Design of Dissolution Study Protocol for Pulmonary Dosage Forms: Criteria for Selection of Bio-Relevant Dissolution Medium

Abstract: Pulmonary dosage forms constitute an important route of drug delivery for systemic absorption of drugs in management of respiratory diseases as well as diseases such as diabetes, migraine, osteoporosis, and cancer. Performance of different pulmonary dosage forms is greatly influenced by aerodynamic particle size distribution of inhalable particles, spray pattern, fraction of dose actually deposited on pulmonary epithelium, dissolution of active pharmaceutical ingredient and ultimately absorption across pulmona… Show more

“…A bio-relevant medium must be created to simulate how a drug dissolves in the GI system. In the meantime, consideration should be given to how long a drug stays in each area of the GI system, especially for formulations with controlled or extended-release with a significant dissolution crossdomain [52]. Currently, the dissolution environment in vivo is frequently simulated using a single non-bio-relevant (e. g., pH 1.2, 4.5, or 6.8 buffer) or bio-relevant dissolution medium (e. g., simulated gastric or fluid), which is a practical when the majority of the drug is rapidly dissolved in a specific part of the GI tract under a particular pH condition [53,54].…”

Virtual Bioequivalence in Pharmaceuticals: Current Status and Future Prospects

“…A bio-relevant medium must be created to simulate how a drug dissolves in the GI system. In the meantime, consideration should be given to how long a drug stays in each area of the GI system, especially for formulations with controlled or extended-release with a significant dissolution crossdomain [52]. Currently, the dissolution environment in vivo is frequently simulated using a single non-bio-relevant (e. g., pH 1.2, 4.5, or 6.8 buffer) or bio-relevant dissolution medium (e. g., simulated gastric or fluid), which is a practical when the majority of the drug is rapidly dissolved in a specific part of the GI tract under a particular pH condition [53,54].…”

Virtual Bioequivalence in Pharmaceuticals: Current Status and Future Prospects