Europe, being a leader in medical device manufacturing, has recently made revisions to medical device directives in order to improve and strengthen its framework. The revisions are expected Industry Analysis Ppt to provide uniform level of protection for everyone concerned about public health as well as cater to the new or emerging technologies when it comes to health care and medical equipment.
In the most recent updates, European Health and Consumer Policy Commission is looking into tightening controls, enhancing surveillance and restoring confidence of the patient and the public in medical device and in the manufacture of such. Early this year a company based in France was found to be manufacturing fraudulent breast implants which contain non-medical grade silicone. This medical device manufacturing firm is known to have sold hundreds and thousands of non-medical grade silicone breast implants worldwide of which France, Germany, Spain and United Kingdom are some of the countries were women were implanted with such faulty equipment.
Manufacturing of medical equipment is known to be a profitable and meaningful endeavour. It plays an important role in promoting healthcare not just in Europe but globally. However, in order to make sure that scientific excellence is observed in all stages of production or manufacturing and marketing, the initiatives undertaken by countries like Europe in revising its current directives, laws and policies is of high importance. In addition, creating a third party conformity assessment body which will look further into high risk medical devices such as breast implants before they are placed in different markets for sale is an important step that Europe has undertaken to make sure future health risks are avoided.
Europe’s step in checking further on its current legislation pertaining to healthcare, devices and manufacturing and revising it to suit the present and future needs is just the first step. Implementation of revised laws and directives Lite Manufacturing and making sure that they are observed all the time is another step. Manufacturing firms which are found to have violated certain laws and regulations should be made responsible for the ill effects of defective devices.
It is essential that the private and public sectors in Europe should work together in improving their reputation as a continent that manufactures excellent, world class, truly safe and high quality medical devices. Aside from the fact that manufacturing of these medical devices is one of the major industries in Europe, it caters to a global market and its health or medical side effects is felt in all parts of the world. However, the success of Europe in implementing these revised laws and regulations will definitely add value not just too European manufacturing firms but to lives of people all over the world.…
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Industrial Products Used in the Medical Supply Industry
The medical supply industry is a large, growing market with a diverse manufacturing portfolio. The industry as a whole has yearly revenue of about $78 billion, mainly distributed between 60 major companies, but the total industry numbers at about 12,000 companies big and small. The products they produce satisfy the needs of hospitals, surgeons, and doctors across the world. Everything from daily disposable instruments like syringes and catheters to sutures and dressings as well as hospital beds and dental appliances are manufactured. Even latex gloves and surgical masks are produced within the industry.
This large assortment of products and needs calls into play many different manufacturing processes; it also demonstrates the need for an entire range industrial products and industrial supplies to support production.
Metalworking
Metalworking is an important facet of the medical supply What Is An Electrician Salary. Syringes and sutures are common metal products that are in high demand. They require a set of industrial supplies in order to draw, roll, and cut hot metal. Syringe needles are made by drawing molten stainless steel through a secure die block and then rolling the metal into a hollow tube and cutting each into a syringe. Sutures are made in a similar manner, but are typically rolled into half or quarter circlers for stitching wounds. The drawing process for both materials is extremely precise, making needle and suture heads as small as 0.02 millimeters. Such precision requires high quality industrial products for the extrusion and cutting processes.
Molding
Since many of the instruments used in the medical industry are designed to be disposed of after a single application, plastics are heavily used. They typically require industrial products that can be injection molded or cast in plastic into the appropriate shape. Using the syringe example, the barrel, body, and plunger of the hypodermic are injection molded plastic pieces. Mold and die cast plates are constructed out of stainless steel to conform to the FDA standards of cleanliness for medical usage. In this case, there are no material alternatives.
Another huge product demand for medical supply companies is the latex glove. Ubiquitous in hospitals and doctor offices, they are produced by molding as well. Latex, rubber, or nitrile is used as the raw material that is then treated to become a liquid and laid over a cast of varying standard hand sizes. The liquid is allowed to cool and then washed, after which it is dried in a vacuum, which requires vacuum generators and ejectors, in order to remove solvent fumes. It is then sterilized and ready for use.
Material Handling
The manufacturing of disposable medical supplies is always done through mass production. Regardless of the end product, assembly lines require industrial products for the movement of materials down the line. Motors, chain link drive systems, and conveyor belts as well as roller platforms keep production moving forward. Like in most production facilities, pallet handling, forklifts, packaging, and dock equipment all play a vital role in the distribution of final products.…
Pharmaceutical Manufacturing and Its Significant Contributions to Medical World
Pharmaceutical manufacturing has made outstanding advancements in the medical world. It has manufactured drugs and medicines for common as well as most crucial diseases. It has developed medicines for deadliest diseases like infectious diseases, cardiovascular disorders, sexually transmitted diseases and cancer. It has given new dimensions to pharmaceutical Electrician Apprentice Salary engineering. It has also developed important vaccines and antibiotics that can provide immunity to health defects such as hepatitis B, hepatitis C and polio. It has also contributed a lot to veterinary science. Important drugs have been developed by pharmaceutical manufacturing plants that have the potential to save the animals from fatal diseases.
The contributions made by Pharmaceutical manufacturing and pharmaceutical engineering towards medical science is a world wide acknowledged fact. But they are still thriving to contribute more and make this world disease free. More and more research works and various studies are being performed by them to develop efficient and cost -effective medicines. They are trying hard to improve the efficiency of existing medicines and develop better medicines for future use.
It has a wide range of spectrum. It involves all the procedures starting from the search of efficient raw materials to delivery of the medicines to the market. It takes several years to carry out the research work and find an effective solution for a particular disease. Firstly, they found out a biological and chemical substance that has the potential to cure diseases Industrial Engineering Pdf and then convert those substances into desirable medicines. Commercialization of medicines is also done by it so that the medicines can reach on time to the sufferers. Only production of drugs and their delivery to the market is not the sole objective of pharmaceutical manufacturing. They focus more on production of mass medicines to meet the growing requirements.…
The Complexities In Bringing Medical Negligence and Industrial Disease Type Claims
Medical negligence claims and claims for occupation or industrial disease are notoriously complex and challenging claims primarily because of issues relating to causation. Causation is the area of law that seeks to establish what actually caused the injury suffered by a Claimant.
In a standard accident claim such as a car or motorbike accident, it’s normally very easy to establish what caused the injuries suffered by a Claimant. The lawyers can therefore simply focus on who was responsible for the accident.
The issue of causation in medical negligence and industrial disease claims by contrast, are more complicated particularly in circumstances where the injury could have more than one cause, which is an area of law that has occupied the attention of the House of Lords on several occasions.
Currently, there are two differing, and on the face of it, inconsistent tests on causation known as the “material contribution” test and the “but for” (or direct cause) test.
The rational of the “But For” test is that if the Claimant suffers injury that would not have occurred “but for” the Defendant’s negligence, then that negligence will be deemed to have caused the injury. The important point made is that the negligence need not be “the” cause as there may be other things that may be relevant and contributed to the injury.
The case Barnett -v- CK HMC is an example of the “but for” test. Three men attended hospital with clear symptoms of illness. The duty nurse called the casualty officer who did not see or examine the men but advised that they should go home and see their own doctors. Five hours later one of the men died from arsenic poisoning. Medical evidence was obtained which indicated that even if the deceased received prompt treatment it would not have been possible to save him. So even where the casualty officer was negligent, the hospital was not liable for the death because nothing could have been done for the man in any event.
The second test of “Material Contribution” is also known as the Bolam test after the case of Bolam v Friern HMC.
By way of illustration of the “Material Contribution” test, a Court of Appeal considered a claim involving a steel dresser who contracted pneumonconiosis as a result of exposure to silica dust from using both a pneumatic hammer and swing grinders. There was a statutory duty to provide extractor fans in respect of the use of swing grinders but not in Industrial Development Ppt relation to pneumatic hammer. The issue was whether the dust was caused by the grinders or the hammer. The Court of Appeal ruled that the Claimant only had to show the dust from the swing grinders had made a material contribution to the disease. The Claimant did not have to show that the dust from the grinders was the sole cause of the disease.
As can be seen from these two approaches, there lies some inconsistency, as the outcome of a case will be …