Technological advancement in the healthcare industry

Medical Technologies and its Advancement in The Healthcare Industry

As technology continues to drive the pace of progress in biomedical research and healthcare, the traditional line between engineering and medical science grows ever thinner.

As medical machines and the computers that power them become smaller, faster, and smarter, the medical device industry is making medical practice easier for doctors, more effective for patients, and cheaper for the entire healthcare system.

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According to industry observers, one sweeping change is a “convergence” of consumer-focused technology into the once-rarified world of device design.

Consumer-friendly wearable or unobtrusive monitors comprising a range of sensors and communications devices are:

1) Cancer Nano therapy

Nanotechnology is fulfilling medical science’s need for more precise treatments that are less invasive, less costly, and less complicated to administer than traditional methods.

That translates into better patient outcomes, lower healthcare costs, and wider access to healthcare services in under-resourced parts of the world.

2) Brain-Machine Interfaces

At least 100,000 Africans live with an upper-arm amputation and 6 million others are paralyzed.

Although many approaches involve the direct implant of a sensor into the brain itself, newer research focuses on the use of external devices such as headsets to relay brain signals to limbs, wheelchairs, or other ass

3) New Take on a Classic Tool

The humble stethoscope is back and coming to a smartphone near you. This fixture of every kid’s toy doctor kit has been outshone by today’s arsenal of sophisticated electronic diagnostic tools.

Doctors and nurses still pay attention to a patient’s heart and lung function, of course, but now it is often easier and more definitive to order x-rays, electrocardiograms, or other more advanced tests.

The scope could help reduce healthcare costs related to unnecessary specialist care by helping general practitioners take more advanced measurements on their own.

4) Wireless Wonders

The pulse oximeter has been one of the most widely used devices for hospital patient monitoring for decades.

These compact devices typically are clipped on a patient’s fingertip to measure levels of oxygen saturation in the blood ; a critical measurement for anesthetized For conditions such as chronic obstructive pulmonary disease, sleep apnea, and a range of cardiovascular diseases.

Remote monitoring of pulse oximetry measurements is a valuable way for doctors to keep in touch with their patients without the hassle of a clinic visit.

5) Genome Editing

Genome editing Has emerged with breathtaking speed as a disruptor in the life sciences realm : It has even been called the “discovery of the century.

Scientists have found ways to use the material to block or add in specific genes to an organism’s genetic code to achieve desired results.

Although the high-price impact of technique on science is often compared with the polymerase chain reaction (PCR) method that transformed genetic engineering 30 years ago. While PCR’s gene amplification method helped decode the human genome, CRISPR provides the real possibility of adjusting the genome to achieve desired goals: elimination of genetic diseases, eradication of pathogens, and so forth.

On task of slicing and dicing stands of DNA is very much an engineering challenge.

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