Product design to manufacturing involves a seamless integration of various technologies to transform concepts into tangible pro
The drug and medical device development industry is experiencing a tremendous change globally. This change has geared momentum towards development of unique, newer and safer therapies and towards personalized medicinal drugs. The business models are advancing to the higher levels of niche busters and towards a coexistence of newer and blockbuster therapies used in the past.
Due to the strengthening of economies in the BRIC countries i.e. Brazil, Russia, India & China, drug and device companies are focusing their research and development efforts in these regions particularly the research for clinical development of products i.e. Phase I to Phase IV clinical trials. Further, local pharmaceutical and biotech companies in these regions are also rapidly stepping up their work in Research and Development for developing promising new molecules as well as generics.
With the growth of the industry a number of clinical trial management organizations and business models have come into existence which include full-service Contract Research Organizations (CROs), early phase CROs, Site Management Organizations (SMOs), companies offering fewer but specialized services such as Clinical Data Management, Business Consulting, Knowledge Process Outsourcing (KPOs) etc. This growth has eventually amplified the demand for trained staff in the clinical research industry.
Diploma and Post Graduate Diploma in Clinical Research Course equips you with the knowledge and skills required for making a successful career in drug development and clinical trials. The program has been designed in a way so as to compliment your basic education and to provide you a platform to enter the pharmaceutical and biotech industry as a clinical research professional.
Courses:
- Diploma in Clinical Research
- Post Graduate Diploma in Advanced Clinical Research and Pharmacovigilance
ducts. CAD (Computer-Aided Design) allows for detailed and precise product design, creating digital models that serve as the blueprint. CAM (Computer-Aided Manufacturing) then takes these designs and translates them into instructions for machinery, ensuring accurate production. CAE (Computer-Aided Engineering) supports this process by simulating and analyzing performance under various conditions, optimizing the design for functionality and durability. 3D printing adds a layer of flexibility, enabling rapid prototyping and customization. Finally, a Blue Light Scanner provides high-resolution scans of physical objects, allowing for reverse engineering or quality control by comparing real-world parts to their digital models. Together, these technologies streamline the transition from conceptual design to final product manufacturing.