通过干法制粒提高阿奈替林胶囊的化学稳定性和生物利用度：应对含碳酸氢钠临床开发制剂中的稳定性挑战

Enhancing Chemical Stability and Bioavailability of Aneratrigine Capsules via Dry Granulation: Addressing Stability Challenges in Sodium Bicarbonate-Containing Formulations for Clinical Development.

作者信息

Cha Kwan-Ik, Kim Ga-Eon, Seol Ji-Hyung, Kim Dong-Woo, Lee Seungbeom

机构信息

New Drug Formulation Team, iN Therapeutics Co., Ltd., Yongin-si 17028, Republic of Korea.

Nonclinical Research Center, iN Therapeutics Co., Ltd., Yongin-si 17028, Republic of Korea.

出版信息

Pharmaceutics. 2025 Aug 12;17(8):1047. doi: 10.3390/pharmaceutics17081047.

DOI:10.3390/pharmaceutics17081047

PMID:40871068

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12388960/

Abstract

: Aneratrigine, a potent selective Nav1.7 inhibitor, faced challenges in developing a clinically viable oral formulation due to its poor aqueous solubility in acidic gastric conditions (0.06 mg/mL at pH 1.2), leading to limited bioavailability in Phase 1 studies. To address this, a capsule formulation containing sodium bicarbonate (NaHCO) was developed to enhance dissolution via in situ pH modulation. However, production-scale wet granulation led to stability issues, such as capsule content discoloration and excessive degradant formation, attributed to NaHCO decomposition under thermal and moisture stress. This raised the content pH and triggered degradation products not seen in initial compatibility tests. Consequently, dry granulation was adopted to minimize heat and moisture exposure. The dry granulation process proved scalable, maintaining chemical integrity across laboratory (1.5 kg), pilot (5.4 kg), and commercial (25.9 kg) batches. The optimized formulation showed enhanced stability (total impurities < 0.05%) and improved dissolution (>80% at 30 min, pH 4.0). This work establishes a robust manufacturing platform that overcomes stability challenges in alkalizer-containing formulations, facilitating the successful advancement of aneratrigine to Phase 2a and providing a model for developing heat- and moisture-sensitive compounds.

摘要

阿那瑞替林是一种强效的选择性Nav1.7抑制剂，由于其在酸性胃环境中的水溶性较差（pH 1.2时为0.06 mg/mL），在开发临床上可行的口服制剂时面临挑战，导致在1期研究中的生物利用度有限。为了解决这个问题，开发了一种含有碳酸氢钠（NaHCO）的胶囊制剂，通过原位pH调节来提高溶解度。然而，生产规模的湿法制粒导致了稳定性问题，如胶囊内容物变色和过度降解产物的形成，这归因于NaHCO在热和湿度胁迫下的分解。这提高了内容物的pH值，并引发了在初始相容性试验中未见的降解产物。因此，采用干法制粒以尽量减少热和湿度暴露。干法制粒工艺证明具有可扩展性，在实验室（1.5 kg）、中试（5.4 kg）和商业（25.9 kg）批次中均保持了化学完整性。优化后的制剂显示出增强的稳定性（总杂质<0.05%）和改善的溶出度（在pH 4.0、30分钟时>80%）。这项工作建立了一个强大的制造平台，克服了含碱化剂制剂中的稳定性挑战，促进了阿那瑞替林成功进入2a期，并为开发对热和湿度敏感的化合物提供了一个模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5ffb/12388960/5a0944742573/pharmaceutics-17-01047-g0A1.jpg

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通过干法制粒提高阿奈替林胶囊的化学稳定性和生物利用度：应对含碳酸氢钠临床开发制剂中的稳定性挑战

Enhancing Chemical Stability and Bioavailability of Aneratrigine Capsules via Dry Granulation: Addressing Stability Challenges in Sodium Bicarbonate-Containing Formulations for Clinical Development.

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