How Advance Technologies will Change the Healthcare Industry

As we know technology is continues changing the healthcare industry. Here is how technology advance the future of healthcare industry?

The future of healthcare is shaping up before our eyes with advances in digital healthcare technologies such as artificial intelligence, VR/AR, 3D-printing, robotics, or nanotechnology. To be able to control technology, we need to familiarize ourselves with the latest developments and not vice versa.

The future of healthcare lies in working with technology, and healthcare workers must embrace emerging health technologies to remain relevant in the years to come.

How will Technology Advance the Future of Healthcare Industry?

If you’re ready to explore the technological innovations driving the healthcare industry toward digital transformation this year, let’s take a look at the most important technologies that have the potential to transform your organization.

1. Artificial Intelligence (AI) in Healthcare

In many industries, artificial intelligence has made big waves as a useful technology in 2022, especially for healthcare.

• AI in Diagnostics and Drug Development in Helthcare Industry

There are many uses for artificial intelligence that go beyond pandemic treatment and response. For increasing information efficiency, AI is incredibly beneficial. Machine learning has a huge impact on the healthcare sector’s ability to develop new medications and improve the effectiveness of clinical procedures.

AI is assisting in the analysis of CT scans for COVID-19 patients in order to find pneumonia. In order to aid in radiotherapy, Microsoft created Project InnerEye. This significantly shortens the time needed to complete the patient’s 3D contouring, from hours to minutes. 

The project is publicly available on GitHub. Another Microsoft AI system for cataloging biomedical research papers from PubMed is called Project Hanover. This shortens the time it takes to diagnose cancer and determines which medications should be administered to each patient.

• AI in Mental Healthcare Industry

Innovation in artificial intelligence isn’t limited to improving physical health. Machine learning has been used by researchers at MIT and Harvard University to monitor trends and mental health in relation to the COVID-19 pandemic. 

They discovered that topics about loneliness and suicide have increased by almost twofold over time after using an AI model to examine thousands of online Reddit messages. It might alter how we think about the state of large populations’ mental health.

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AI can also be used to identify diseases whose symptoms include many aspects of psychosis and are brought on by chemical changes in the brain. Dementia is one such condition. 

There are many different types of dementia, but Alzheimer’s disease is one of the most prevalent types and is characterized by issues with memory, reasoning, and communication. These conditions exhibit a variety of psychotic symptoms and can progress untreated for years. Additionally, detecting dementia early is one of the best ways to treat it, or in some cases, to treat the symptoms themselves.

Deep learning and AI audio processing improvements have made it possible to analyze human speech to detect early dementia symptoms. Simply put, it is possible to train an AI model for speech processing to recognize differences between healthy and dementia-affected speech traits. These models can be used to diagnose or self-diagnose Alzheimer’s, and they can detect the disease years before it manifests itself severely.

• AI improves cancer diagnosis

For many years, biopsy—which requires tissue extraction for analysis—was the only method for accurately diagnosing cancer diseases. On organ tissue, it does not, however, give a comprehensive picture. 

Digital scans of a particular region that might be impacted by cell mutations are a key component of contemporary histopathology techniques. Pathologists can look at very large areas of the human body at once using whole slide images, or WSI.

WSI appears challenging to use because of the image’s high quality. 

Although WSI scans are quite illuminating, it takes hours of zooming in and out to scroll from region to area until the inspection findings are available. 

As a result, AI programs that process WSI using convolutional neural networks and computer vision have begun to appear. This strategy aids medical professionals by drawing attention to a region where it may be possible to find cancer cells, speeding up the diagnosis process.

Clearly, the AI approach to WSI analysis not only yields noticeable results but also necessitates minimal model training preparation. It has accelerated the use of WSI scanners in the healthcare sector, where they are already a common fixture in hospitals.

• Language Processing

The effectiveness of telehealth may be enhanced by chatbots. Researchers at UCLA developed virtual interventional radiologists (VIRs) by fusing chatbots and AI systems. Its main goals were to aid doctors in diagnosing patients and to enable patients to self-diagnose. 

Natural language processing-based chatbots are not intended to perform primary diagnostics, but they can be used to support the process. Additionally, they are well-equipped to assist in gathering data from patients prior to the start of necessary treatment.

• Key factors to AI in healthcare industry for data transforming

Data is the most crucial component driving artificial intelligence’s success in the healthcare industry. 

The more quality and data we give to the model, the better it will perform. It is essential that your AI team is made up of experienced software developers and data scientists who can work together to deliver the best results.

2. The Growth of Telemedicine and Remote Care

Since the pandemic began in 2020, telehealth has advanced significantly. 

By 2022, medical professionals will frequently meet with patients through video conference via the Internet to listen to their problems and offer guidance. 

The supporting infrastructure has been greatly enhanced. By 2026, telehealth is anticipated to reach a value of $185.6 billion.

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What lies next in light of that?

• Compliance with the rules

Before we even consider that possibility, one of the most important issues with telehealth is HIPAA compliance. Although some restrictions were eased in 2020 during the peak of the pandemic, it is important for care providers to consider the applications they are using to communicate with their patients. Are they safe and certified to handle personal health information?

• WebRTC for video conferencing

In many instances, a more focused solution that can explicitly adhere to legal privacy standards is required. 

WebRTC, an open-source API-based platform that connects a web browser with a mobile application and can be used for data transfer, audio transmission, and video transmission, is one of the most essential technologies needed for a specialised telemedicine software.

• In particular, teleconferencing facilities will benefit from this.Cloud hosting and data storage

Although most cloud storage providers offer reasonably safe storage, they may not always adhere to federal rules regarding protected health information. 

HIPAA compliant cloud hosting solutions are critical to maintaining functionality and efficiency for any health care operation requiring an electronic health record (EVR).

However, teleconferencing and data hosting are not the only features that can be useful to your organization. Other potentially useful features are security, location services, appointment management, secure messaging, healthcare provider reviews, visit history, and wearable integration.

Fitness information from consumer devices like Google Fit and Apple HealthKit may need to be stored in some applications. 

Both the patient and the caregiver stand to gain much from being able to sustain these integrations in a safe and effective manner.

3. Extended Reality in Healthcare Settings

A broad term including expanded reality, augmented reality, virtual reality, and mixed reality has great potential in the healthcare industry. From assisting surgery to assisting telehealth applications, AR and VR technologies can significantly improve the healthcare industry.

• Augmented reality and mixed reality in healthcare

A number of health care settings can benefit from augmented reality and mixed reality. 

The usage of mixed reality headsets by surgeons, such the Microsoft HoloLens 2, is one of the most well-liked and practical applications of this technology. 

You may use both of your hands while having the surgery since the headset can provide information to the doctor.

These procedures can benefit greatly from this top-notch knowledge, and it can also be a collaborative, remote project that helps with training goals.The headset’s head-mounted camera view enables other doctors to observe and advise on surgery. 

The ‘holographic’ nature of the equipment can also be harnessed to enrich the training. Similar applications are possible with an increasing number of AR headsets. More specialized software solutions will also be needed to expand its use to different types of surgery in the future.

AR isn’t just limited to headsets and operating rooms. This technique can also be used to help nurses find veins to draw blood from.

AR development relies heavily on artificial intelligence and specialized sensors to function. Whether you are developing for mobile devices or other types of hardware, appropriate data and software expertise will be required. AR developers focus heavily on leveraging AI along with the target hardware’s software framework to make these products successful

• Metaverse: Future or Hype?

The value of changing Facebook’s name to Meta and emphasising social virtual reality experiences is hotly contested. 

It is ultimately up to you whether or not you want to invest in this. 

There is some promise for virtual reality in medical contexts even though the metaverse is abundant.

Training is one of the most effective uses of VR presently being used in healthcare. 

For doctors, creating virtual training scenarios can help them hone their abilities and get ready for the procedure. 

VR may potentially be utilized as therapy in particular situations. For instance, The Virtual Reality Medical Center offers VR treatment to assist those suffering from PTSD and phobias like a fear of heights.

Elderly patients at Maplewood Senior Living in Connecticut can also benefit from a VR treatment program that helps release old memories and enhance mental wellbeing.

It’s unclear how beneficial Meta’s switch to cartoon-style meetings will be as a substitute for conventional teleconferencing. However, it may be good for VR treatment. 

However, several innovations in this field, such spatial audio, have the potential to boost telehealth systems’ efficacy through the provision of more engaging online experiences.

4. IoT and Wearables in Healthcare

With wearables and IoT technologies becoming more popular, their potential has grown tremendously in the healthcare industry. Many call this trend in the Internet of Medical Things microprocessing for applications in telemedicine and telehealth technologies.

By early 2021, 11.3 billion IoT devices were connected.The market for IoT medical devices is anticipated to grow from USD 26.5 billion in 2021 to USD 94.2 billion by 2026. 

IoT cannot be ignored given how interconnected the healthcare sector is becoming thanks to these technologies.

• Benefits of IoT Wearable Devices in Healthcare Industry

The development of wearable technology is one of the most significant advancements in the healthcare sector. It is extremely useful to be able to keep tabs on a patient’s status from a distance or for an individual to do so on a daily basis. 

According to a Deloitte poll, 39% of consumers own a smartwatch. 

Consumer smartwatches are becoming more readily available, so it’s important to consider how they may be applied to healthcare.

A smartwatch’s ability to track heart rate is one of the most fundamental features that can be beneficial for keeping tabs on someone’s health. 

But a smartwatch can measure much more than just that. Utilizing a pedometer and measuring blood oxygen saturation, these gadgets may also track physical wellness. Without specialised equipment, low blood oxygen saturation is challenging to detect. 

Smartwatches with this sensor can save lives because this is potentially a life-threatening circumstance.The capacity of smartwatch users to measure significant volumes of blood is also increasing. An optical method called photoplethysmography (PPG) can gauge changes in blood volume and composition.

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It can now provide consumers more information about their vital blood-related data than ever before because it has been reduced in size for usage on smartwatches. Healthcare providers can use this data to advise patients and help them complete a diagnosis.

Smartwatches aren’t the only wearables that have potential for the healthcare industry. The effects of the bio patch and smart hearing aid are same. 

Without the usage of a smartwatch, bio patches can give a greater knowledge of a person’s life. 

Artificial intelligence can also be utilised to enhance hearing aids’ ability to isolate noise.Smart Pills

The idea of the smart pill, which transforms the Internet of Things into the Internet of Bodies, is one of the most revolutionary uses for IoT technology in healthcare. 

Smart pills are edible electronics that are used as medications and may also give medical professionals important patient data. 

2017 saw the introduction of the first FDA-approved smart medication.

• Creating an IoT Solution

With the industry trend of using multiple microcontrollers at once, it can be challenging to get all of these computers to communicate with each other. 

Another hurdle that needs to be overcome is that almost every manufacturer uses their own proprietary protocols to get their devices to talk to each other. This can make integration difficult.

Connectivity can also be an issue, as many environmental factors can impede communication. To overcome this, the buffering methods on the local microcontroller need to be made more robust. Security is also always a concern.

5. Healthcare Privacy and Security

Beyond the realm of efficiency and quality of care, privacy and security are an important priority in the healthcare industry. In February 2021, Kroger pharmacy data was exposed in a data breach through Excellion’s FTA secure file-transfer service. 

They are not alone. According to HealthITSecurity.com, more than 550 organizations suffered data breaches last year, affecting more than 40 million people.

A crucial first step in preventing expensive data breaches is making sure your firm is HIPAA compliant. 

It could be a good idea to take into account the General Data Protection Regulation (GDPR) rules in the European Union if you provide medical care to individuals abroad.

Some healthcare professionals are able to contact patients who might not be entirely compliant with regulatory standards using applications like FaceTime and Skype. 

There is still no guarantee that any third-party program can fully protect patient data. In addition, it is difficult to keep information secure through remote doctor calls. ePHI data must be transmitted in structured formats, and these calls can complicate the process.

6. Organ Care Technology and Bioprinting

With the size of the world transplant market predicted to reach $26.5 billion by 2028, organ transplantation is certainly an important part of the healthcare industry. 

Matthew J. According to Everly, there are about 2,000 heart transplants in the United States each year. However, it is estimated that more than 50,000 people need heart transplants. What can be done to help all these people with heart disease?

Improving organ care technology: increasing the time for organ evaluation and transportation one of the approaches to this issue is to improve organ care technology. 

It means taking care of the part outside the body. A great example is the Organ Care System developed by TransMedics that is being used by Ohio State University’s Wexner Medical Center. 

This device can keep the heart, lungs or liver out of the body for several hours through proper care, warmth and provision of vital nutrients.

It is possible that the future of this technology may depend on artificial intelligence to take actions automatically without doctor’s intervention to preserve the organ for a longer period of time.

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Perhaps more importantly, machine learning may be able to better determine whether the organ being preserved is suitable for transplant. The sooner this can be determined, the sooner a life can be saved.

• Bioprinting: Creating new organs

Other than keeping the organs alive outside the body, other options should also be explored. Although it may sound like science fiction, 3D printed organs are a very real, though developing, technology that has already made its way into clinical testing. Ears, corneas, bones and skin are all part of clinical trials of 3D bioprinting.

The process is not much different from traditional 3D printing. First a digital model of the tissue must be created. Careful attention is needed to resolution and matrix composition, as the materials used in the printing process are virtually living cells called bioinks. They are then required to test the functionality of the organ with stimulation.

One of the ways to prevent organ rejection is to use cells from a patient in need of a transplant. These cells can be grown in a culture and then cultivated in the required bioink for printing.

Bioprinting has been done in the past but has not become mainstream yet. It is possible that through AI analysis of organs and recipient patient characteristics, organs can be better prepared to adapt to their new hosts.

Future of Technology in Healthcare Industry

As 2022 progresses, healthcare technology will continue to improve in every sector. Although safety will improve throughout the industry, threats are always evolving that must be dealt with through prevention rather than response.

The quality and efficiency of care will continue to improve due to important and evolving technologies such as Artificial Intelligence, Machine Learning and Augmented Reality.

When deciding to modernize your healthcare organization, both time and money are on the line. It is important that you work closely with the right team of software engineers who understand your needs and objectives.

Conclusion

Having discussed all this, we would just like to say that everything in life has two sides to it. While technology may have helped the healthcare sector, it has also brought a set of new problems for healthcare professionals and society in general as well. I

If you want to hire an in-house team of dedicated app developers or a healthcare app development company, feel free to contact Quytech or mail them at info@quytech.com