Cempra announced that its New Drug Applications (NDAs) for the approval of Solithera (solithromycin) as a treatment for community-acquired bacterial pneumonia (CABP) have been accepted for filing by the US Food and Drug Administration (FDA).
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The acceptance of the two NDAs, one for the intravenous formulation and one for oral capsules, indicates the applications are sufficiently complete to permit a substantive review by the FDA.
"The FDA’s acceptance of our two NDA filings brings us one step closer to the potential approval by the end of 2016 and U.S. commercial launch of Solithera," said Prabhavathi Fernandes, Ph.D., president and chief executive officer of Cempra.
"If approved, Solithera would be a significant milestone in the treatment of CABP, as bacterial resistance to older treatments has continued to rise. The FDA will convene a meeting of the Antimicrobial Drugs Advisory Committee for Solithera prior to its action on the applications."
The NDA submissions are supported by safety and efficacy data from two Phase 3 studies of solithromycin in the treatment of CABP.
The first study was a pivotal Phase 3 clinical trial of solithromycin oral capsules, and the second was a global, pivotal Phase 3 clinical trial of intravenous solithromycin progressing to oral solithromycin. Positive topline results were announced for both Phase 3 trials during 2015.
About Solithromycin
Solithromycin is a highly potent next-generation macrolide, the first fluoroketolide, which has potent activity against most macrolide-resistant strains. In vitro and in vivo studies have shown potent activity against S. pneumoniae as well as an extended spectrum of activity against community-acquired methicillin resistant S. aureus (CA-MRSA), streptococci, haemophilus, enterococci, Mycobacterium avium and in animal models of malaria. It is also active against atypical bacteria, such as legionella, chlamydia, mycoplasma and ureaplasma, and against gonococci and other organisms that cause genitourinary tract infections.
It is 8-16 times more potent than azithromycin against many bacteria and is active against azithromycin-resistant strains. Solithromycin’s activity against resistant strains is driven by its ability to interact with three sites on the bacterial ribosome, compared to one for current macrolides. The binding to bacterial ribosomes and interaction with three ribosomal sites is expected to limit the development of bacterial resistance to solithromycin.
About Community-Acquired Bacterial Pneumonia
Community-acquired bacterial pneumonia (CABP) is the number one cause of death from an infection, particularly in the very young and in the elderly. CABP is one of the most commonly diagnosed bacterial infections in the U.S. resulting in 5 to 10 million cases per year. Although many strains of the primary CABP pathogen, Streptococcus pneumoniae, are resistant to currently-approved macrolides, this class of antibiotic remains among the most commonly prescribed antibacterial drugs for CABP in both the hospital and community settings.
Due to the rising threat of microbial resistance, along with concerns over antibiotic tolerability and impact on intestinal microflora, new CABP treatments are needed. Antibiotic resistance is a complex, emerging problem globally with potentially devastating consequences for public health.