Pharmaceutical Engineering Professional Certificate

  • Added:
    Dec 05, 2012
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Pharmaceutical Engineering is a branch of Pharmaceutical Technology. It includes
development, commercialization and manufacturing aspects of the pharmaceuticals
industry. Some of the areas into which pharmaceutical engineering is applied relate to the pharmaceutical, nanotechnology, biotechnology, biomedical, food & food additives,nutrition, cosmetics and personal care products fields.

Pharmaceutical engineering is involved in almost every aspect of manufacturing in the
pharmaceutical and all the related industries, such as

1. In the conception, designing ,construction, and operation of research facilities and manufacturing plants;
2. Conception, design, scale-up, manufacturing, and labeling and packaging processes of pharmaceuticals and pharmaceutical therapies;
3. In the design, manufacturing, packaging, and labeling of medical devices that are used to administer drugs and the devices that are used to monitor the effects of the pharmaceuticals;
4. In the implementation of FDA regulations;
5. In other quality control tasks such as validation assurance, quality control and in ensuring adherence to Good Manufacturing Practice.
6. Ensuring that production of safe products, in which personal as well as environmental safety is ensured.
7. In association with the staff and subject matter experts, the pharmaceutical engineers take care of the technological aspects of biotechnology, nanotechnology, biomedical and personal care product industry.

Pharmaceutical Engineering Studies
Pharmaceutical Engineering courses are offered at several colleges worldwide and by independent bodies that train and certify qualified candidates. Due to the rapid advancement in technology and the increasing demand for pharmaceuticals, there is a great demand for qualified pharmaceutical engineers. Most Pharmaceutical Engineering programs are graduate-level, and as with Biomedical Engineering there is generally an expectation that engineers and scientists working in pharmaceutical engineering should have some relevant graduate-level education. Many have a masters or PhD degree in chemical or biomedical engineering, or a related science. Explosive advances in science and technology have revolutionized the research and discovery of new, life saving drugs. These advances have also radically changed pharmaceutical manufacturing and delivery systems, increasing the challenge of designing optimal manufacturing processes for the efficient, safe production of pharmaceutical products. 

Pharmaceutical Engineering Professional Certificate
International Society for Pharmaceutical Engineers (ISPE) offers Certified Pharmaceutical Industry Professional (CPIP) certificate based on the competency of pharmaceutical engineers in the pharmaceutical industry.

A qualified CPIP professional is supposed to have a broad industry knowledge and
experience including technical knowledge related to:
• Product development
• Production systems
• Facilities and equipment
• Information systems
• Supply chain management
• Quality systems
• Regulatory compliance
• Leadership and Professionalism
• Integration/Innovation/Change Advocacy
• Quality and Continuous Improvement Focus


Pharmaceutical engineers work in almost all aspects of manufacturing such as research, drug development, facility design, management, delivery systems, scale-up process, manufacturing, labeling and packaging, sales, and education. Some of the responsibilities of pharmaceutical engineering overlap with those of chemical engineering, bioprocesses engineering, chemistry, and biochemistry.

Author's Profile

Pharmaceutical Engineering is a branch of Pharmaceutical Technology. It includes development, commercialization and manufacturing aspects of the pharmaceuticals industry. http://www.globalcompliancepanel.com/


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