MilliporeSigma, the U.S. and Canada Life Science business of Merck KGaA, Darmstadt, Germany, today announced a $76 million expansion of its ADC manufacturing capabilities and capacity at its Bioconjugation Center of Excellence facility in St. Louis, Missouri. This investment will triple existing capacity and enhance the company’s contract development and manufacturing organization (CDMO) offering, reinforcing its commitment to clients and patients.
The investment represents a critical step in the company’s ongoing growth journey to partner with new and existing clients as they advance their drug development pipelines. With additional capacity and by scaling utilities and enhancing Process and Analytical Development (PAD) labs, MilliporeSigma will provide industry-leading support for early-stage and commercial bioconjugates. The company’s goal is to ensure clients can bring their innovations to market more effectively and with shorter turnaround times.
The ADC capacity expansion project will:
- Upgrade 34,000 square feet to benefit the Process and Analytical Development, Quality Control, Research and Development, Manufacturing, and Logistics departments.
- Add new labs, a dedicated manufacturing buffer preparation facility, and a cold storage and a GMP-controlled room temperature (CRT) warehouse that will be located close to the existing facility.
Building on its reputation as the first commercially approved ADC CDMO in North America, the Life Science business of Merck KGaA, Darmstadt, Germany, has made significant investments to expand its ADC manufacturing capabilities for clients worldwide. In 2022, the company opened its $65 million, 70,000-square foot facility in Verona, Wisconsin, USA, dedicated to doubling the production of the most highly potent active pharmaceutical ingredients (HPAPIs) used in novel cancer therapies, including ADCs.
In addition to recent footprint and capacity expansions, the company continues to innovate differentiated technologies and platforms that accelerate the future potential of this novel modality.
