In addition an anticipatory ethical analysis will be conducted based upon a projection of future possibilities related to the confluence of 3D technology, nanotechnology and organ printing. In general practical ethicists attempt to identify and address social and ethical issues that arise in the world around us. Abstract. This is a review of some of the recent developments in the application of 3D printing to medicine. The topic is introduced with a brief explanation as to how and why 3D is changing practice, teaching, and research in medicine. Then, taking recent examples of progress in the field, we illustrate the current state of the art. In the next section, we will delve into the ethical dilemmas associated with 3D printing technology, examining considerations related to intellectual property, privacy, and safety. Ethical Dilemmas. As the field of 3D printing continues to advance, it raises numerous ethical dilemmas that society must grapple with.
Furthermore, the cost of 3D printing-assisted treatment offer to the patient is a serious ethical issue. This may not be affordable or inexpensive if the medical application of 3D printing is left in the hand of the private health care sector.
It is expected that the world’s demand for 3D printing will rise to US$5 billion in 2017. Recent Legal Development. In October 2014, Yoshitomo Imura, a 28-year-old Japanese man, was sentenced to two years’ imprisonment for making 3D-printed guns and sharing the process online. He was the first person jailed for printing 3D guns.
This chapter provides an overview of the regulatory environment for 3D printing and 3D bioprinting, focusing on IP and medical device regulation as these are the two frameworks which are most applicable to uses of 3D printing in the medical sphere. After a broader consideration of the relationship between law and 3D printing in medicine, the The circular economy is a concept that seeks to make optimum use of resources in order to avoid waste. A recent flurry of sustainability announcements from 3D printing firms have revealed new eco Improvements in 3D printing technologies, coupled with the proliferation of domestic 3D printers, have allowed the public to print almost anything, including firearms. In 2013, the blueprint for the world’s first fully 3D-printable gun, The Liberator, was uploaded and within two days, the CAD file received 100,000 downloads (Greenburg, 2013).

The sheer narrow sheets play a vital role in bioprinting. They allow the printers to develop functional, layering individual cells, proteins, and an extracellular matrix. The three basic types of 3D printing include biomimicry, independent self- assembly, and miniature tissue blocks. The creation of the 3D structure creates all the difference

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    • ethical issues of 3d printing