The
United States FDA has received over 800 botanical investigational
new drug applications (IND) and pre-IND meeting requests (PIND) in
the years preceding 2018. The current data show that indications for
submitted INDs cover nearly every review division of the FDA. Despite
increasing global interest in the investigation of botanical mixtures
as drug products, only two botanical new drug applications (NDA) have
been approved in the U.S.: Veregen in 2006 and Fulyzaq (also known
as Mytesi) in 2012. Given botanicals’ chemical and biological
complexity, efforts in characterizing their pharmacology, demonstrating
therapeutic efficacy, and ensuring quality consistency remain scientific
and regulatory challenges. The FDA published a revised Botanical
Drug Development Guidance for Industry document in December
2016 to address developmental considerations for late-phase trials
and to provide recommendations intended to facilitate botanical drug
development. Herein, we present an analysis of botanical INDs showing
their variety of botanical raw materials (e.g., coming from different
geographic regions, single vs multiple herbs), the varied levels of
previous human experience, and therapeutic areas, as well as provide
an overview of experience and challenges in reviewing botanical drugs.
Ynones are a valuable functional group and building block in organic synthesis. Ynones serve as a precursor to many important organic functional groups and scaffolds. Traditional methods for the preparation of ynones are associated with drawbacks including harsh conditions, multiple purification steps, and the presence of unwanted byproducts. An alternative method for the straightforward preparation of ynones from acyl chlorides and potassium alkynyltrifluoroborate salts is described herein. The adoption of organotrifluoroborate salts as an alternative to organometallic reagents for the formation of new carbon-carbon bonds has a number of advantages. Potassium organotrifluoroborate salts are shelf stable, have good functional group tolerance, low toxicity, and a wide variety are straightforward to prepare. The title reaction proceeds rapidly at ambient temperature in the presence of a Lewis acid without the exclusion of air and moisture. Fair to excellent yields may be obtained via reaction of various aryl and alkyl acid chlorides with alkynyltrifluoroborate salts in the presence of boron trichloride.
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