3D printed organ

3D Printed Organs

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3d printed organsSince the 3D printers arrival, most of business industries have been discovering innovative approaches in order to improve the life of human beings.  From models and different creative toys to the applications of food by NASA, it can be seen that 3D printers in this modern era are proving to be extremely adaptable. One of those business industries that have experienced some established discoveries is the health industry. At the Institute of Wake Forest which is for the Regenerative Medicine, the researchers have proclaimed that now it is possible to have 3d printed organs and 3d printed body parts. In this particular article, the custom-made 3d printed body parts and 3d printed organs and their importance will be closely studied.

For the regenerative medicine, the custom-made, living body parts and organs have been exclusively 3D-printed in the considerable progress.

The muscle, cartilage and bone section all worked properly while implanted into different animals. This advancement raises the hope of employing living organs and body parts to fix the body.

The experts have explained this technology, which is developed in the USA, as the goose that in fact does lay golden eggs in the health industry.

The notion of locating the human tissue in a particular pattern just to substitute scarred muscles of the heart, or a damaged jaw or a missing ear keeps much promise.

But this field as been constrained by the massive challenge which is to keep those cells alive- they turn out to be starved of nutrients and oxygen in the tissues which are thicker than about 0.2mm.

The Wake Forest Baptist Medical Centre team have created the latest technique that their 3D-printers print a tissue which riddled with different micro-channel, in spite of a sponge, in order to allow the nutrients to infiltrate tissue.

Successfully 3D Printed Health and Organ Living Body Parts and the Future


Advanced and Innovative Technology Behind the 3D printed body parts and 3d printed organs

Integrated Tissues and Organ Printing System which is also known as ITOP is more complicated than other basic 3D printers that can be seen at different stores of office supply. Though the used technology is same, the elements and features are much dissimilar.

For the replacement of tissue and organ, the benefit of employing the system of ITOP is that the organs can be fixed for patients with unbelievable accuracy. Should individuals require a bone replacement; an accurate size can be taken from them and then printed without any difficulties that come with plastic surgery or bio transplant. In spite of a synthetic implant process, the organ or body part turn out to be human body’s living piece.

Furthermore, the ITOP employs water-based gels and bio-degradable plastic that have human cells and also encourage their growth. This particular system re-establishes the formations of tissues while employing the micro-channels in the material. These micro-channels permit the nutrients and oxygen to circulate all through the structure. As time goes, the encouraging content degrades carefully in the structure because new blood vessels and tissues start to form naturally.

In addition, when these parts were fixed into the animals, the plastic decrepit because it was completely replaced by the structural and natural proteins’ matrix which was generated by cells.

In the meantime, the nerves and blood vessels nurtured into implants.

As per to the lead researcher, now, the tissues can be printed on the human level.

While such implantation’s have similar potency as the human tissues, now the experts are waiting to see how much durable and strong they are.

But, it has been observed that 3D printing technology is opening new phases for health and medicine industry.

According to the lead researcher; let’s assume that a patient has come up with the jaw bone injury and there is also a segment missing. The experts would bring the particular patient, do the measurement through imaging process and take the data of imaging and then send to through software to drive the 3D printer to make a jawbone pieces that would fit exactly in the patient with any complications.



The Same innovative methods in which biodegradable scaffolding is established initially and the saturated in the cells are being employed in patients already.

For example, two years ago at the Wake Forest females were provided lab-grown vaginas, but the treatments’ range is restricted by keeping these cells alive.

In this particular study, the researchers printed a road assortment of tissue strengths, from the muscles as soft tissues to the cartilage and from bones as hard tissues demonstrating a wide range of strengths of tissue is possible.

The expectation is to sustain work on such advanced technologies to aim other tissues of human as well.

One particular company is at the forefront of this Technology. Discover more about Biobots


And finally, aspire to print into the patient directly.The view of 3D printed body parts 3D printed organs for the implantation process has been a real concept for some time, but in this field rapid development has not been observed.

3D printing organs pros and cons

3D printing is a creative group of technologies that helps to create 3D objects and working greatly in the field of health and medicine specifically for the patient care and artificial organs. Being a doctor, I would say that the technology of 3D printing is become inexpensive and easy enough to be employed by the consumers. The convenience of software which is downloadable from the 3D printing designs repositories has propagated, massively because of extending executions and low cost. This technology will help the patients to get precise customer-made 3D printed body parts and 3D printed organs, which will be low cost and accessible as well. But again the problem arises that the researchers have managed to develop a great technology, but still more investigation to be conducted before the 3D printer can be employed in patients.

Moreover, this has been the complicated features of keeping the tissue alive to do a transplant successfully. Without the active cells, the body of the human can refuse the 3D printed body parts and 3D printed organs. It has been identified that by developing a tissue printed network which is completed with the help of micro-channels that printed body parts would get the required oxygen and nutrients to sustain feasibly. Basically, it is developing a vascular system with the 3D printer. Its only a matter of time before we are 3D Printing our own biological body parts to order.


Written by Dr. Alex Patel


3d printed organs will be a revolution for medical science





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