Regis Technologies Now Offers Solid State Chemistry

Regis Technologies, a contract development and manufacturing organization for small molecule active pharmaceutical ingredients, announces a new Solid State Chemistry service.

Photograph courtesy of Robert A. Carlton

​​​Regis Technologies, Inc. is excited to announce a new capability of Solid State Chemistry. The Solid State Chemistry service will provide salt, cocrystal, and polymorph screening and selection activities to provide suitable crystallization processes during all development phases for Regis’ Custom Pharma clients. Solid State Chemistry Director Dr. Ronald L. Mueller has developed a dedicated lab with state-of-the-art equipment for a team of experienced, solid state chemists and is now accepting projects.  

Regis Custom Pharma partners with pharmaceutical and biotechnology companies to advance their high-value intermediates and active pharmaceutical ingredients (APIs) from initial process development and scale-up through final validation and commercial manufacturing. APIs (organic molecules) have a propensity to crystallize in different solid state forms. Understanding and knowledge of these forms can establish robust API and formulation processes, mitigate risks and minimize problems, and, ultimately, reduce development timelines. 

Small molecule drug substances, when in the solid phase, could exist in different molecular arrangements and/or conformations within the crystalline lattice. These solid state forms are called polymorphs and exhibit polymorphism. Most organic molecules have the propensity to exhibit polymorphism. Drug substances with no molecular order in the solid phase are considered amorphous. They may also contain solvents and/or water in stoichiometric or non-stoichiometric amounts. These forms are also considered polymorphs of that drug substance. In the truest sense, polymorphs have the same molecular composition with different crystalline arrangements.

Different polymorphs have different physicochemical properties, e.g., spectroscopic, surface chemistry (solubility and stability), crystal habit or morphology (particle shape), packing, kinetic, thermodynamic, mechanical, etc. Sometimes these solid state properties may affect dissolution (a solid dissolving into a liquid medium) and/or bioavailability (i.e. the proportion of a drug in the body that has a physiological effect) of a drug product. Chemical and/or physical properties of the API known to affect the physiological and/or pharmacological activity of a drug product require specific tests, along with appropriate specifications for drug substances and/or products, to ensure the safety and efficaciousness of the drug products.

Since different polymorphs have different physicochemical properties, identifying a viable polymorph early during the drug development process reduces time to market and costs. Knowledge about the drug substance and drug product increase cumulatively during the development phase of the drug. By the time of the NDA or ANDA submission, the following must be known about the solid state properties of an API: (1) whether it exhibits polymorphism, (2) do multiple polymorphs exist and do the undesired polymorphs affect dissolution and/or bioavailability, and (3) whether various particle size distributions of the material influence dissolution and/or bioavailability of the drug product. Information about all polymorphs, including solid state properties relevant to the manufacturing process of the drug substance and drug product, must be understood. If required, appropriate tests and specifications for relevant polymorphs must be established for the drug substance and/or drug product.

If an API does exhibit polymorphism, it is critical to understand if the undesired polymorphs adversely affect the dissolution and/or bioavailability of the desired polymorph. It is also important to understand if there is any potential that the desired polymorph would change during manufacturing and/or storage of it, e.g. different polymorph, particle size distribution and/or chemically. Identifying the most thermodynamically stable polymorph is routinely the objective for Solid State Chemistry screening activities. 

Follow Regis on LinkedIn to read more articles in a solid state series, which will describe how identification is completed, including techniques used in Solid State Chemistry for the determination of physicochemical properties. Paraphrasing Dr. Walter McCrone, the number of known polymorphs is directly related to the amount of time discovering them.

To learn more about Regis' custom manufacturing and development services, visit registech.com. 

ABOUT REGIS TECHNOLOGIES: Regis Technologies, Inc. partners with pharmaceutical and biotechnology companies to help expedite their drug candidates to market. Regis has the necessary technical and operational capabilities to fully support its clients' preclinical and clinical API needs. We offer a full range of services to support the development of our clients' lead molecules through commercialization, including process research and development, analytical and stability services, CGMP API manufacturing, and preparative chromatographic separations. With extensive organic expertise and collegiate collaborations, we also offer an innovative line of proprietary chromatography products sold throughout the world. Regis is privately owned and operated and has been in business in the Chicago area since 1956. 

Contact Information:
Kristine Biederer, Marketing & Communications Manager
Regis Technologies, Inc.
847-679-6000, ext. 675
kbiederer@registech.com 
www.registech.com

Source: Regis Technologies

About Regis Technologies

Regis Technologies is a CDMO focused on small molecule, active pharmaceutical ingredients. They provide synthesis, analytical, and manufacturing services to pharmaceutical and biotechnology companies from development through commercialization.

Regis Technologies
8210 Austin Avenue
Morton Grove, IL
60053

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