Among the many benefits of high-tech electronics and the changing landscape of health care are the ability to create personalized prosthetics and 3D skin for burn patients, and full-body MRI scans that can detect multiple cancers. In addition, these technologies reduce the time it takes for specialty consultations and primary care.
Personalized prosthetics and 3D skin for burn patients
Personalized prosthetics and 3D skin for burn patients may be the next big thing in the medical community. Historically, the burn ailment has been treated with surgical excision of the wound and reconstructive surgery to close the burn site. However, with recent advances in the field, more and more burn victims are achieving full recovery.
Unlike a traditional scald or burn, skin replacement is a relatively easy process. Using bioprinting technologies like polymer microfibers, we can now fabricate a skin akin to our own. Moreover, the cost of this procedure is relatively low. Besides, the human body has a natural tendency to regenerate after a burn. Thus, the aforementioned miracle is a boon to the burnt patient.
Several companies are competing to be the first to market, but if it’s skin replacement you’re after, a flurry of hype is sure to reign.
Full-body MRI scans can detect multiple cancers
MRI is a powerful diagnostic tool that can be used to detect multiple cancers. It is an imaging test that uses radio waves and a computer to produce an image of the inside of the body.
It is not only effective at diagnosing cancer, but also at detecting early signs of disease response. Whole-body MRI is a very safe procedure. During MRI, a patient lies on a moveable bed and a strong magnetic field is applied to the patient’s body. It is not uncommon to hear a “thumping” sound during a MRI scan.
The MRI technology used to perform a full-body MRI is relatively new. It is used to generate detailed pictures of soft tissues and bones. It does not use ionizing radiation or contrast agents, which makes it a highly safe and effective exam.
Payment integrity and revenue cycle management services
Managing healthcare payment integrity is important for health care organizations. Payment integrity encompasses several aspects, including contractual compliance, fraud mitigation, prepay and post-pay claims auditing, and data collection. A well-trained staff is important for revenue integrity success.
As the healthcare industry continues to change, payment integrity services are poised to expand. These companies help health care organizations manage complex government reimbursement processes. They streamline compliance for providers and simplify claim data collection. They are also helpful in identifying underpayments.
Today, payment integrity services can be customized to meet the needs of any facility. They offer a variety of technology solutions, as well as professional services. They provide baseline measurements, audit and recovery services, and accounts receivable management. They can also work as an extension of the patient financial services team.
Telehealth reduces delays for specialty consultations and primary care
During the 2009 COVID-19 pandemic, many patients were able to access health care more quickly by utilizing telehealth technology. The ability to see a specialist from a remote location may have reduced delays in treatment and increased efficiency. Moreover, the use of eConsults has the potential to maintain continuity of care for patients who are required to see specialists on an ongoing basis. Increasing the frequency of telehealth services could improve the health of tens of thousands of American patients.
In the United States, approximately 30% to 40% of in-person visits to specialized physicians could be replaced by telehealth consults. This could reduce costs and enhance access to care for the American public. However, there are also challenges to implementing and maintaining telehealth. Specifically, in most countries, telehealth was limited in scope and implementation was not universal.
Digital technologies accelerate the “genomics revolution”
During the past decade, digital technologies have revolutionized the way that individual health is managed. They have also accelerated the genomics revolution, which centers on the health implications of functional and structural variations in the human genome. But how will these new technologies transform medicine?
Among the most important applications of digital technology in health care is its ability to generate large amounts of sequence data quickly. This will accelerate research and advances in clinical markets. The cost of sequencing an individual’s genome has dropped significantly in recent years.
Another application is the use of CRISPR (Clustered Regular Interference Polymorphism) to edit a particular section of DNA. This may lead to cures for diseases that have a genetic basis. The method also enables scientists to study how proteins fold.
Rita Mooney is a keen electronics enthusiast and writer, known for her ability to demystify complex electronic concepts. With a background in electrical engineering and a passion for DIY projects, Rita brings a wealth of knowledge and an engaging writing style to the world of electronics. Whether it’s exploring the latest trends in wearable tech or guiding beginners through their first circuit build, her articles are a valuable resource for anyone looking to expand their electronic horizons.