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Linda Peters
Directeur/Membre du Conseil chez F3 Platform Biologics, Inc.
Profil
Linda Peters is currently a Director at F3 Platform Biologics, Inc. She was previously a Director at Sequoia Pharmaceuticals, Inc. and served as the Chief Regulatory Officer & EVP at BECTON DICKINSON from 2017 to 2019.
Ms. Peters holds an MBA from Northwestern University and an undergraduate degree from Southern Illinois University.
Postes actifs de Linda Peters
Sociétés | Poste | Début |
---|---|---|
F3 Platform Biologics, Inc.
![]() F3 Platform Biologics, Inc. BiotechnologyHealth Technology F3 Platform Biologics, Inc. is a biopharmaceutical company, which engages in the development and commercialization of novel and practical biotechnology for human use. It handles research, clinical development, and commercialization of new indications surrounding amifostine, a compound that has been previously approved by FDA for indications involving the prevention and treatment of side effects related to cancer treatment and radiation therapy. The company was founded on June 5, 2018 and is headquartered in Atlanta, GA. | Directeur/Membre du Conseil | - |
Anciens postes connus de Linda Peters
Sociétés | Poste | Fin |
---|---|---|
BECTON DICKINSON | Corporate Officer/Principal | 02/01/2019 |
Sequoia Pharmaceuticals, Inc.
![]() Sequoia Pharmaceuticals, Inc. Pharmaceuticals: MajorHealth Technology Sequoia Pharmaceuticals discovers and develops unique treatments for viral diseases including HIV/AIDS and HCV-induced hepatitis with a focus on the growing global problem of drug-resistant disease. Most new anti-viral drugs were designed to block the most prevalent form of a pathogen, but these drugs become less potent due to the emergence of drug-resistant mutations. Sequoia's is to discover and develop new antiviral which are active against the most prevalent form of the virus but also anticipates the emergence of drug resistance forms thereby maintaining potency over time. Sequoia's differentiating approach is to identify a constellation of atomic interaction points which are necessary and sufficient for enzymatic function. Sequoia's protease inhibitors have been designed to interact preferentially with only these atoms, thus allowing non-critical mutations to occur without resulting in a decrease in drug potency. The foundation of Sequoia's novel Resistant-Repellent™ technology is a drug discovery tool that enhances the efficiency with which drugs are designed. It is based on an understanding of the chemical and physical nature of the molecular targets, the enzymes and receptors to which drugs bind, combined with an understanding of the molecular mechanisms that cause drug resistance. Sequoia is also discovering and developing a unique series of pharmacokinetic enhancers (PKEs) to work in combination with its own, and its partners', antiviral therapies. These sets of molecules improve the PK of existing therapeutics and reduce interpatient variability. This represents a unique approach to an important need in HIV treatment today. Sequoia is also looking to extend this novel PKE approach to other areas. Its PKEs are designed to inhibit a particular CYP isozyme and therefore change the metabolism of a co-administered therapeutic agent. The combination of PK Enhancer and the therapeutic agent enables reduced dosage and less frequent administration of the therapeutic agent. | Directeur/Membre du Conseil | - |
Formation de Linda Peters
Northwestern University | Masters Business Admin |
Southern Illinois University | Undergraduate Degree |
Expériences
Fonctions occupées
Relations
Relations au 1er degré
Entreprises liées au 1er degré
Homme
Femme
Administrateurs
Exécutifs
Sociétés liées
Entreprise privées | 3 |
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F3 Platform Biologics, Inc.
![]() F3 Platform Biologics, Inc. BiotechnologyHealth Technology F3 Platform Biologics, Inc. is a biopharmaceutical company, which engages in the development and commercialization of novel and practical biotechnology for human use. It handles research, clinical development, and commercialization of new indications surrounding amifostine, a compound that has been previously approved by FDA for indications involving the prevention and treatment of side effects related to cancer treatment and radiation therapy. The company was founded on June 5, 2018 and is headquartered in Atlanta, GA. | Health Technology |
Sequoia Pharmaceuticals, Inc.
![]() Sequoia Pharmaceuticals, Inc. Pharmaceuticals: MajorHealth Technology Sequoia Pharmaceuticals discovers and develops unique treatments for viral diseases including HIV/AIDS and HCV-induced hepatitis with a focus on the growing global problem of drug-resistant disease. Most new anti-viral drugs were designed to block the most prevalent form of a pathogen, but these drugs become less potent due to the emergence of drug-resistant mutations. Sequoia's is to discover and develop new antiviral which are active against the most prevalent form of the virus but also anticipates the emergence of drug resistance forms thereby maintaining potency over time. Sequoia's differentiating approach is to identify a constellation of atomic interaction points which are necessary and sufficient for enzymatic function. Sequoia's protease inhibitors have been designed to interact preferentially with only these atoms, thus allowing non-critical mutations to occur without resulting in a decrease in drug potency. The foundation of Sequoia's novel Resistant-Repellent™ technology is a drug discovery tool that enhances the efficiency with which drugs are designed. It is based on an understanding of the chemical and physical nature of the molecular targets, the enzymes and receptors to which drugs bind, combined with an understanding of the molecular mechanisms that cause drug resistance. Sequoia is also discovering and developing a unique series of pharmacokinetic enhancers (PKEs) to work in combination with its own, and its partners', antiviral therapies. These sets of molecules improve the PK of existing therapeutics and reduce interpatient variability. This represents a unique approach to an important need in HIV treatment today. Sequoia is also looking to extend this novel PKE approach to other areas. Its PKEs are designed to inhibit a particular CYP isozyme and therefore change the metabolism of a co-administered therapeutic agent. The combination of PK Enhancer and the therapeutic agent enables reduced dosage and less frequent administration of the therapeutic agent. | Health Technology |
BECTON DICKINSON |