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Do you want to know how far medical technology has progressed?

"Technologies that diagnose, treat, and improve a person's health and well-being" are referred to as medical technologies. This definition encompasses both low-risk and high-risk medical devices such as pacemakers, in vitro diagnostics, surgical gloves, and medical thermometers, all of which are used to save patients' lives all over the world.

With numerous devices that help healthcare professionals diagnose and treat patients more quickly and precisely, as well as support patients in recovering from illness or disease and improving their quality of life, significant advancements in medical technology have made it easier to treat patients over time.

More information about a patient's health is now available to them than ever before. The benefits of progress, let's examine a few developments in medical technology that are reducing the urgency to seek emergency medical attention and worry more:

Artificial Intelligence

Early disease identification and quicker, more precise diagnosis assurance have both been to benefit from artificial intelligence (AI). A wide range of industries, including banking and financial markets, education, supply chains, manufacturing, and healthcare, are being grown and improved by AI.

The main application of machine learning in healthcare is processing enormous amounts of patient and other data.

By tracking early cardiac disease with AI, clinicians might identify potentially fatal issues at earlier, less severe stages. Additionally, AI is assisting doctors in developing more thorough therapies that will give patients better control over their medical situations.


The delivery of medical services using telecommunications networks is known as telemedicine.

In other words, telemedicine is the practice of using information and communication technology to deliver clinical care remotely. Since the COVID-19 outbreak began in 2020, it has grown in popularity as a result of the time saved by avoiding travel and waiting for areas. Reduces the risk of coming into contact with infectious germs, viruses, and other infections.

Telemedicine benefits healthcare professionals by lowering overhead expenses, reducing exposure to sickness and infection, and allowing practitioners to work more flexibly so they can see more patients. As the number of people in need of healthcare increases, technologies that enable group sessions and allow multiple patients to be supported simultaneously is to be expected.

The 4D ultrasound

The only ways to monitor the health of the fetus in the past were the recording of fetal movements and auscultation of the fetal heart rate. The fetus can now be seen directly because of the advancement of new ultrasound methods in recent years.

Real-time picture capturing complements 2D and 3D examinations and has just recently been implemented in medical practice. The moving images of the fetus are produced by the 4D ultrasound, which emits sound waves from various angles. If there are abnormalities, doctors can note them. Additionally, a patient may ask their doctors for a DVD copy or still pictures of the infant.

The earliest time to get the greatest images for a 3D or 4D scan is at around 24 weeks and up to 34 weeks.

3D Printing

With the use of 3D printers, the procedure is quicker, more affordable, and more practical for both the patient and the physician. 3D printing is a method for constructing three-dimensional items layer by layer using a computer-generated design.

Radiography images printed in 3D:

It is important to be aware that digital 3D print files can be created from 2D pictures such as X-rays, MRIs, or CT scans, enabling the development of complex, personalized anatomical and medical structures. Due to the method's adaptability, 3D printing has uses in a variety of sectors, including aerospace, rail, automotive, and medicine.

Camera pills

The medical term is called Capsule Endoscopy. An endoscope, a device used to view a hollow organ or bodily cavity, is used during an endoscopy, a phrase used in medical terminology to describe looking within the body for medical reasons.

The camera pill is a tiny, pill-like camera that may be swallowed by a human. A wireless recorder that the patient wears on their belt receives images of their intestinal villi from a camera that they ingest that goes through their intestines. This device stores the data so the doctor can check it later and determine whether there are any problems. Why is it done? Examine your esophagus, identify the source of ulcerative colitis and gastrointestinal bleeding, make a diagnosis of cancer, celiac disease, malabsorption disorders, and inflammatory bowel diseases including Crohn's disease.

mRNA (Messenger Ribonucleic Acid) Technology

mRNA is a key element in our fight against COVID-19.

What does mRNA exactly do?

For a healthy body, our cells continuously produce proteins. mRNA serves an important function in this process as a messenger. The cells employ this to carry the DNA's instructions or code, which are used to build different types of proteins. When receiving a vaccination, mRNA is given inside a protective fatty coating that also permits the mRNA code to enter our cells. It instructs the cell to create a spike protein, which is the same protein that the Covid-29 virus contains. As a result, the body, identifying these new spike proteins as foreign, may recognize and fight the genuine virus.

mRNA vaccines are just the start of a revolution in RNA-based medical technologies.

The Covid-19 mRNA vaccines' effectiveness has accelerated efforts to create more mRNA vaccines. The promise of mRNA is believed to go beyond vaccinations. Since almost any protein may be encoded by mRNA, the same fundamental technology might also enable the development of a wide range of treatments by inducing a drug-like reaction in the body.

Hence, by making the human body responsible for producing proteins, mRNA technology could speed up research and reduce costs.

Health wearables

Wearable technology has a wide range of applications in healthcare, from physiological conditions like cardiovascular disorders, hypertension, and muscle issues to neurocognitive illnesses like Parkinson's disease and Alzheimer's disease. The need for wearable technology has grown since it first gained popularity in recent years, especially following the introduction of Bluetooth in 2000.

Several wearables are used to achieve this goal, including biofluidic, skin, and wearables based on tattoos and textiles.

The smartwatch is one of the wearables that are most frequently used in the healthcare industry. Depending on the model, they can record electrocardiograms, blood pressure, oxygen saturation, and sleep patterns.

Smartwatches with blood glucose sensors are now being developed by manufacturers, making it simpler for diabetics to manage their disease. Wearable device demand is expected to rise over the next few years as more people express a desire to share their health information with doctors.

With this, Doori Healthables becomes an all-in-one smart health monitor that tracks vital signs such as blood pressure, oxygen levels, heart rate and HR variability by showing numerical values at the tip of the finger rather than utilizing a wrist cuff, arm cuff, or by wearing it on the wrist like a smartwatch.


Newer and more efficient cures and treatments are becoming available as a result of medical technology breakthroughs, which will help people live longer, healthier lives with greater enjoyment.

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