Impact Assessment of Divergence on Post-approval Changes Classifications of Latin America Region With Europe and the United States, and Propositions to Harmonize Classification Based on Risk as a Path to Build the Trust Between National Regulatory Agencies.

The lack of harmonization in the post-approval changes (PACs) classifications for pharmaceutical products may have an impact on the efficient implementation of PACs and in the supply of medicine, jeopardizing the continuity of therapies, especially in the case of chronic diseases. The percentage of similarity between the PACs classifications existing between countries of Latin America (Mexico, Brazil, Colombia, Venezuela, Argentina, Chile, Ecuador, Peru, and Central America) versus Europe and the United States (US) has been calculated, focused on the PACs for chemical products and on the minor and moderate variations as defined in the European Union (EU) and US regulations. Even though Mexico, Colombia, Brazil, and Argentina implemented a risk-based PACs classification, a wide diversity is observed, with a high percentage of variations classified as major or high risk for these countries and the rest of the Latin American countries, except for Venezuela (which previously adopted and recognized the EU classification).

Dynamic Regulatory Assessment: Unpacking the Process Reveals Readiness to Pilot for Europe-An EFPIA View.

The medicines regulatory network of the European Economic Area comprises 30 countries, their National Competent Authorities (NCA), and the European Medicines Agency (EMA). The NCAs and EMA are involved at different stages of the medicine life cycle; not all are engaged in a particular medicine's development discussions. As a result, knowledge management (ie, acquisition and transfer between medicine developer and the NCAs) is fragmented and inefficient.

Construction and extensive characterization of a goat bacterial artificial chromosome library with threefold genome coverage.

A goat Bacterial Artificial Chromosome (BAC) library of 61,440 independent clones was constructed and characterized. The average size of the inserts was estimated at 153 kilobases by analyzing almost 500 clones using Not1 digestion followed by FIGE (Field Inverted Gel Electrophoresis) analysis. The library represents about three genome equivalents, which yields a theoretical probability of 0.

Synthesis of 2-amido-2,3-dihydro-1H-phenalene derivatives as new conformationally restricted ligands for melatonin receptors.

Tetrahydroanthracene, tetrahydrophenanthrene, and tetrahydrophenalene moieties were used to design novel constrained melatoninergic agents. Compounds 1 and 2 were synthesized from the cyclization of the aryl succinic acids 6a,b followed by catalytic reduction, Curtius degradation to the amino derivatives, and acetylation. The phenalene derivatives 3 were prepared by cyclization of the aza lactones of the corresponding alpha-N-acetyl amino acids.