3D printed medicine

 

For the last decade, 3D printing technology has blurred the line between imagination and production.

Computerized 3D printing technology has successfully put the technology to practical use and has developed the world's first 3D-printed Spritam (chemical name: Levetiracetam), a drug that treats seizures in epilepsy patients. These printed tablets, which are made by sandwiching the powdered chemical between liquid substances and binding at the light microscopic level, are extremely porous and dissolve quickly when in contact with the liquid. This is truly a unique property, and one that has a significant effect on the primary purpose of coping with sudden seizures.

Production of high dose tablets with 3D printing:

The production of high-dose, fast-dissipating tablets has become possible with 3D printing, allowing physicians to provide reliable drug customization and complete control over the immediate effect and intensity of dosing.

Increase effectiveness:

By changing the surface of the tablet through printing of complex shapes, it became possible to adjust not only the intensity of the dose released but also the release time. This not only enhances the safety of the medication, but also greatly helps to significantly increase its effectiveness.

Customization of medicines:

Manufacturers can also modify the product to suit their individual choices by choosing customized dose intensities, tablet sizes, tastes, colors and the like. Assuming that the drug is readily available in powder form, the patient can quit the cumbersome tablets, capsules, or solutions and choose a drug that is much easier to take. Customizability is also particularly useful when formulating medications for patients who have difficulty swallowing, such as infants and the physically challenged.

Reduces patient’s time:

3D printing is a technology that symbolizes an important breakthrough in this era when personalized medicine and treatment according to the patient's situation are required.

This breakthrough technology also allows manufacturers to better tailor their manufacturing and distribution processes to their customers. With ever-increasing design and operational efficiencies, printers of various sizes and performances can be deployed in the right place for the patient. Hospitals and pharmacies do not have to make prescription drugs on-site and purchase large quantities of generic drugs. It also allows on-site production of special and less commonly prescribed preparations, which not only significantly reduces patient waiting times, but even saves more lives in time-sensitive crisis situations. I may be able to do it. With this flexibility and scalability in the supply chain, both suppliers and consumers can benefit from the low cost and low cost of operational efficiency.

There are also predictions that 3D printing will become commonplace and patients will even be able to print their own medicines at home.

Theoretically, the technique would allow users to easily print drugs of all sizes, shapes and doses. All you need is a downloadable prescription, which is basically a set of instructions for the printer to read and work as it should. As long as the printer at home is replenished with the necessary base material, the user can synthesize all the necessary formulations. It's similar to using a cookbook recipe, except that it takes about half the amount of work.

For example, the process required to bake a cookie for the first time is as follows:

·         Find your favorite recipe

·         Download a copy

·         Print

·         Work according to the recipe

·         Bake

·         Clean up

On the other hand, to make one dose of your first dispensing prescription, follow the steps below.

·         Find your favorite prescription

·         Download a copy

·         Print

If it's easier to make a single dose of medicine than to make a single cookie, it's unavoidable to get angry.

There is little room for fraud in the current drug manufacturing process, but there are some concerns about the possibility of introducing 3D printing techniques. It is also possible that a modified printer could be used to make counterfeit drugs or to disguise illegal drugs as legal drugs.

Due to the wide range of influence and global nature of such technologies, the boundaries of responsibility are ambiguous.

Pharmaceutical companies need to ensure that their products' prescriptions and regulatory standards are adhered to. You must ensure a reliable printing process that protects you from human error and sabotage. It is also necessary to ensure sufficient equipment safety in case an unscrupulous organization attempts reverse engineering of a marked product. Drug regulators will also need to develop unprecedented approval guidelines for large numbers of 3D-printed drugs.

More importantly, who is responsible if the dispensing is improperly printed as a result of technical mistakes or malfunctions, causing damage to the patient or death.

Is the responsibility on the drug company that created the prescription, on the patient who printed the prescription, or on the intermediary, such as the drug manufacturer or printer management company?

There are some important challenges that must be addressed before 3D pharmaceutical printing technology becomes commonplace, but in terms of profits it is well worth the effort.

This is a technology that will revolutionize the pharmaceutical manufacturing industry and has the potential of science fiction. With the advent of tablets that release a mixture of drugs at regular intervals, it may be possible to combine a full daily dose into a single tablet that is easy to swallow. Tell Grandpa to throw away that old pill case. You can take all the necessary ingredients in one tablet without any hassle or forgetting to take. Imagine the possibility of special tablets that can help treat rare illnesses. At a fraction of the current cost, it will be possible to develop and manufacture tablets that are tailored to prescription and personal taste.

Perhaps one day there will be tablets that can be applied to anything.

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