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Isotropic medium chain mono- and diglyceride systems : vehicles for subcutaneous injection in sheep

Purpose: To develop an approach to formulating an injectable solution containing both hydrophilic and lipophilic drugs for subcutaneous administration. Based on the literature survey, isotropic medium chain mono-and diglyceride (MCMDG) systems were chosen for study. For this purpose, analytical methods were developed and validated. In vitro assessments of the MCMDG systems, and in vitro release and in vivo studies were conducted.
Methods: The phase diagrams of the isotropic MCMDG systems were constructed with systems comprising two and three components. The isotropic region was examined by visual inspection and confirmed using polarized light microscopy. Viscosities of formulations were measured. The validated HPLC assay methods were developed for determination of levamisole and abamectin in liquid formulations and in sheep plasma. The HPLC assay was capable of evaluating stability of abamectin and levamisole in liquid formulations. Solubilities of levamisole hydrochloride or levamisole phosphate and abamectin were determined in the isotropic MCMDG formulations using a HPLC assay method. Stabilities of levamisole phosphate and abamectin were conducted in the isotropic MCMDG formulations at 60�C for 10 days. In vitro release studies for levamisole phosphate were carried out for selected formulations using modified Franz diffusion cells. Based on stability and in vitro release studies, one formulation (MCMDG/propylene glycol (PG):glycerol formal (GF), 20/20:60 % w/w) was selected for a preliminary in vivo study. The selected MCMDG/PG:GF (20/20:60) formulation containing both levamisole phosphate and abamectin was injected subcutaneously into sheep, and the injection site was examined after subcutaneous injection. Pharmacokinetic profiles were determined. A correlation between in vitro fraction released (FR) and in vivo fraction absorbed (FA) for levamisole phosphate from the MCMDG/PG:GF (20/20:60) formulation was assessed.
Results: The isotropic systems of the MCMDG systems containing two or three components were characterized through phase diagrams and viscosity. The solubility of the levamisole hydrochloride in the isotropic MCMDG/sesame oil/water formulations was higher in the absence of abamectin than in combination with abamectin. Solubility of levamisole phosphate was higher in the MCMDG system containing GF or PG compared to the MCMDG/SO/water system. The isotropic MCMDG/PG:GF systems allowed preparations of levamisole phosphate/abamectin solution dose forms containing more than the usual dosage of levamisole. Stability of both levamisole phosphate and abamectin in MCMDG/PG:GF formulations was higher compared with MCMDG/PG:GF/water formulations. Levamisole phosphate degraded in the presence or absence of abamectin in the MCMDG/PG:GF (20/20:60) formulation at 60�C for 10 days. Abamectin alone was found to be stable in the formulation at 60�C for 10 days. In vitro release of levamisole phosphate from water and the MCMDG formulations tested displayed first-order kinetics. Water from the receptor compartment was observed to pass through the membrane into the donor compartment. Therefore, an advancing layer of turbidity occurred in the donor phase. A highly significant decrease in release rate of levamisole phosphate was obtained in MCMDG/GP:GF (20/20:60) formulation compared to water and the other formulations. Pharmacokinetic studies of subcutaneous injection of MCMDG/PG:GF 20/20:60) formulation showed the tmax values of 2.2 h and 4.2 days for levamisole phosphate and abamectin, respectively. The Cmax was 0.94 [mu]g/ml for levamisole phosphate and 6.24 ng/ml for abamectin while the formulation displayed the AUC value was 5.2 [mu]g�h�ml⁻1 for levamisole phosphate and 84.7 ng�day�ml⁻1 for abamectin. No inflammatory reaction was observed at the injection site. Linear regression analysis showed that a significant relationship between the FR (in vitro) and FA for the subcutaneously injected formulation.
Conclusion: The study carried out in this thesis introduces a new approach to formulating an injectable solution of the isotropic MCMDG/PG:GF systems containing both levamisole (hydrophilic drug) and abamectin (lipophilic drug) for subcutaneous administration, and presents the development of the HPLC assay methods for determination of levamisole and abamectin in liquid MCMDG formulations and plasma, in order to investigate in vitro and in vivo release from the isotropic MCMDG/PG:GF formulations. The MCMDG/PG:GF formulations may represent an alternative to the more traditional formulations for both lipophilic and hydrophilic drugs.

Identiferoai:union.ndltd.org:ADTP/266571
Date January 2005
CreatorsSari, Peyami, n/a
PublisherUniversity of Otago. School of Pharmacy
Source SetsAustraliasian Digital Theses Program
LanguageEnglish
Detected LanguageEnglish
Rightshttp://policy01.otago.ac.nz/policies/FMPro?-db=policies.fm&-format=viewpolicy.html&-lay=viewpolicy&-sortfield=Title&Type=Academic&-recid=33025&-find), Copyright Peyami Sari

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