Future Journal of Pharmaceutical Sciences (Nov 2023)
IVIVC assessment, pharmacokinetic evaluation, and X-ray radiography mapping of Novel Parteck® SRP 80 and hypromellose-loaded LTD4 receptor antagonist chronosystem
Abstract
Abstract Background The current research aims to determine the pharmacokinetic parameters, mucoadhesive strength, and IVIVC correlation of the novel chronotherapeutic drug delivery system of montelukast sodium (MTS) loaded Parteck® SRP80 and hypromellose system. To accomplish this, an HPLC method was developed which is highly sensitive, precise, and rapid for quantifying pure MTS in rabbit plasma. Mucoadhesive strength and time-dependent mobility of developed formulation were established by ex-vivo study and X-ray radiography, respectively. Using a fraction of drug absorbed (FDA) and a fraction of drug released (FDR), Level-A in-vitro in-vivo correlation (IVIVC) was developed. According to ICH Q1A (R2) standards, stability experiments were conducted for 180 days. Result MTS retention time came as 3.971 min with a mobile phase of methanol: acetonitrile: 0.2 mM sodium acetate buffer (5:90:5). In-vitro dissolution showed pulsatile release of the drug up to 24 h with two lag phases. The in-vivo study showed a C max of 490.16 ± 33.95 ng/ml, T max of 9 h, and MRT of 14.08 ± 1.21 h. The correlation coefficient of 0.9899 confirmed the level-A IVIVC. Uncoated matrix tablet of Parteck® SRP 80 displayed mucoadhesive strength 1.25-fold higher than hypromellose. Stability experiments found no significant changes in drug content, physical appearance, and cumulative percentage release with a similarity factor of 87–90. Conclusion A single oral dose in-vivo study proved the sustained release of the drug for 24 h with satisfactory mucoadhesive strength. Moreover, X-ray radiography has confirmed the time-dependent presence of formulation at the needed spot. This study fulfilled all the requirements for chronotherapy of asthma and can be scaled up in the future. Graphical abstract
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