The combination of engineering and healthcare has brought many beneficial breakthroughs in science. For instance, biomedical engineering prepares students to develop life-saving technologies. It is especially relevant to the advancement of prosthetics.
Are leaning towards becoming a prosthetist? Then, you can build a meaningful career and use it to improve the lives of people around you. Of course, it will involve your enormous efforts to get the license to practice. And, you will have to experience several all-nighters or refer to https://essayhub.com/buy-an-essay to buy an essay. Despite all this, the aim can be completely fulfilled in the end.
For those students seeking to excel in this field, here are the latest modern advancements in prosthetics that you need to be aware of.
Prosthetics That Can Feel
Jacob Segil, the program director for the Center for Translational Research at CU Boulder, has been working on the project to design artificial limbs that can help amputees feel. The final goal is still far off, but the team has come a long way since its beginning. They have developed a unique “neural interface” that might give amputees a sense of touch back in their missing fingers.
According to the study in Scientific Reports, the project team has demonstrated a sensory restoration technology. It can be effective in helping an amputee adopt a series of postures. Segil has recently received a $1 million award from the VA to continue his work. It will allow him to finish this project and make the golden standard of a physiological hand a reality.
Ultrasound Technology in Prosthetics
The National Institutes of Health have recently awarded Siddhartha Sikdar and his team a Bioengineering Research Partnership grant to develop the use of ultrasound in prosthetics for commercial use. The idea is to make ultrasound instrumentation small enough to integrate it into a prosthetic socket. In effect, scientists expect the technology to use set algorithms to interpret the ultrasound signals and control prosthetic hands.
The team is working with the Walter Reed National Military Medical Centre to test this technology in the military population.
On the side, they are also completing studies in using a benchtop system in amputee subjects. The next step is to perform lab tests and clinical trials in preparation for FDA approval.
AI in Prosthetics
It seems like AI has been playing a crucial role in every industry. As a student, you might be already relying on AI-powered search engines. For example, learners look up writing services reviews on https://nocramming.com/ or proofread their essays with online tools.
In robotic prostheses, AI has become crucial for all motor-driven upper limb development. Yet, it has been challenging to apply the concept to lower limbs.
In March 2020, the University of Michigan published a study documenting a new method to use the technology in other types of prostheses. Based on Regenerative Peripheral Nerve Interface, the technique suggests that surgeons use a small piece of muscle to wrap it around an amputated nerve to produce signals.
The specialists can then apply AI to convert the signals into movements in the prosthetic. Scientists expect this surgery to work on any amputated part.
If you are thinking “how can I write my essay on the latest advancements?”, you might not want to ignore the role of 3D printing in medical innovations. It has become a cost-effective method of creating functional prosthetics. The technology has been instrumental in producing prosthetics for children. Utilizing lightweight limbs can help them tackle a day a bit easier.
It can even add a touch of personality to the prosthetic arms, allowing children to express themselves.
Electronic Skin to Experience Touch
In 2018, a team of engineers at Johns Hopkins University succeeded in creating an electronic skin. This, when layered on top of prosthetic hands, allowed an individual to bring back a real sense of touch through the fingertips.
The e-dermis was made of fabric and rubber, with sensors added to replicate the nerve endings. The electronic skin can recreate the sensation of touch and pain. It senses stimuli and sends the impulses to the peripheral nerves. Engineers deem it one of the non-invasive ways to make robotic systems more humane for the betterment of lives.
As you can see, the field of prosthetics is going through a progressive phase. Today, the programs are preparing future graduates to develop valuable industry skills. They have the possibility to narrow the gap between engineering and medicine.
Becoming a biomedical engineer or a prosthetics is your path to growing into a leader in interdisciplinary research. You can help develop life-saving technology that brings in the new era of innovative medical engineering in the world. So, if you feel that this area is for you, start studying it right away!