Development and application of amphotericin B immunoassay for pharmacokinetic studies and therapeutic drug monitoring in critically ill patients.

Amphotericin B (ATB) is a broad spectrum antibiotic used to combat severe systemic fungal and protozoan infections. Existing and new ATB formulations designed to address the problem of poor solubility and side effects of ATB require pharmacokinetic (PK) studies and dosing controls, especially in critically ill patients. Given that, the present study was devoted to development of competitive immunoassay of ATB and its testing on real human serum samples. A novel immunogen design was based on alternative ATB carboxyl-mediated conjugation to tetanus toxoid (TTd). The resulting conjugates retained antifungal (C.albicans) activity, which indicates the preservation and spatial availability of the ergosterol-binding site, bioactive polyene epitope. Antibody generated against click reaction product, TTd-ATB(cuaac), was able to recognize a group of polyenes ATB, nystatin, natamycin and deoxycholate ATB in heterologous ELISA as 100%, 255%, 99% and 70%, respectively. The sensitivity (IC50), detection limit (IC10) and dynamic range of assay (IC20-IC80) were 6.0, 0.1 and 0.6-46 ng/mL, respectively, and made it possible to quantify total and unbound ATB in the therapeutic range of concentrations in serum. ATB recovery from spiked serum samples was in the range of 95-106% and unbound ATB fractions in ultrafiltrates were about 12%. PK parameters were estimated in single COVID-19 patient with secondary lung Rhizopus microspores infection who was treated with ATB and received veno-venous extracorporeal membrane oxygenation.

Development of ELISA formats for polymyxin B monitoring in serum of critically ill patients.

Treating infections in critically ill patients often requires the use of last-line antibacterial drugs such as polymyxins with a narrow therapeutic window and high toxicity. In critically ill patients, the drug pharmacokinetics changes significantly, and as a result, the antibiotic concentrations in blood and infection foci become suboptimal, which leads to therapeutic failures or toxic manifestations. For timely dosage adjustments, a competitive ELISA-based method using antibodies to polymyxin В (PMB) was developed. Among the several considered assays, a direct antibody-coated format was selected for its short duration (1.5 h) and the best agreement with the LC-MS/MS data (R2 = 98 %). The assay dynamic measurement range (IC20-IC80) could be substantially shifted by changing the ratio of immunoreagents. To conveniently measure the therapeutic range of PMB concentrations, it was adjusted to 5.0-192 ng/mL, allowing the samples to be analyzed after a simple 100-fold dilution with the assay buffer. The ELISA sensitivity expressed in half-inhibition concentration (IC50) and the limit of detection were 30.6 and 1.8 ng/mL, respectively. The assay cross-reactivity towards the related analogue colistin (COL) was 95 %, and this compound could also be adequately quantified by the same assay. The PMB and COL recovery from the spiked serum samples was similar and constituted 98-109 %. The trial drug monitoring was carried out in 3 patients with Gram-negative sepsis, and the established pharmacokinetic profiles of PMB revealed the necessity for individual dosage adjustment.