3d Printing Research Paper

As 3D printing transitions from commercial manufacturing use to personal private use individuals will have the ability to print any design. Products can range from a pair of shoes to complicated engineering designs, life-saving devices, prosthetic limbs and weapons that pass airport security. In the future we will likely see printable medications and

The field of bioprinting, using 3D printing technology for producing live cells with extreme accuracy, could be the answer to many of the problems we as humans face in the medical field. It could be the end to organ waiting lists and an alternative for organ transplants. In 3D printing technology lies the potential to replace the testing of new drugs on animals. However, the idea of applying 3 dimensional printing to the health industry is still quite new and yet to have a major impact. Manufacturing working 3D organs remains an enormous challenge, but in theory could solve major issues present today.

In a study conducted through the U.S. Department of Health and Human Services on “average 79 people will receive an organ each day; however, an average of 22 people die each day” waiting for transplants that cannot take place because of the shortage of donated organs (U.S. D.H.H.S). The average amount of patients waiting for an organ can reduce to zero with the continued development of 3-D printers. 3-D printing is a process of making three dimensional solid objects from a digital file. The digital file is uploaded onto a computer software, and then the 3-D printer prints the digital file out onto different materials. The materials include plastic, resin, nylon, sandstone. The finish products become replicas of the digital file, and what was an idea is now a reality. Therefore, 3-D printers will one day be the future of organ transplants because over the past twenty years the technology industry has rapidly grown into the focal point in society. From advancement in communication, to the medical field, science and technology has shaped this world today. Thus, the American Government should invest more money into the medical field budget because the research conducted on new technology (3-D Printers) leads to more lives saved, and expands the opportunity of future medical breakthroughs.

Secondly, advanced 3D printing applied to the medical field can be utilized in an Engels non capitalist technology drive society to impact the area of safety. In this utopian society, advanced 3D printing will have the capabilities to print synthetic tissue and organic tissue that can bond to the patient’s cells. In effect, this helps the patient’s wound heal faster. This type of advanced 3D bio printing can save many lives

Although there may be questions speculating the negative side of this technological advancement, the world should realize the benefit. 3D printers can cure many unknown diseases and aid many disabled individuals. As said by Bernard in the novel Brave New World by Aldous Huxley, "We preserve them from diseases. We keep their internal secretions artificially balanced at a youthful equilibrium” (pg 111). The World State in the novel may consist of immortality and beauty, however, in modern times humans can’t be compared to this world. Our society can improve the people’s health, aiding them in medical advancements that are unimaginable. Therefore, many civilians have turned to medical facilities clinics to provide the necessary organs in order to survive. 3-D printing is greatly important for civilization because people are suffering from disabilities and custom made body parts could save many lives. With no further to do, even though this technology has some negative aspects, the positive attributes should be much more viewed with interest for it can save many lives in the next few years to

One of the major benefits that the 3D printer gives in medical applications is the ability to fabricate custom-made medical products and equipment. For instance, the use of 3D printing to customize prosthetics and implants can provide enough support for both patients and physicians. Custom-made implants, fixtures, and tools for surgery can have a positive impact in terms of the time required for surgery, patient recovery time, and the success of the surgery or implant. It is also anticipated that 3D printing technologies will eventually allow drug dosage forms, release profiles, and dispensing to be customized for each patient. In general, one can conclude that this invention is convenient for this field

Did a soldier ever think of printing his missing hand that was amputated while in combat? Or did that surgeon ever thought of printing that patient’s matching heart that’s been on the national organ donor list for the past two years? And how about printing the most want it toy for Christmas for your child? Well now you can, by using a 3-D modeling technology printing concept. 3-D (Three-Dimensional) modeling technology in the medical field has been an innovation since the 1980’s. This technology has come a long ways. 3-D modeling technology printing is a method of additive manufacturing and built-up technique where a three dimensional object is shaped by laying down consecutive layers of material to create an object in a 3-D aspect. Recently, there has been an increase in the number of companies providing personalized three dimensional printed models of objects that have been scanned and reduced to a 3-D shape with the assistance of computer software, and then printed to the customer’s requests. This technology has developed into many branches, in which has opened doors leading to a new form of imagery in the world of printing. While some may argue this technology may result in a trend of piracy and with its non-proprietary software, some individuals may gain profit by manufacturing counterfeit pharmaceutical products. Society should invest in the 3-D modeling technology concept as many individuals have been creating toys at home and

Elizabeth Gough-Gordon, in the article 3D Printing and Medicine: Not Just Science Fiction Anymore, explains that 3D printing in the medical field is “not new technology”, but recent innovations are not only revolutionizing surgical procedures and prosthetics, but also the future of prescription distribution. In her article, Gough-Gordon inputs statistics, dates, speeches, and individual stories of patients who received 3D printed prosthetics in her article in order to assert the changes 3D printing has undergone since the 1980’s and how it is helping people today in 2015. For example, Gough-Gordon explains how 3D printing was first invented in the early 1980’s, despite the futuristic appeal the it has now, and how it has become a less expensive

“A 3D printer is a computer run machine, which has the ability to print out objects layer by layer” (Griggs Para.1). The new advancement is a 3D organ printer that will print out human organs using embryonic stem cells. “To complete this process first scientist harvest stem cells, allowing them to double in a petri dish. The stem cell mixture can then be placed into a 3D printer, which is encoded to create an organ” (Griggs Para. 8). The technology for bioprinting isn’t yet complete but within the next few years bioprinting will be a real possibility. With the help of bioprinting, patients who have been waiting on organ transplant lists will no longer have to wait month or years for a compatible organ. Organ transplant wait times could be shortened days. With the use of this technology, “people who would once have to wait in anticipation on whether or not they would even receive an organ, will have the ability to get a brand new organ print from their own cells” (Hsu Para.2). Recently, a group of scientist tested a similar process by bioengineering a trachea for piglets made from the stem cells of different piglets (Castillo Para. 4). It was concluded, “three months after the bioengineered trachea was planted, the baby pig tripled in weight and doubled in size" (Castillo Para. 4). This proves the bioengineered trachea caused no harm to the piglet; it allowed them to grow and mature the

Elizabeth (2014) stated that 3d printing technology is being used in the medical industry. It is being found in dentistry and in one case over 75% of a skull was replaced. Elizabeth (2014) goes on the say that 3D printing is being used to print living tissue which is used

Another application is the ability to print models of patient’s organs and specifically plan the surgery. For instance, surgeons used an MRI to scan a patient’s brain and print an exact replica. A surgery was needed to remove a tumor. The surgeons could see the depth of the tumor and specific details. This technology allows them to plan and practice the surgical procedures for each patient’s case. (see image above) The 3D printing technology has improved how doctors can plan and practice to be able to perform precise procedures.

In the article, The Future of 3D Printing in Healthcare, it talks about how 3D printing creates many advantages because of the amount of customization that can be done.It says how, 3D printing is already used to create dental implants, hearing aids, contact lenses and prosthesis that are customized to the patient. It also talks about how you could print a 3D model of a person’s organ such as their brain or heart. This enables them to find defects in the organ. Also, it said that the next step up would be 3D printing artificial organs. One quote that stood out to me was “Because 3D printed designs can be unique and cool, things like prosthesis that used to be something to hide are now a fashion statement,” said Sarah Boisvert, the chief 3D printing

Recently there have been various articles on interesting things that have been made through printing. And in particular, objects created through the use of 3D printing have come into the world of technology. The reason I believe that this technological trend is interesting because the objects that are being printed here are microscopic.When created, these materials would be used to make essential things like biological tissue. With all the medical issues that impact our world today, any new innovation that seem to create another medical alternative seems like a great idea. This is an example of technology that affects others because later on it can provide those without medical options another alternative.This could do so much for the

As for the uses of 3D printing, there have been many revolutionary advancements in many different fields. The military even uses 3D printing to create parts for their vehicles. The Marine Wing Support Squadron 372 was able to print a door handle for one of their humvees in the Arizona desert (Schlel). 3D printers have made their way into research labs, universities, and medical offices around the world and allow people to create customized products that would have previously taken weeks or even months to produce. Perhaps the most amazing impact this technology has is in the medical industry. The way it works is that the printers use bio ink, which is a gel made of live cells which is housed in a specialised printing cartridge. “Another

All the techniques contain advantages and disadvantages, but a problem that needs solving before used clinically, is advancing the printer technology. A 3D-printed organ must contain the ability to perform all the functions of a real organ as