Rigaku Discovers New Polymorph (κ-form) of Indomethacin
Rigaku, in collaboration with Shionogi & Co., Ltd., JEOL Ltd., and Meiji Pharmaceutical University, has discovered a new crystalline polymorph (κ-form) of the analgesic drug indomethacin. This breakthrough demonstrates the effectiveness of MicroED technology in analyzing extremely small crystals and is expected to contribute to improved quality and efficiency in pharmaceutical development.
📋 Article Processing Timeline
- 📰 Published: June 9, 2026 at 10:00
- 🔍 Collected: June 9, 2026 at 10:29 (28 min after Published)
- 🤖 AI Analyzed: June 12, 2026 at 16:52 (78h 23m after Collected)
Rigaku Corporation, a group company of Rigaku Holdings and a global solution partner for X-ray analytical instruments, is pleased to announce that research results, jointly conducted with Shionogi & Co., Ltd., JEOL Ltd., and Meiji Pharmaceutical University, have been published in the world-renowned academic journal "Crystal Growth & Design" in the field of crystallography.
▲Cover of "Crystal Growth & Design" June 2026 issue (featuring this research)
This research involved the discovery of a new crystalline polymorph (κ-form) of "indomethacin," a widely used analgesic and anti-inflammatory drug, followed by its structural analysis and characterization. Although indomethacin has been studied for many years, the discovery of a new crystalline polymorph is extremely rare, and this achievement holds significant importance for both crystallography and pharmaceutical research.
Crystalline polymorphism refers to a state where a substance with the same chemical composition exhibits different properties, such as solubility and stability, due to differences in crystal structure. Variations in crystalline polymorphs affect drug quality and ease of manufacturing, making it a crucial research topic in pharmaceutical development. The newly discovered crystalline polymorph is expected to deepen the understanding of such pharmaceutical research.
In this study, structural analysis was performed using the MicroED method with the "XtaLAB Synergy-ED," an integrated electron diffraction platform jointly developed by Rigaku and JEOL. The newly discovered polymorph had extremely small crystal sizes, less than 1 micrometer, making structural analysis difficult with conventional X-ray diffraction. However, structural analysis was successfully achieved using this instrument.
Furthermore, by examining the arrangement of molecules within the crystals, the intermolecular interactions contributing to the stabilization of this polymorph were elucidated. This achievement demonstrates the effectiveness of MicroED in exploring new crystalline polymorphs and is expected to be applied to improve drug quality and development efficiency.
【Paper Title】
“Discovery of a New Polymorph, κ-form of Indomethacin”
【Journal】
Crystal Growth & Design
【DOI】
https://doi.org/10.1021/acs.cgd.5c01534
【Collaborating Institutions】
Shionogi & Co., Ltd.
https://www.shionogi.com/jp/ja/
JEOL Ltd.
https://www.jeol.co.jp/
Meiji Pharmaceutical University
https://www.my-pharm.ac.jp/
【About Rigaku Group】
The Rigaku Group is a group of engineers driving society forward with advanced analytical technologies, including X-ray analysis as its core and thermal analysis. Since its founding in 1951, as a solution partner for industrial and research analysis, it has been growing together with customers in 136 countries and regions. It boasts an extremely high share in Japan, with overseas sales accounting for about 70%. The application fields are expanding daily, from semiconductors, electronic materials, batteries, and environment/energy to life sciences. Over 2,000 employees worldwide are working to realize innovation with the mission "Changing the world with the power of sight." For more information, please visit rigaku-holdings.com.
▲Cover of "Crystal Growth & Design" June 2026 issue (featuring this research)
This research involved the discovery of a new crystalline polymorph (κ-form) of "indomethacin," a widely used analgesic and anti-inflammatory drug, followed by its structural analysis and characterization. Although indomethacin has been studied for many years, the discovery of a new crystalline polymorph is extremely rare, and this achievement holds significant importance for both crystallography and pharmaceutical research.
Crystalline polymorphism refers to a state where a substance with the same chemical composition exhibits different properties, such as solubility and stability, due to differences in crystal structure. Variations in crystalline polymorphs affect drug quality and ease of manufacturing, making it a crucial research topic in pharmaceutical development. The newly discovered crystalline polymorph is expected to deepen the understanding of such pharmaceutical research.
In this study, structural analysis was performed using the MicroED method with the "XtaLAB Synergy-ED," an integrated electron diffraction platform jointly developed by Rigaku and JEOL. The newly discovered polymorph had extremely small crystal sizes, less than 1 micrometer, making structural analysis difficult with conventional X-ray diffraction. However, structural analysis was successfully achieved using this instrument.
Furthermore, by examining the arrangement of molecules within the crystals, the intermolecular interactions contributing to the stabilization of this polymorph were elucidated. This achievement demonstrates the effectiveness of MicroED in exploring new crystalline polymorphs and is expected to be applied to improve drug quality and development efficiency.
【Paper Title】
“Discovery of a New Polymorph, κ-form of Indomethacin”
【Journal】
Crystal Growth & Design
【DOI】
https://doi.org/10.1021/acs.cgd.5c01534
【Collaborating Institutions】
Shionogi & Co., Ltd.
https://www.shionogi.com/jp/ja/
JEOL Ltd.
https://www.jeol.co.jp/
Meiji Pharmaceutical University
https://www.my-pharm.ac.jp/
【About Rigaku Group】
The Rigaku Group is a group of engineers driving society forward with advanced analytical technologies, including X-ray analysis as its core and thermal analysis. Since its founding in 1951, as a solution partner for industrial and research analysis, it has been growing together with customers in 136 countries and regions. It boasts an extremely high share in Japan, with overseas sales accounting for about 70%. The application fields are expanding daily, from semiconductors, electronic materials, batteries, and environment/energy to life sciences. Over 2,000 employees worldwide are working to realize innovation with the mission "Changing the world with the power of sight." For more information, please visit rigaku-holdings.com.
FAQ
What is the main significance of this discovery?
The discovery of a new crystalline polymorph of the analgesic indomethacin and the demonstration of the effectiveness of MicroED technology for analyzing microcrystals. This contributes to the efficiency and quality improvement of pharmaceutical development.
What is MicroED technology?
It is a structural analysis technology using an integrated electron diffraction platform jointly developed by Rigaku and JEOL, capable of analyzing microcrystals smaller than 1 micrometer.
Why are crystalline polymorphs important in drug development?
Differences in crystalline polymorphs affect drug solubility, stability, and ease of manufacturing, making them crucial factors for drug quality and efficacy.
How will this research be useful in the future?
It is expected to be applied to improve drug quality and development efficiency, potentially accelerating the development of new pharmaceuticals.
Who were the collaborating institutions?
Shionogi & Co., Ltd., JEOL Ltd., and Meiji Pharmaceutical University.