-dispersal of the drug particles upon shaking. This study demonstrates that clonidine hydrochloride is physically, chemically, and microbiologically stable in PCCA SuspendIt for 182 days in the refrigerator and for 119 days at room temperature at both concentrations studied, thus providing a viable, compounded alternative for clonidine hydrochloride in a liquid dosage form, with an extended BUD to meet patient needs.

Physicochemical and Microbiological Stability of Compounded Bethanechol Chloride Oral Suspensions in PCCA Base, SuspendIt®.

Bethanechol chloride is a cholinergic agent used to treat acute postoperative and postpartum nonobstructive (functional) urinary retention and for neurogenic atony of the urinary bladder with retention. It is available in the United States as tablets for oral administration in four dosage strengths: 5 mg, 10 mg, 25 mg, and 50 mg. A review of the therapeutic uses of bethanechol chloride reveals the need for flexibility in dosing. This flexibility is readily achieved using an oral liquid dosage form. However, no commercial liquid dosage form of bethanechol chloride currently exists. An extemporaneously compounded suspension from pure drug powder or commercial tablets would provide a flexible, customizable option to meet unique patient needs with convenient and accurate dosing options. The purpose of this study was to determine the physicochemical and microbiological stability of extemporaneously compounded bethanechol chloride suspensions using two brands of commercially available tablets (Amneal and Upsher-Smith) in the PCCA Base, SuspendIt. This base is a sugar-free, paraben-free, dye-free, and gluten-free thixotropic vehicle containing a natural sweetener obtained from the monk fruit. The study design included two bethanechol chloride concentrations to provide stability documentation over a bracketed concentration range for eventual use by compounding pharmacists. A robust stability-indicating ultra-high-performance liquid chromatographic assay for the determination of the chemical stability of bethanechol chloride in PCCA SuspendIt was validated. Suspensions of bethanechol chloride were prepared from the tablets in PCCA SuspendIt at 1-mg/mL and 5-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Samples were stored in amber plastic prescription bottles at room temperature (25°C). Samples were assayed initially, and on the following time points (days): 14, 30, 60, 90, and 180. Physical data such as pH and appearance were also noted. Microbiological stability was tested. A stable extemporaneous product is defined as one that retains at least 90% of the initial drug concentration throughout the sampling period and is protected against microbial growth. Using this criterion, no significant degradation of the bethanechol chloride was observed over the 180-day test period for either concentration at room temperature. Drug concentrations were at, or above 93% of initial values for both brands of commercially available tablets. No microbial growth was observed. pH values remained fairly constant. This study demonstrates that bethanechol chloride tablets are physically, chemically, and microbiologically stable in PCCA SuspendIt for 180 days at room temperature at both concentrations studied, thus providing a viable, compounded alternative for bethanechol chloride in a liquid dosage form, with an extended BUD to meet patient needs.