homeware.be

Published 5/2025
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 52m | Size: 510 MB

English

What you'll learn
To make learner aware about computer applications in Pharmaceutical Industry
To make learner aware about computer applications in Formulation Development
To make learner aware about Computer Aided Pharmaceutics
To make learner about global scenario of Computer assisted technology in Formulation Development and Pharmaceutics

Requirements
Basics of Science and Pharmacy

Description
Computers play a crucial role in pharmaceutical research and development (R&D) across various stages of drug discovery, development, and delivery. Here are some specific uses of computers in pharmaceutical R&D:Drug Design and Discovery:- Molecular Modeling: Computational methods such as molecular docking, molecular dynamics simulations, and QSAR analysis are used to model the interactions between drug molecules and biological targets, aiding in the rational design of new drugs.- Virtual Screening: High-throughput virtual screening techniques help identify potential drug candidates by screening large databases of chemical compounds against specific drug targets or biological pathways.- De Novo Drug Design: Computer algorithms are used to generate novel drug-like molecules with desired properties based on predefined criteria, accelerating the discovery of lead compounds.Bioinformatics:- Genomics and Proteomics: Computers are used to analyze genomic and proteomic data to identify potential drug targets, understand disease mechanisms, and personalize treatment strategies.- Sequence Analysis: Bioinformatics tools facilitate the analysis of DNA and protein sequences to identify conserved regions, predict protein structures, and assess the functional impact of genetic variations.- Systems Biology: Computational modeling techniques are employed to simulate complex biological systems and study the interactions between genes, proteins, and metabolites, providing insights into disease pathways and drug responses.Chemoinformatics:- Chemical Database Management: Computers are used to store, organize, and retrieve chemical information from large databases of chemical compounds, enabling efficient data mining and analysis.- Structure-Activity Relationship (SAR) Analysis: Computational methods help analyze the structure-activity relationships of compounds to optimize their pharmacological properties and predict their biological activities.- Quantitative Structure-Property Relationship (QSPR) Modeling: QSPR models predict the physicochemical properties of compounds based on their molecular structures, facilitating the selection of lead compounds with desired properties.Clinical Trials and Drug Development:- Clinical Trial Design: Computers aid in the design and optimization of clinical trials by generating randomization schedules, calculating sample sizes, and simulating trial outcomes to assess statistical power.- Data Management: Electronic data capture (EDC) systems and clinical trial management systems (CTMS) streamline the collection, storage, and analysis of clinical trial data, improving data quality and compliance.Overall, computers play a pivotal role in accelerating the pace of pharmaceutical R&D, facilitating the discovery of novel drugs, optimizing drug development processes, and improving the efficacy and safety of pharmaceutical products.This course discusses Computer Application in Drug Development area. For simplicity the course is divided into 13 chapters.

Who this course is for
Science and Pharmacy Graduates
Beginners, All levels

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