Boston Therapeutics Signs Agreement With Patheon to Manufacture Pharmaceutical-Grade BTI-320 Tablets
Boston Therapeutics, a clinical stage developer of innovator compounds that address diabetes and inflammatory diseases using complex carbohydrate chemistry, along with its Hong Kong-based strategic partner Advance Pharmaceutical Company, have together signed an agreement with pharmaceutical manufacturing company Patheon Inc. to manufacture pharmaceutical-grade tablets of the company's lead product candidate BTI-320, a compound designed to reduce post-meal elevation of blood glucose.
This agreement was secured in anticipation of Boston Therapeutics' anticipated IND filing in late 2014, as well as the company's planned international Phase III trial for BTI-320 that is scheduled to be initiated in 2015. One batch of BTI-320 will be manufactured within a six-month timeframe during which all methods development, analytical, stability and other necessary tests will be performed under the IND requirements.
David Platt, Ph.D., Chief Executive Officer, Boston Therapeutics, said, "The manufacturing of pharma-grade BTI-320 tablets is essential to the preparation for our upcoming IND submission and our planned international Phase III trial. We are pleased to have secured the services of Patheon for this important project, a key step in our BTI-320 development efforts and our continued growth as a company."
Patheon is a leading provider of drug development and manufacturing services to global pharmaceutical, biotechnology and specialty pharmaceutical companies. Its global manufacturing network includes approximately 6,000 employees providing services at 12 commercial contract manufacturing facilities, and nine development centers across North America and Europe.
BTI-320 is a non-systemic chewable complex carbohydrate-based compound designed to reduce post-meal elevation of blood glucose in Type 2 diabetic patients. BTI-320 is a proprietary polysaccharide to be taken before meals and works in the gastrointestinal tract to block the action of carbohydrate-hydrolyzing enzymes that break down complex carbohydrates into simple sugars, reducing the availability of glucose for absorption into the bloodstream.