Three dimensional printed technology has recently taken the world by storm. It has a lot of applications and uses, and some of them can seem really newfangled or downright outlandish. For instance, you have 3d printed pharmaceuticals.
You might then modify your question along the lines of why it has taken so long for this technology to have been adopted into the pharma sector. Well, one of the valid answers you can put to that is that, until recently, this enterprise is not exactly economically viable. Economic viability is such an elastic term. Therefore, it would do to put a cap on it.
The ways and means through which this technology is used can be pretty varied. It may be used just with the drug itself, or more remarkably, it may be used as an implement for surgery, which is really considerable. For instance, there are cases pre surgery wherein data from CT scans are used to print out 3d models of the bones and organs to operate on, in hyper realistic detail. After which, the doctors extensively practiced, planned, and carried out the procedures on these models, which was a big help in the consequent success of the real thing.
Another thing to consider is that this technology isnt exactly cheap. It is a revolutionary technology, to be sure, and then there are the implements to keep in mind, like the equipment and inks, which have a price of their own. Therefore, even when certain printers have become cheaper, specific implements like ink, and also specialized applications, like pharmaceutics, can be prohibitively expensive.
Also, though the relevant parties still remain divisive with it, this printing technologys use in medicine has been further vamped up. In point of fact, they are used to produce inexpensive and tailor fitted implants. That includes skull pieces, hips, jaws, you name it.
3DP has really revolutionized drug delivery systems, from its designing down to the manufacturing phase. With it, it is possible for technicians to print out certain medicines with a variety of doses, according to the singular needs of a person. This technology allows for the creation of unit dose devices, only when they are only a few in quantity. Also, one can toggle the design of the pill, on whether its multilayered, geometric, or whatnot.
These trends pointedly manifest how powerful or, rather, revolutionary, 3D printing is as a tool. With its precise manufacturing capabilities, exact dimensions, and extraordinary individual development, it has come to be at the forefront of modeling technology, may it be as simple as disease modeling or as considerable as tissue engineering. Nowadays, drug delivery systems are being engineered, and they are remarkably multifunctional.
3D printed pharmaceutics have made the rounds when the first pill was FDA approved. What set it apart from conventional ones, you ask. There are some problems, however niggling, that can be effectively addressed with it. For example, some particular kinds of pills may be especially hard to swallow. When engineered with the 3D print model, then steps could be taken to make it disintegrate or melt quickly inside a patients mouth.
3D printing, then again, is not exactly new. Nonetheless, its vamped up use in hefty areas like medicine and pharmaceuticals are quite nascent or newly developed. This puts an element of uncertainty over it, especially when relegated to less able providers. It would do you good to source only from those whose reputation, credibility, and expertise are thoroughly tried and tested.
You might then modify your question along the lines of why it has taken so long for this technology to have been adopted into the pharma sector. Well, one of the valid answers you can put to that is that, until recently, this enterprise is not exactly economically viable. Economic viability is such an elastic term. Therefore, it would do to put a cap on it.
The ways and means through which this technology is used can be pretty varied. It may be used just with the drug itself, or more remarkably, it may be used as an implement for surgery, which is really considerable. For instance, there are cases pre surgery wherein data from CT scans are used to print out 3d models of the bones and organs to operate on, in hyper realistic detail. After which, the doctors extensively practiced, planned, and carried out the procedures on these models, which was a big help in the consequent success of the real thing.
Another thing to consider is that this technology isnt exactly cheap. It is a revolutionary technology, to be sure, and then there are the implements to keep in mind, like the equipment and inks, which have a price of their own. Therefore, even when certain printers have become cheaper, specific implements like ink, and also specialized applications, like pharmaceutics, can be prohibitively expensive.
Also, though the relevant parties still remain divisive with it, this printing technologys use in medicine has been further vamped up. In point of fact, they are used to produce inexpensive and tailor fitted implants. That includes skull pieces, hips, jaws, you name it.
3DP has really revolutionized drug delivery systems, from its designing down to the manufacturing phase. With it, it is possible for technicians to print out certain medicines with a variety of doses, according to the singular needs of a person. This technology allows for the creation of unit dose devices, only when they are only a few in quantity. Also, one can toggle the design of the pill, on whether its multilayered, geometric, or whatnot.
These trends pointedly manifest how powerful or, rather, revolutionary, 3D printing is as a tool. With its precise manufacturing capabilities, exact dimensions, and extraordinary individual development, it has come to be at the forefront of modeling technology, may it be as simple as disease modeling or as considerable as tissue engineering. Nowadays, drug delivery systems are being engineered, and they are remarkably multifunctional.
3D printed pharmaceutics have made the rounds when the first pill was FDA approved. What set it apart from conventional ones, you ask. There are some problems, however niggling, that can be effectively addressed with it. For example, some particular kinds of pills may be especially hard to swallow. When engineered with the 3D print model, then steps could be taken to make it disintegrate or melt quickly inside a patients mouth.
3D printing, then again, is not exactly new. Nonetheless, its vamped up use in hefty areas like medicine and pharmaceuticals are quite nascent or newly developed. This puts an element of uncertainty over it, especially when relegated to less able providers. It would do you good to source only from those whose reputation, credibility, and expertise are thoroughly tried and tested.
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