Plastic packaging, with its exceptional barrier properties, light weight, low cost, durability, and transparency, is ideal for medical applications. Today's most innovative medical procedures are dependent on plastics. Traditionally, metals, glass and ceramics were used for medical implants, devices and supports
Modern healthcare would not be possible without the use of plastic materials. From the casing of an open MRI machine to the smallest tubing, plastics have made health care simpler and less painful. Things we take for granted such as disposable syringes, intravenous blood bags and heart valves are now made of plastic. Plastics have reduced the weight of eyeglass frames and lenses. They are key components of modern prosthetic devices offering greater flexibility, comfort and mobility. Plastics allow artificial hip and knees to provide smooth working, trouble free joints. Plastic packaging, with its exceptional barrier properties, light weight, low cost, durability, and transparency, is ideal for medical applications. Today’s most innovative medical procedures are dependent on plastics.
Traditionally, metals, glass and ceramics were used for medical implants, devices and supports. However, polymers are better suited to these applications as they offer lighter weight, better biocompatibility and lower cost. Fibers and resins used in medical applications include polyvinyl chloride (PVC), polypropylene (PP), polyethylene (PE), polystyrene (PS) as well as nylon, polyethylene terephthalate (PET), polyimide (PA), polycarbonate (PC), acrylonitrile butadiene (ABS), polyetheretherketone (PEEK) and polyurethane (PU). The most widely used plastic material in medical applications is PVC followed by PE, PP, PS and PET. PVC most widely used in pre-sterilized single use medical applications. It is a versatile plastic that has been used in medical applications for over 50 years.
Medical uses for plastic materials include:
Thin tubes called catheters are used to unblock blood vessels. The deposit obstructing the vessels can be broken down with a tiny spiral-shaped implant called a vessel support. The vessel support is made of a plastic developed specifically for the medical field and charged with active substances.
Plastic pill casings are made of tartaric acid based polymers that gradually break down, slowly releasing the required medication over the required amount of time. These tailor-made pharmaceuticals delivery systems help limit the amount of pills a patient must take to get the required dose.
Synthetic materials can also play an important role in repairing diseased arteries that cannot be helped via vessel support. After removing the affected section of the aorta, the damaged section is removed and the gap is bridged by a flexible plastic prosthesis.
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Plastic packaging, with its exceptional barrier properties, light weight, low cost, durability, and transparency, is ideal for medical applications. Today's most innovative medical procedures are dependent on plastics. Traditionally, metals, glass and ceramics were used for medical implants, devices and supports
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Modern healthcare would not be possible without the use of plastic materials. From the casing of an open MRI machine to the smallest tubing, plastics have made health care simpler and less painful. Things we take for granted such as disposable syringes, intravenous blood bags and heart valves are now made of plastic. Plastics have reduced the weight of eyeglass frames and lenses. They are key components of modern prosthetic devices offering greater flexibility, comfort and mobility. Plastics allow artificial hip and knees to provide smooth working, trouble free joints. Plastic packaging, with its exceptional barrier properties, light weight, low cost, durability, and transparency, is ideal for medical applications. Today’s most innovative medical procedures are dependent on plastics.
Traditionally, metals, glass and ceramics were used for medical implants, devices and supports. However, polymers are better suited to these applications as they offer lighter weight, better biocompatibility and lower cost. Fibers and resins used in medical applications include polyvinyl chloride (PVC), polypropylene (PP), polyethylene (PE), polystyrene (PS) as well as nylon, polyethylene terephthalate (PET), polyimide (PA), polycarbonate (PC), acrylonitrile butadiene (ABS), polyetheretherketone (PEEK) and polyurethane (PU). The most widely used plastic material in medical applications is PVC followed by PE, PP, PS and PET. PVC most widely used in pre-sterilized single use medical applications. It is a versatile plastic that has been used in medical applications for over 50 years.
Medical uses for plastic materials include:
Thin tubes called catheters are used to unblock blood vessels. The deposit obstructing the vessels can be broken down with a tiny spiral-shaped implant called a vessel support. The vessel support is made of a plastic developed specifically for the medical field and charged with active substances.
Plastic pill casings are made of tartaric acid based polymers that gradually break down, slowly releasing the required medication over the required amount of time. These tailor-made pharmaceuticals delivery systems help limit the amount of pills a patient must take to get the required dose.
Synthetic materials can also play an important role in repairing diseased arteries that cannot be helped via vessel support. After removing the affected section of the aorta, the damaged section is removed and the gap is bridged by a flexible plastic prosthesis.