The preparation, characterization, and stability of lyophilized liposome-based formulation of mitoxantrone was investigated. Mitoxantrone was entrapped inside small, unilamellar liposomes composed of dioleoylphosphocholine (DOPC), cholesterol, and cardiolipin. The mean vesicle size and drug entrapment efficiency of the liposomes were approximately 150 nm and approximately 99%, respectively. Less than 1% of drug was lost and mean vesicle size remained unchanged after sterile filtration. The pre-lyophilized (pre-lyo) formulations were characterized by a differential scanning calorimetric (DSC) method. Results showed that the glass transition temperatures (Tg) increased as the molar ratios of sucrose:lipid and trehalose:lipid in the formulations were increased. The maximum Tg' of the pre-lyo formulations containing 10:1 sucrose:lipid and trehalose:lipid molar ratios were -37C and -41C, respectively. After reconstitution of the lyophilized cake of the sucrose-containing formulation, the mean vesicle size was comparable to pre-lyo liposome size. In vitro release studies showed that less than 2% of mitoxantrone was released after an extensive dialysis against phosphate buffered saline (PBS) at 37C, indicating that the mitoxantrone was highly associated and retained inside the liposomes. Short-term stability studies of the sucrose-containing formulations revealed that the reconstituted and eight-fold diluted formulations were stable for up to 8 hours at room temperature. Long-term stability studies of lyophilized liposomal mitoxantrone showed that the lyophilized formulation was stable for up to 13 months after storage at refrigerated condition.
The pharmacokinetic profile of the melanotropic peptide, melanotan-II (MT-II), was determined in rats following a 0.3 mg kg-1 intravenous dose. Regression analysis of the plasma MT-II concentrations determined using HPLC and bioassay methods indicated the existence of a significant linear correlation (r = 0.90, p < 0.001). The plasma concentration versus time plots determined using the two assay methods yielded biphasic disposition profiles that were essentially superimposable. The following pharmacokinetic parameters were assessed from plasma concentration versus time data using both methods: Cmax, AUC, CLs, t1/2 beta, MRT, Vd beta, and Vss. Statistical comparison showed that the parameters measured by each method were not significantly different (at the 0.05 level) except for t1/2 beta, MRT and Vss. The presence of even one aberrant data point in the beta-phase can significantly influence t1/2 beta when only a few data points are available in the beta-phase. Since MRT and Vss were calculated from t1/2 beta it is not surprising that these two parameters also differed between methods.
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