Physiochemical and Microbiological Stability of Azathioprine Suspensions in PCCA Base, SuspendIt.

Azathioprine is used to treat the symptoms of rheumatoid arthritis and for the prevention of transplant rejection. A review of the therapeutic uses of Azathioprine 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 Azathioprine currently exists. Azathioprine is commercially available only as a 50-mg tablet. 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 Azathioprine 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 Azathioprine 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 Azathioprine in PCCA SuspendIt was developed and validated. Suspensions of Azathioprine were prepared in PCCA SuspendIt at 10-mg/mL and 50-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. 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, 49, 63, 90, 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. The study showed that Azathioprine concentrations did not go below 96.8% of the label claim (initial drug concentration) at both temperatures studied. No microbial growth was observed. The pH values remained constant. The viscosity of the suspensions allowed easy re-dispersal of the drug particles upon shaking. This study demonstrates that Azathioprine is physically, chemically, and microbiologically stable in PCCA SuspendIt for 182 days in the refrigerator and at room temperature, thus providing a viable, compounded alternative for Azathioprine in a liquid dosage form, with an extended beyond-use date to meet patient needs.

Physicochemical and Microbiological Stability of Pyrimethamine in Paraben-free PCCA Base, SuspendIt.

Pyrimethamine is an antiparasitic compound available only in tablet form for oral administration. A review of the therapeutic uses of pyrimethamine 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 pyrimethamine currently exists. Pyrimethamine is available commercially only as 25-mg tablets. 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 pyrimethamine suspension in 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. A robust stability-indicating high-performance liquid chromatographic assay for the determination of the chemical stability of pyrimethamine in PCCA SuspendIt was developed and validated. Suspensions of pyrimethamine were prepared in PCCA SuspendIt at a 2-mg/mL concentration, selected to provide flexibility in customizing individual doses. 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, and 42. 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. The study showed that pyrimethamine concentrations did not go below 96% of the label claim (initial drug concentration) at both temperatures studied. No microbial growth was observed. pH values remained constant. The viscosity of the suspensions allowed easy re-dispersal of the drug particles upon shaking. This study demonstrates that pyrimethamine is physically, chemically, and microbiologically stable in PCCA SuspendIt for 42 days stored in the refrigerator and at room temperature, thus providing a viable, compounded alternative for pyrimethamine in a liquid dosage form.

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

Amitriptyline hydrochloride is indicated for the relief of symptoms of depression. A review of the therapeutic uses of amitriptyline 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 amitriptyline currently exists. Amitriptyline hydrochloride is commercially available only as 10-mg, 25-mg, 50-mg, 75-mg, 100-mg, and 150-mg tablets. 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 amitriptyline hydrochloride suspensions in 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 amitriptyline 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 amitriptyline hydrochloride in PCCA SuspendIt was developed and validated. Suspensions of amitriptyline hydro- chloride were prepared 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 two temperature conditions (5°C and 25°C). Samples were assayed initially, and on the following time points (days): 7, 14, 28, 49, 63, 91, 119, and 185. 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. The study showed that amitriptyline hydrochloride concentrations did not go below 99.8% of the label claim (initial drug concentration) at both temperatures studied. No microbial growth was observed. The pH values remained constant. The viscosity of the suspensions allowed easy re-dispersal of the drug particles upon shaking. This study demonstrates that amitriptyline hydrochloride is physically, chemically, and microbiologically stable in PCCA SuspendIt for 185 days in the refrigerator and at room temperature, thus providing a viable, compounded alternative for amitriptyline hydrochloride in a liquid dosage form, with an extended beyond-use date to meet patient needs.

Physicochemical and Microbiological Stability of Extemporaneously Compounded Hydrocortisone Oral Suspensions in PCCA Base, SuspendIt.

Hydrocortisone is indicated in the treatment of primary or secondary adrenal insufficiency. The oral dosage regimen of hydrocortisone needs to be individualized in the treatment of congenital adrenal hyperplasia, especially in pediatric patients. A review of the therapeutic uses of hydrocortisone 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 hydrocortisone currently exists. Hydrocortisone is commercially available as 5-mg, 10-mg, and 20-mg tablets. An extemporaneously compounded suspension from pure drug powder would provide a convenient option to meet unique patient needs. The purpose of this study was to determine the physicochemical and microbiological stability of extemporaneously compounded hydrocortisone suspensions in 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 hydrocortisone 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 hydrocortisone in SuspendIt was developed and validated. Suspensions of hydrocortisone were prepared in SuspendIt at 1-mg/mL and 20-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Samples were stored in plastic amber prescription bottles at two temperature conditions (5°C and 25°C). Samples were assayed initially and on the following days: 7, 15, 28, 45, 60, 91, 120, and 185. 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. The study showed that hydrocortisone concentrations did not go below 94% of the label claim (initial drug concentration) at both temperatures studied. No microbial growth was observed. Viscosity and pH values did not change significantly. This study demonstrates that hydrocortisone is physically, chemically, and microbiologically stable in SuspendIt for 185 days in the refrigerator and at room temperature, thus providing a viable, compounded alternative for hydrocortisone in a liquid dosage form, with an extended beyond-use date to meet patient needs.

Physicochemical and Microbiological Stability of Compounded Metronidazole Suspensions in PCCA SuspendIt.

Metronidazole is indicated for the treatment of trichomoniasis, amebiasis, and anaerobic bacterial infections. The dosage regimen of metronidazole needs to be individualized in the treatment of trichomoniasis, in patients with hepatic impairment, and in pediatric as well as geriatric patients. A review of the therapeutic uses of metronidazole 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 metronidazole currently exists. Metronidazole is commercially available only as 250-mg and 500-mg film-coated tablets. An extemporaneously compounded suspension from pure drug powder or commercial tablets would provide a convenient option to meet unique patient needs. The purpose of this study was to determine the physicochemical and microbiological stability of extemporaneously compounded metronidazole suspensions in PCCA 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 metronidazole concentrations to provide stability documentation over a bracketed concentration range for eventual use by compounding pharmacists. A robust stability-indicating ultra-performance liquid chromatographic assay for the determination of the chemical stability of metronidazole in PCCA SuspendIt was developed and validated. Suspensions of metronidazole were prepared in PCCA SuspendIt at 25-mg/mL and 50-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Samples were stored in plastic amber prescription bottles at two temperature conditions (5ÆC and 25ÆC). Samples were assayed initially and on the following time points (days): 7, 14, 28, 42, 59, 90, 122, and 180. Physical data such as pH, viscosity, and appearance were also noted. Microbiological stability was also 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. The study showed that metronidazole concentrations did not go below 97% of the label claim (initial drug concentration) at both temperatures studied. No microbial growth was observed. Viscosity and pH values also did not change significantly. This study demonstrates that metronidazole is physically, chemically, and microbiologically stable in PCCA SuspendIt for 180 days in the refrigerator and at room temperature, thus providing a viable, compounded alternative for metronidazole in a liquid dosage form, with an extended beyond-use-date to meet patient needs.

Physicochemical Stability of Compounded Allopurinol Suspensions in PCCA Base, SuspendIt.

Allopurinol is an orally administered inhibitor of xanthine oxidase used primarily in the treatment of hyperuricemia associated with gout. Allopurinol reduces serum and urinary uric acid concentrations. Its use should be individualized for each patient. The dosage of allopurinol to accomplish full control of gout and to lower serum uric acid to normal or near-normal levels varies with the severity of the disease, and needs to be flexible to permit precise, customized dose titration for individual patients. This flexibility is readily achieved using an oral liquid dosage form. However, no commercial liquid dosage form of allopurinol currently exists. Allopurinol is commercially available as 100-mg and 300-mg scored tablets. An extemporaneously compounded suspension from pure drug powder or commercial tablets would provide a convenient option to meet unique patient needs. The purpose of this study was to determine the physicochemical stability of extemporaneously compounded allopurinol 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 allopurinol concentrations to provide stability documentation over a bracketed concentration range for eventual use by compounding pharmacists. A robust stability-indicating ultra-performance liquid chromatography assay for the determination of the chemical stability of allopurinol in SuspendIt was developed and validated. Suspensions of allopurinol were prepared in SuspendIt at 10.0-mg/mL and 20.0-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Samples were stored in plastic amber prescription bottles at two temperature conditions (5°C and 25°C). Samples were assayed initially and at the following time points: 7 days, 14 days, 30 days, 45 days, 60 days, 88 days, 120 days, and 182 days. Physical data such as pH, viscosity, and appearance were also noted. 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. The study showed that allopurinol concentrations did not go below 93% of the label claim (initial drug concentration) at both temperatures studied. Viscosity and pH values also did not change significantly. This study demonstrates that allopurinol is physically and chemically stable in SuspendIt for 180 days in the refrigerator and at room temperature, thus providing a viable, compounded alternative for allopurinol in a liquid dosage form, with an extended beyond-use-date to meet patient needs.

Physicochemical Stability of Compounded Amlodipine Besylate Suspensions in PCCA Base, SuspendIt.

Amlodipine besylate is an antihypertensive agent recommended for the management of hypertension in children and adolescents. The commercially available 2.5-mg, 5-mg, and 10-mg amlodipine besylate tablets do not provide the necessary flexibility in dosing needed for treating children. This flexibility is readily achieved using an oral, liquid dosage form. However, no commercial liquid dosage form of amlodipine currently exists. An extemporaneously compounded suspension from pure drug powder or commercial tablets would provide a convenient option to meet unique patient needs. The purpose of this study was to determine the physicochemical stability of extemporaneously compounded amlodipine besylate 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 amlodipine besylate concentrations to provide stability documentation over a bracketed concentration range for eventual use by compounding pharmacists. A robust stabilityindicating high-performance liquid chromatographic assay for the determination of the chemical stability of amlodipine besylate in SuspendIt was developed and validated. Suspensions of amlodipine were prepared in SuspendIt at 0.5-mg/mL and 10.0-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Samples were stored in plastic amber prescription bottles at two temperature conditions (5°C and 25°C). Samples were assayed initially, and at the following time points: 7 days, 14 days, 29 days, 46 days, 60 days, 90 days, 120 days, and 180 days. Physical data such as pH, viscosity, and appearance were also noted. 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. This study demonstrates that amlodipine besylate is physically and chemically stable in SuspendIt for 90 days in the refrigerator and 7 days at room temperature, retaining 90% of the label claim (initial drug concentration) at both concentrations. The pH values did not change significantly. The viscosity of the refrigerated samples at both concentrations decreased slightly, while that of the room temperature samples showed a marked increase in viscosity. This study provides a viable, compounded alternative for amlodipine in a liquid dosage form, with an adequate beyond-use-date to meet patient needs. The study further provides stability documentation over a bracketed amlodipine concentration range of 0.5 mg/mL to 10.0 mg/mL, allowing compounding pharmacists more flexibility in customizing their formulations.

Physicochemical Stability of Compounded Naltrexone Hydrochloride Solutions in PCCA Base SuspendIt.

Naltrexone hydrochloride is an orally active narcotic antagonist used to facilitate rapid transition from methadone maintenance. The dosing schedule of naltrexone hydrochloride in detoxification protocols needs to be flexible to permit precise, customized dose titration for individual patients. This flexibility is readily achieved using an oral liquid dosage form. However, no commercial liquid dosage form of naltrexone hydrochloride currently exists. Naltrexone hydrochloride is commercially available as a scored, filmcoated, 50-mg tablet. An extemporaneously compounded suspension from pure drug powder or commercial tablets would provide a convenient option to meet unique patient needs. The purpose of this study was to determine the physicochemical stability of extemporaneously compounded naltrexone hydrochloride solutions in 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 naltrexone hydrochloride concentrations to provide stability documentation over a bracketed concentration range for eventual use by compounding pharmacists. A robust stability-indicating HPLC assay for the determination of the chemical stability of naltrexone hydrochloride in SuspendIt was developed and validated. Solutions of naltrexone hydrochloride were prepared in SuspendIt at 0.5-mg/mL and 5.0-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Samples were stored in plastic, amber prescription bottles at two temperature conditions (5°C and 25°C). Samples were assayed initially, and at the following time points: 7 days, 14 days, 29 days, 44 days, 61 days, 90 days, 120 days, and 180 days. Physical data such as pH, viscosity, and appearance were also noted. All measurements were obtained in triplicate. A stable extemporaneous preparation is defined as one that retains at least 90% of the initial drug concentration throughout the sampling period. The study showed that naltrexone hydrochloride concentrations did not go below 94% of the label claim (initial drug concentration) at both temperatures studied. Viscosity and pH values also did not change significantly. This study demonstrates that naltrexone hydrochloride is physically and chemically stable in SuspendIt for 180 days in the refrigerator and at room temperature, thus providing a viable, compounded alternative for naltrexone hydrochloride in a liquid dosage form, with an extended beyond-use date to meet patient needs.

Stability of Compounded Ursodiol Suspensions in PCCA Base, SuspendIt.

Ursodiol (ursodeoxycholic acid) is a nontoxic, naturally occurring bile acid that constitutes 1% to 2% of human bile. It suppresses hepatic synthesis of cholesterol, aids in the desaturation of biliary cholesterol, and aids in the dissolution of cholesterol gallstones. Ursodiol is commercially available as a 300-mg capsule and a 250-mg tablet. However, no commercial liquid dosage form of ursodiol exists. An extemporaneously compounded suspension from pure drug powder or commercial tablets/capsules would provide an alternative option to meet unique patient needs. The purpose of this study was to determine the physicochemical stability of extemporaneously compounded ursodiol suspensions in 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. It thickens upon standing to minimize settling of any insoluble drug particles and becomes fluid upon shaking to allow convenient pouring during administration to the patient. The study design included two ursodiol 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 ursodiol in SuspendIt was developed and validated. Suspensions of ursodiol were prepared in SuspendIt at 50-mg/mL and 100-mg/mL concentrations, selected to represent a range within which the drug is commonly dosed. Samples were stored in plastic amber prescription bottles at two temperature conditions (5°C and 25°C). Samples were assayed initially and at the following time points: 7 days, 14 days, 30 days, 42 days, 59 days, 91 days, 120 days, and 181 days. Physical data such as pH, viscosity, and appearance were also noted. 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. The study showed that ursodiol concentration did not go below 97% of the label claim (initial drug concentration) at both temperatures studied. Viscosity and pH values also did not change significantly. This study demonstrates that ursodiol is physically and chemically stable in SuspendIt for 181 days in the refrigerator and at room temperature, thus providing a viable, compounded alternative for ursodiol in a liquid-dosage form, with an extended beyond-use-date to meet patient needs.