Advancements In Surgery Coverage: European Health Insurance Considerations – Healthcare is one of the most important industries, and developing it helps cure many, even sometimes, rare diseases. Mainly thanks to technological advancements in the medical field, which enabled a deeper understanding of humanity.
Technology plays a huge role by giving more insight into the human body. However, development cannot happen without considering other things that stand in the way of a better and healthier future. Others include rising health care costs, rising inequality and climate change.
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The presence of technology in medical applications creates new opportunities for patients and medical staff to live in a more sustainable environment and fight previously incurable diseases. Technologies such as artificial intelligence (AI), machine learning, virtual care, the medical Internet of Things, and 5G are just a few examples that improve healthcare. How? Read on to find out.
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Artificial intelligence is developing in many industries, among others, healthcare. With multiple applications, such as examining patient information and other data, and the potential to develop new drugs and improve the effectiveness of diagnostic procedures, AI is one of the most important technologies in healthcare.
Machine learning, which is a type of AI, has a huge impact on the healthcare sector. Recently, this technology is helping, for example, to analyze CT scans to treat the effects of the coronavirus. But artificial intelligence has many other uses that go beyond the treatment of infectious diseases. For example, AI improves cancer diagnosis. For decades, biopsy was the primary method of diagnosing cancer, but it did not provide a complete picture of the organ tissue. Digital scans of specific regions that may be affected by cell mutations are now an important component of contemporary histopathology techniques. Pathologists can view fairly large sections of the human body at once using whole-slide images or WSI (whole-slide imaging).
The promise of artificial intelligence in medicine is to provide comprehensive, panoramic views of individuals’ medical data. to improve decision-making; To avoid errors such as misdiagnosis and unnecessary procedures; to assist in the ordering and interpretation of appropriate tests; and to prescribe treatment. Eric Topol, Deep Medicine: How Artificial Intelligence Can Humanize Healthcare Again.
Another example is Microsoft which created a radiation AI technology called Project InnerEye. The project demonstrates how AI can improve a clinician’s ability to arrange radiotherapy up to 13 times faster.
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Combined with AI and other technologies, data integration and predictive analytics help extract relevant insights into patient conditions. Thanks to AI tools, such as robots that enable integrated data and predictive analysis, medical staff can gain insight into a patient’s medical record, make more accurate diagnoses and decide which treatment is right for them. will work best for
Robots collect data and predict (sometimes before doctors) what a patient will need. However, this raises concerns about the presence of robots, for example if they could actually replace people in their jobs. Such visions are already common in science fiction films. For example, the robot ‘Baymax’, known from Big Hero 6, can measure the intensity of a patient’s pain, report when the patient is in danger and act and tell who C medicine is required.
However, reality is not like the movies. AI cannot replace doctors but rather helps them get the diagnosis, medications and treatment plans recommended based on a patient’s specific medical records, history and current symptoms. Healthcare staff will be able to use the results of this thorough and comprehensive analysis of healthcare data to improve patient outcomes, lower costs and increase staff job satisfaction.
According to the World Health Organization, mental health problems are increasing worldwide. Over the past ten years, mental health illnesses and substance use disorders have increased by 13%, mainly due to demographic changes (2017). Currently, 1 in 5 people are living with a disability due to mental health problems. Recent impacts have been mainly due to the use of social media and the COVID-19 pandemic.
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Over the past year, many new technologies have been developed that can help meet the ever-changing demands of patient mental health. As many things have gone online, many psychologists and psychotherapists offer their support through video communicators. There are also digital therapies (DTx), and some applications are being able to complete a patient’s dose and offer an early diagnosis. Therefore, medical personnel are trying to find solutions to help as many people as possible.
AI in mental health is not only common in apps, but can also be used to identify diseases with symptoms, including a number of mental symptoms caused by chemical changes in our brain, for example, dementia. There are many different types of dementia, but Alzheimer’s disease is one of the most common and is characterized by problems with reasoning, memory and communication. One of the best strategies for treating dementia is early detection.
The Internet of Things (IoT) refers to the overall network of interconnected devices as well as the technology that enables inter-device and inter-cloud communication. The medical industry, often referred to as the Internet of Medical Things, includes cutting-edge medical technology such as wearable sensors, 5G-enabled devices, and remote patient monitoring. Some such devices can be purchased from Moxa, take a look here.
One of the IoT developments is a smart tablet that provides medical care providers and doctors with information from inside the patient’s body (called the Internet of Bodies). According to Gartner, smart tablets are edible sensors that can record various body measurements. They can also be used to measure the effects of medication and to confirm that the patient has taken it as directed. The first FDA-approved smart pill was released in 2017.
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Other virtual care features include security, location services, teleconferencing, appointment management, secure messaging, healthcare provider diagnostics, visit history and wearable connectivity. Additionally, primary care facilities and clinics can now act as remote hospitals, for example, for basic ultrasound examinations of pregnant women and remote data sharing for virtual collaboration.
Digital therapies, mentioned above, are solutions for patients suffering from chronic diseases that require continuous care. Care may cover symptom monitoring, medication changes, and behavioral changes. Such digital therapies can be prescribed to the patient by accessing them through a computer or app on their smartphone.
Another example of remote care would be serial-based bedside monitoring devices that enable medical staff to electronically monitor the condition of their patients. Some such devices are described here.
Mentioned only within IoT innovation – wearable or wearable technology is a group of electronic devices that can be worn as an accessory, implanted on the user’s body, incorporated into clothing It can also be tattooed on the skin. But we will talk about wearable devices not as a gadget but as a major innovation in the healthcare industry. For example, smartwatches allow remote monitoring of a patient’s condition by providing information on heart rate, blood oxygen saturation and blood vitals. Wearable devices such as pedometers and various sensors can also measure a patient’s physical health.
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However, smartwatches are not the only wearables that improve the clinical diagnosis of a patient’s condition, as are biopatch technology and smart hearing aids. Biopics can provide better insight into a person’s biology. The noise isolation of hearing aids can also be enhanced with artificial intelligence.
3D printing, which we wrote about in the article Learn about industrial applications of 3D printing, is the technology behind bioprinting. 3D printing finds its application in the healthcare industry through the production of things such as external prostheses, cranial or orthopedic implants, and personalized airway stents. However, it has also demonstrated value in surgical planning and has been applied to challenging open-heart procedures, including full-face transplants at the Cleveland Clinic.
Ohio State University’s Wexner Medical Center is working on a system they believe will allow robotic surgery devices to print living cells, bones and eventually organs into patients’ bodies. Something that could save the lives of people fighting cancer. Thus, we have reached something that refers to bioprinting, so 3D printed organs. While it may sound unrealistic, this idea has already entered clinical trials. Organs being tested in clinical settings for 3D bioprinting include the ear, cornea, bones, and skin.
We have already mentioned cancer in this article but did not mention that immunotherapy (also known as immuno-oncology), a type of cancer treatment, has also advanced and is now changing the patient’s life. Can be quite long. Immunotherapy is based on the idea that cancer can be treated by genetically modifying a patient’s cells, so they cooperate with their immune system. It boosts immune system activity to help fight cancer. Immunotherapy does not damage healthy cells like chemotherapy does. It uses the body’s own immune system to identify and kill specific cancer cells while slowing tumor growth.
Augmented and virtual reality (AR and VR) has many uses in healthcare. These technologies allow digital and physical environments to be connected in a multidimensional way. The development of augmented reality mainly depends on artificial intelligence. As already mentioned, cancer can be detected through image recognition. VR can be used in physical therapy in areas such as trauma, where it can treat phobias. Doctors using AR glasses can overlay CAT scans and 3D.
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