Pharmaceutical manufacturing is one big industry that produces solutions for the health problems faced by mankind. It provides a cure for many infectious diseases, sexually transmitted diseases, and cardiovascular diseases. It also produces antibiotics and vaccines to protect human beings and provide immunity from various health disorders. The invention of many veterinary medicines has helped the prevention of diseases in animals which can be transmitted to humans. Every year millions of compounds are tested and extensive research and development did to produce new medicines and improve the performance of existing medicines. Though research is undertaken on a large scale, only around 100 new medicines are produced. Millions of dollars are invested in the research for medicines and the machinery used in the research and production.
Pharmaceutical manufacturing is a lengthy process starting from research for new medicines to the marketing of the medicines. The first step is to seek chemical substances having the potential to fight, prevent and assuage disease symptoms and eradicate health problems. The compounds are then screened to prove their therapeutic uses and later tested on animals. If the tests prove successful, trials are done using human volunteers and then the medicines are released. During the trial phase, the patients are monitored for ascertaining the side effects of the drug and the changes that result from dosage variations. The national drug administration authorities review the testing of medicines before their release for commercial use.
The process of Pharmaceutical manufacturing does not stop with the discovery or invention of new drugs, mass production of the medication should be carefully planned and executed. Chemical engineers, production specialists, pharmacists and packaging engineers contribute their skills and knowledge for devising an economical manufacturing process suitable for large scale production.
Pharmaceutical manufacturing plants require heavy, automated and specialized machinery and equipment for production processes, research, and development. Micron zing and milling machines are used to bowdlerize the chemicals into small portions. Specialized machines are required for mixing, filtering, fermenting, drying and other production processes. Bioreactors, buffer production systems, ultrafiltration units, storage and filling tanks, coppering and capping lines are other equipment that needs to be designed with proper care and compliance with the regulations prescribed by authorities like FDA. Validation of aseptic processes and heating, ventilation and air conditioning installations is necessary to create clean room environment and protect the workers engaged in the production and research processes from the dust, fumes, disagreeable odors, and vapors released from poisonous chemicals and infectious cultures. Hence Pharmaceutical manufacturing plants should ensure overall safety and healthy environment.
Today, the world is talking a lot about technology and latest gadgets to make life easy. However, less is talked about the contribution made by Pharmaceutical engineering towards the invention of life-saving medicines and other medical apparatus used in the process. The people involved in this field are devoted towards the service of mankind always thinking about discovering a treatment for the new viruses and diseases that are cropping up every now and then.
Pharmaceutical engineering is mainly concerned with inventing high quality and low-cost medicines for diseases that can disrupt human life and cause a massive impact on society. There is also development in the area of infrastructure and medical instruments that add to an efficient medical environment. Other areas where these professionals can find a place and prove their mettle are experimental research, gene-splicing, cosmetics, food additives, and nutrition. These people are dedicated to providing novel solutions and cutting edge technologies that help meet the emerging trends in healthcare.
There is a lot of development in the field of medical treatment by the invention of new therapies and diagnostic and medical devices. Research is conducted to discover new elements having healing properties and analysis of drugs is performed to bring about improvement in health care. There is also a constant drive to discover affordable drugs that can be successfully used in the treatment such that even the common man can afford the medicines.
Since the scope of Pharmaceutical engineering is wide and is closely related to other branches of science, the graduates of this field have more opportunities for making career and growing in life. The growing need of cross functional and multi-talented professionals is met by employing professionals graduated in Pharmaceutical engineering. Not only the sources of earning money are more in number for these professionals, but they can also experience joy and satisfaction from the kind of service rendered to society.
As technology improves, the medical device industry keeps on growing. New products are developed and old ones are modified. We now have devices as simple as the triangle bandage and as complex as a prosthetic knee joint. People come into contact with medical devices on a daily basis, and modern medicine would not be at the level it is today had these devices not been developed.
Pharmaceutical training needs to be given to members of staff at hospitals, doctors surgeries, public places, even private places of work, wherever there is a first aid officer practically. For the manufacturers of these medical devices, they use pharmaceutical training to advise them on their processes and how they comply with the Medical Device Directive. The MDD was published by the European Commission (EC) in June 1993 and describes the medical device industry in its member states.
Manufacturers who supply or produce devices in the territory covered by the EC need to keep up to date with any changes that are made to the directive in the way of appendices and add-ons. These occur when there are major developments in the industry. They are by no means a regular occurrence, however, every time production companies come up with a new process or product, they need to make sure that it meets the standards of the European Commission if they want to sell it on the medical device market.
Pharmaceutical training comes in several forms however the two most common are in-house training sessions and external training conferences.
The first is where a pharmaceutical consultant will visit the production premises and directly advise management and staff members on the techniques used, computer systems and storage facilities. They can also help companies with areas of development such as Clinical trials, research and laboratory structures.
The latter option is where employees will be sent out to training sessions held by pharmaceutical consultancy firms and the knowledge that they gain there will then be communicated back to other employees once back at work. This is often a more cost-effective method of pharmaceutical training on medical devices however if you have a large staff involved in the process then you may want to consider the first option as you will have training coming directly from the experts to your staff instead of through a chain.
If your company manufactures medical devices and you sell your products in territory which falls under the European Commission and the MDD, then you should think about having some pharmaceutical training, even if it just as a refresher course.