2026-07-09, Thu.

Top Stories       Business       Culture & Life       Science & Technology       World

Lecture

Notification

 

NEWS > Science & Technology


New Polymorph of Indomethacin Discovered

Date: 2026-07-09

TOKYO -- Rigaku Corporation, a global solution partner in X-ray analytical systems and a group company of Rigaku Holdings Corporation (headquarters: Akishima, Tokyo; CEO: Jun Kawakami; “Rigaku”), announced that the results of a joint research project conducted with Shionogi & Co., Ltd., JEOL Ltd., and Meiji Pharmaceutical University have been published in Crystal Growth & Design, a world-renowned international journal in the field of crystallography.

This research uncovered a previously unknown polymorph (κ-form) of indomethacin, a widely used pain relief and anti-inflammatory drug. The research team also conducted structural analysis and characterization of the newly identified crystal form. Although indomethacin has been the subject of pharmaceutical research for years, the discovery of a new polymorph is an extremely rare event, making this discovery highly significant for both crystallography and pharmaceutical research.

Crystal polymorphs are different crystal structures formed from the same chemical compound, resulting in variations in properties such as solubility and stability. Differences among polymorphs are an important research theme in pharmaceutical development, as they affect drug quality and manufacturability. The newly discovered polymorph is expected to deepen understanding in future pharmaceutical research.

Structural analysis in this research project was carried out using the MicroED method with XtaLAB Synergy-ED, a fully integrated electron diffractometer jointly developed by Rigaku and JEOL Ltd. The newly discovered polymorph consisted of extremely small crystals measuring less than one micrometer, making structural analysis difficult using conventional X-ray diffraction methods. By leveraging MicroED technology, the research team successfully determined the crystal structure of the new κ-form.

Furthermore, analysis of molecular arrangements within the crystal revealed intermolecular interactions contributing to the stability of the polymorph. These findings demonstrate the effectiveness of MicroED for discovering previously undetectable polymorphs and highlight its potential to improve pharmaceutical quality and accelerate drug development.



 to the Top List of News

New Polymorph of Indomethacin Discovered
NTT DATA Expands Collaboration with Google Cloud to Accelerate Enterprise AI from Pilots to Production
IQM Announces Novel Quantum Error Correction Approach Toward Fault-Tolerant Quantum Computing
C.H. Robinson Unveils First AI to Continuously Assess, Improve, and Operate Global Supply Chains Worldwide
Shilpa Medicare and Gate2Brain Sign Strategic Equity Partnership to Advance First-in-Class Brain Cancer Therapy
Interactive Brokers Integrates AI into Client Portfolios - Informed by Agentic Technology, Controlled by the Client
Global Smartphone Average Selling Price to Reach $565 in 2026

 

Motive Powers Latin America¡¯s Next Wave of Mobile Innovation
Semiconductor Market Tops $300bn in 1Q26 as Memory Sector Reshapes His...
SLB OneSubsea and Subsea7 Sign Collaboration Agreement with PETRONAS S...
Blue Cloud Ventures Announces Final Close of Blue Cloud Ventures V
NetApp and Cisco Collaboration Strengthens Defense-in-Depth for Enterp...
AAHI¡¯s SLA-SE Adjuvant Drives Lilly¡¯s Curevo Shingles Vaccine Acquis...
comforte Launches TAMUNIO Assure to Modernize HPE Nonstop Cryptography...
Semiconductor Market Surpasses $300bn Quarterly Revenue in 1Q26
SES Launches Multi-Orbit Satellite Connectivity on Mexico¡¯s Viva
Biocytogen Unveils AI-Powered RenSuper Platform and First Fully Automa...

 

 

60, Gamasanro 27gil, Guro-gu, Seoul, Korea, e-mail: news@newsji.com

Copyright, NEWSJI NEWSGROUP NETWORK.