The healthcare sector is transforming, thanks to advancements in technology. We are witnessing new digital solutions that have the capability of reshaping our world. 3D bioprinting is one such technology that has taken the healthcare community by storm.
Most people believe that 3D bioprinting is a technology that can print specific organs easily. But the reality is far beyond this blurred image. 3D bioprinting uses a material, bioink, to create tissue-like structures that imitate natural tissues. However, researchers are working on creating a miniature kidney with the help of technological solutions like BioAssemblyBot. If commercialized, this new method will serve as a true discovery for making patient-specific heart tissue printing. Isn’t it amazing? Well, medical science and technology, together, create a forte for human beings. So let us throw light on what the emerging future of the healthcare industry holds for 3D bioprinting.
3D- Bioprinting Can be the Solution for the Worldwide Organ Shortage Crisis
The world holds a greater number of organ shortages than it shows. More than 2,000 children on the waiting list for transplants – and more than 100,000 Americans across the country – are waiting for the same organ. Most children between the ages of one and ten are waiting for a kidney, liver, or heart. As with any implant, there are two ways to get an organ – one can donate, or one can die.
Unfortunately, the supply is much lower than it should be, leaving people on the verge of dying, longing for another chance to live their lives. However, scientists are still doing their best to develop technology that is very effective in medicine, such as 3D bioprinting that can help save thousands of lives, saving the effort of finding a donor for themselves.
However, unlike cruel aliens, bioprinting isn’t only available in sci-fi movies, but it’ll also transform health care within the decades to return. Before we get into the details, let’s separate the technology itself. Three-dimensional (3D) bioprinting is a modern technology that describes the creation of living tissue, such as blood vessels, bones, heart, or skin, with the additional 3D printing technology.
Traditional 3D printing means producing three solid objects from a digital file, using the placement process. In its most common form, the source material, such as plastic, is reduced, and the machine adds layer after layer to the platform until it has a fully formed object.
The Involvement of 3D-Bioprinting in the Advancement of Medicine Industry
According to the latest figures, the current average cost of organ transplants in the U.S. could rise to more than $ 1 million. United Network for Organ Sharing (UNOS) has stated that there are more than 113,000 patients in the U.S that are currently waiting for their transplants to take place. A spokeswoman for UNOS, Anne Paschke, states: “Only one to two percent of all deaths are organic. Any technology, including 3D bioprinting, which ultimately reduces the need for donated organs will simply save many lives”.
3D bioprinting is not only designed to improve the quality of patient care but also to simplify pre-operative surgery. It seems that the potential medical use of 3D printing is endless. This procedure can improve medical outcomes by helping surgeons plan their surgery more effectively.
The Final Word
Major advancements in the usage of 3D bioprinting in the future are expected to be in the next 10-15 years, which will focus on drug modelling and cosmetic testing. The involvement of 3D bioprinting will play a major role in clinical trials on animals for bioprinting tissues. It will combine 3D bioprinting with microfluidics. This allows the development of a future generation on an organ-on-a-chip basis.