Pharmacokinetics of Diclofenac and Hydroxypropyl-ß-Cyclodextrin (HPßCD) Following Administration of Injectable HPßCD-Diclofenac in Subjects With Mild to Moderate Renal Insufficiency or Mild Hepatic Impairment.

Given their established analgesic properties, nonsteroidal anti-inflammatory drugs (NSAIDs) represent an important postoperative pain management option. This study investigated: (1) the effects of mild or moderate renal insufficiency and mild hepatic impairment on the pharmacokinetics (PK) of diclofenac and hydroxypropyl-ß-cyclodextrin (HPßCD) following administration of the injectable NSAID HPßCD-diclofenac; and (2) the PK of HPßCD following administration of HPßCD-diclofenac and intravenous itraconazole formulated with HPßCD in healthy adults. Diclofenac clearance (CL) and volume of distribution (Vz ) tended to increase with decreasing renal function (moderate insufficiency versus mild insufficiency or healthy controls). Regression analysis demonstrated a significant relationship between Vz (but not CL or elimination half-life, t½ ) and renal function. HPßCD CL was significantly decreased in subjects with renal insufficiency, with a corresponding increase in t½ . There were no significant differences in diclofenac or HPßCD PK in subjects with mild hepatic impairment versus healthy subjects. Exposure to HPßCD in healthy subjects following HPßCD-diclofenac administration was ∼12% of that with intravenous itraconazole, after adjusting for dosing schedule and predicted accumulation (<5% without adjustment). With respect to PK properties, these results suggest that HPßCD-diclofenac might be administered to patients with mild or moderate renal insufficiency or mild hepatic impairment without dose adjustment (NCT00805090).

Development and validation of sensitive LC-MS/MS assays for quantification of HP-ß-CD in human plasma and CSF.

2-Hydroxypropyl-ß-cyclodextrin (HP-ß-CD), a widely used excipient for drug formulation, has emerged as an investigational new drug for the treatment of Niemann-Pick type C1 (NPC1) disease, a neurodegenerative cholesterol storage disorder. Development of a sensitive quantitative LC-MS/MS assay to monitor the pharmacokinetics (PKs) of HP-ß-CD required for clinical trials has been challenging owing to the dispersity of the HP-ß-CD. To support a phase 1 clinical trial for ICV delivery of HP-ß-CD in NPC1 patients, novel methods for quantification of HP-ß-CD in human plasma and cerebrospinal fluid (CSF) using LC-MS/MS were developed and validated: a 2D-LC-in-source fragmentation-MS/MS (2D-LC-IF-MS/MS) assay and a reversed phase ultra performance LC-MS/MS (RP-UPLC-MS/MS) assay. In both assays, protein precipitation and "dilute and shoot" procedures were used to process plasma and CSF, respectively. The assays were fully validated and in close agreement, and allowed determination of PK parameters for HP-ß-CD. The LC-MS/MS methods are ∼100-fold more sensitive than the current HPLC assay, and were successfully employed to analyze HP-ß-CD in human plasma and CSF samples to support the phase 1 clinical trial of HP-ß-CD in NPC1 patients.