Long-term stability of esketamine in polypropylene syringes at 5 ± 3°C.

OBJECTIVE: Esketamine (Vesierra) is a molecule, used alone or in combination, to induce and maintain general anaesthesia and to relieve pain in emergency medicine. The aim of this study is to evaluate the long-term physicochemical stability of a 1 mg/mL solution of esketamine diluted in 0.9% sodium chloride (NaCl) and stored in polypropylene syringes at 5±3°C during 65 days (64+1 day at 22±3°C) and 72 hours at 22±3°C (room temperature), in order to centralise preparation under aseptic conditions in hospital pharmacy. METHODS: Ten syringes were prepared under aseptic conditions. Five syringes were stored at 22±3°C for 3 days, and the five others were stored at 5±3°C for 64 days (+ 1 day at room temperature). The stability was periodically investigated. Particle appearance or colour changes were checked by visual inspection. A research of crystals was performed under the microscope. pH was followed to assess its stability. The turbidity of the solutions was estimated by a measure of optical densities at 350, 410 and 550 nm. The molecule concentrations were measured by ultra-high performance liquid chromatography (UHPLC) coupled with a photodiode array detection (PDA), using a newly developed method. RESULTS: Based on microscopic examination, no crystals were observed, during the observation period. pH and absorbances at 350, 410 and 550 nm were also stable. Macroscopically, there was no change in colour and appearance of opacity, turbidity or precipitation. Statistical analysis indicates that 1 mg/mL esketamine solutions were chemically stable under these conditions, given that less than 5% of the solutions have lost more than 10% of their initial content during the study based on the prediction interval. CONCLUSIONS: One mg/mL solutions of esketamine hydrochloride are physically and chemically stable after production, for at least 72 hours at 22±3°C and 64 days at 5±3°C (+ 1 day at room temperature).

Evaluation of 30-days stability of morphine hydrochloride and clonidine at high and low concentrations in polypropylene syringes.

OBJECTIVES: Clonidine is an alpha-2 adrenoreceptor agonist and is frequently combined with opioids (ie, morphine hydrochloride (HCl)) for the management of chronic pain. In palliative care, the administration of clonidine and morphine HCl is recommended in case of tolerance effect. This study aimed to evaluate the physical and chemical stability of this admixture at high and low concentrations in 14 and 48 mL polypropylene syringes. METHODS: The stability of a low concentration admixture of clonidine (Catapressan 0.15 mg/mL, Boehringer Ingelheim, Germany) and morphine (morphine HCl 40 mg/mL, Sterop, Belgium) at 0.003 and 0.417 mg/mL, respectively, was evaluated by using five polypropylene syringes of 48 mL. The high concentration admixture consisted of 0.032 mg/mL clonidine and 4.286 mg/mL morphine HCl and was evaluated by using five polypropylene syringes of 14 mL. All syringes were stored for 30 days at 5°C±3°C. Periodic samples were visually and microscopically examined to observe any particle appearance or colour change. pH and absorbance at three wavelengths (350, 410 and 550 nm) were monitored. The concentrations were measured by ultra-high performance liquid chromatography-photodiode array detection. RESULTS: During the 30 days, there was no change in colour or appearance of opacity, turbidity or precipitation, and pH remained stable. The low and high concentration admixtures were considered chemically stable since the lower limit of the 90% CI remained superior to 90% of the initial concentration. Concentration measurements showed that the degradation rate was less than 1% over 10 days for each component in both admixtures. CONCLUSIONS: The admixture of clonidine and morphine HCl at low and high concentrations in polypropylene syringes appeared to be physically and chemically stable throughout the study period of 30 days at 5°C±3°C. In conclusion, the admixture can be prepared in advance under aseptic conditions by a centralised intravenous additive service in the pharmacy department.

Physical and Chemical Stability of Pharmaceutical Preparation of Bumetanide and Scopolamine.

Death rattle, which could often be associated with a pulmonary fluid overload, occurs in 25% to 90% of dying patients. The co-administration of scopolamine (anticholinergic drug) and bumetanide (loop diuretic) could be considered in order to avoid unnecessary fluid overload at end-stage of life. The objective of this study was to investigate the physical and chemical stabilities of the admixture bumetanide and scopolamine in order to prepare them in advance by a centralized intravenous additive service in-hospital pharmacy. The stability of the lowest (LOW) concentration was evaluated on five polypropylene syringes containing the admixture bumetanide (Burinex, 2 mg/4 mL) and scopolamine (0.25 mg/mL) at 41.67 µg/mL and 5.21 µg/mL. The highest (HIGH) concentration with 125 µg/mL of bumetanide and 31.25 µg/mL of scopolamine was evaluated on five polypropylene syringes. All syringes were stored for 18 days at 5°C ± 3°C. Periodic samples were visually and microscopically examined to observe any particle appearance or color change. The pH and absorbance at 3 wavelengths (350 nm, 410 nm, and 550 nm) were monitored. The concentrations were measured by ultra-high performance liquid chromatography-photodiode array detection, using a newly developed method. During the 18 days of test, there was no change in color or appearance of opacity, turbidity, or precipitation, and the pH remained stable. Mean concentrations of bumetanide and scopolamine at LOW and HIGH concentrations after 18 days remained statistically unchanged. The lower limits of the 95% confidence intervals of both molecules at LOW and HIGH concentrations remained higher than a 90% threshold of concentration, indicating the mixture was chemically stable. Degradation rates of bumetanide and scopolamine content at LOW and HIGH concentrations should not exceed a maximum of 0.70% every 10 days. This study was the first to show that the admixture of bumetanide and scopolamine is physically and chemically stable at two concentrations used in a palliative-care unit. This combination available in ready-to-use polypropylene syringes presents numerous advantages for patient's comfort and safety.