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Process analytical technology (PAT) has been defined by the United States Food and Drug Administration (FDA) as a mechanism to design, analyze, and control pharmaceutical manufacturing processes through the measurement of critical process parameters (CPP) which affect the critical quality attributes (CQA).
TIPT is the first pharmaceutical Institute registered in Canada by the Ministry of Training, Colleges & Universities of Ontario. Since its inception in 1992, Toronto Institute of Pharmaceutical Technology has provided education to science graduates and industry employees pharmaceutical multinationals such as GlaxoSmithKline, Patheon, Teva and Biovail.
The material cost of a chemical process is the sum of the costs of all raw materials, intermediates, reagents, solvents, and catalysts procured from external vendors. Material costs may influence the selection of one synthetic route over another or the decision to outsource production of an intermediate.
The institute offers a 2-year PG degree course; M.S (Pharm.), M.Pharm, and M.Tech in 8 disciplines (Pharmacology & Toxicology, Pharmacy practice, Pharmaceutical analysis, Pharmaceutics, Biotechnology, Medicinal Chemistry, Pharmaceutical Technology (Formulations) and Medical Devices). [4] It also offers 5 year Phd courses. [5]
Pharmaceutical manufacturing is the process of industrial-scale synthesis of pharmaceutical drugs as part of the pharmaceutical industry. The process of drug manufacturing can be broken down into a series of unit operations , such as milling , granulation , coating , tablet pressing , and others.
The pharmaceutical industry is currently facing increased pricing pressures globally and rising manufacturing costs. Cost of Goods (COGS) for Brand-Name pharmaceutical drugs can be higher than 30% of the total sales revenues of these companies. In comparison, the percentage of sales revenues spent on R&D by these pharmaceutical companies is ...
Process engineering activities can be divided into the following disciplines: [7] Process design: synthesis of energy recovery networks, synthesis of distillation systems (), synthesis of reactor networks, hierarchical decomposition flowsheets, superstructure optimization, design multiproduct batch plants, design of the production reactors for the production of plutonium, design of nuclear ...
The first instrumental analysis was flame emissive spectrometry developed by Robert Bunsen and Gustav Kirchhoff who discovered rubidium (Rb) and caesium (Cs) in 1860. [4] Most of the major developments in analytical chemistry took place after 1900. During this period, instrumental analysis became progressively dominant in the field.