In the dynamic field of biopharmaceutics, in vitro models play a pivotal role in shaping the future of drug development. These models provide a controlled environment to simulate and study biological processes outside of a living organism. In the realm of biopharmaceutics, in vitro models serve as invaluable tools for predicting drug behaviour, absorption rates, and potential interactions within the human body.
Researchers utilize sophisticated in vitro systems to assess the pharmacokinetics and pharmacodynamics of biopharmaceuticals, enabling a more thorough understanding of their mechanisms. These models aid in optimizing drug formulations, ensuring efficacy, safety, and bioavailability. From cell cultures to organ-on-a-chip technologies, in vitro models contribute significantly to reducing the reliance on traditional animal testing and expediting the drug development process. The precision and reproducibility of in vitro models empower scientists to explore novel drug delivery systems and assess the impact of various formulations on therapeutic outcomes.
Consolato M Sergi
Universities of Alberta and Ottawa, Canada
Vladlen Slepak
University of Miami Miller School of Medicine, United States
Andreas M Papas
Antares Health Products, United States
Sergey Suchkov
The Russian University of Medicine and Russian Academy of Natural Science-Moscow, Russian FederationSubmit your abstract Today
Title : Medical liver biopsy: Toward a personalized approach
Consolato M Sergi, Universities of Alberta and Ottawa, Canada
Title : Macitentan/tadalafil combination– An additional value in pharmacotherapy of pulmonary arterial hypertension
Miroslav Radenkovic, University of Belgrade, Serbia
Title : Ectopically expressed olfactory receptors as an untapped family of drug targets and discovery of agonists and antagonists of OR51E1, an understudied G protein-coupled receptor
Vladlen Slepak, University of Miami Miller School of Medicine, United States
Title : Mathematical modeling the disc diffusion test: Antibacterial activity of copper-doped SnO2
Paulo Cesar De Morais, Catholic University of Brasilia, Brazil
Title : Emerging formulation and delivery applications of Vitamin E TPGS
Andreas M Papas, Antares Health Products, United States
Title : The promise of nanotechnology in personalized & precision medicine: Drug discovery & development being partnered with nanotechnologies via the revolution at the nanoscale
Sergey Suchkov, The Russian University of Medicine and Russian Academy of Natural Science-Moscow, Russian Federation
Title : Personalized and Precision Medicine (PPM) as a unique healthcare model through design-inspired biotech- & biopharma-driven applications and upgraded business marketing to secure the human healthcare and biosafety
Sergey Suchkov, The Russian University of Medicine and Russian Academy of Natural Science-Moscow, Russian Federation
Title : Design and evaluation of exo-itc: A bilayer fibrous system for controlled exosome delivery in dermatological applications
Luis Jesus Villarreal Gomez, FCITEC - Universidad AutĂłnoma de Baja California, Mexico
Title : Antibody-proteases as translational tools of the next-step generation to be applied for biopharmacy-related and precision medical practice
Sergey Suchkov, The Russian University of Medicine and Russian Academy of Natural Science-Moscow, Russian Federation
Title : Understanding drug transport in plasma: The role of protein binding
Saad Tayyab, UCSI University, Malaysia