Vesta Teleradiology

Growth in Demand for Imaging Procedures Will Increase Need for Teleradiology

The healthcare market is experiencing a shift towards outpatient care, driven by reimbursement changes, pandemic effects, and patient preferences, particularly prominent in the U.S. Providers are diversifying into sub-specializations like neurology and oncology, raising the demand for advanced imaging like MRI and CT. This trend has led to increased utilization of outpatient imaging and teleradiology services.

By the NuMbers

Diagnostic imaging is becoming increasingly crucial in healthcare, with the market projected to reach $31.9bn in 2023 and grow at a 4.8% CAGR to $45.8bn in 2030. The rise is driven by chronic diseases, an aging population, and post-Covid-19 demand recovery. To meet this demand, companies are focusing on advanced and accessible technologies, such as handheld ultrasounds. About 1,949 imaging devices are in development, with 112 expected to gain approval in 2023.

According to Fortune Business Insights, in 2022, the computed tomography (CT) segment held the largest market share due to a rise in CT scan procedures and higher average pricing. For instance, OECD data for 2021 showed 84.5 million CT scan procedures in the U.S., up by 15.8% from the previous year. The growing geriatric population has also contributed to increased demand for CT scans.

Key Players

Key players include GE Healthcare, Philips, Siemens Healthineers, and more. Challenges include high equipment costs and a shortage of skilled personnel, impacting accessibility and patient care quality. Opportunities arise from the growing demand for imaging services, especially for chronic diseases, and the development of new modalities like 3D mammography and MRI-guided focused ultrasound. Emerging economies like India, China, and Brazil are pivotal, driven by rising chronic diseases. Major players like Siemens Healthineers are expanding in these markets. Additionally, teaching hospitals are increasing demand for advanced imaging methods to enhance patient care.

Your Dedicated Radiology Partner: Vesta

Partnering with Vesta as your radiology partner ensures access to accurate and timely imaging interpretations and readings for subspecialties. Whether you are an outpatient imaging center or traditional hospital, our collaboration offers a seamless and efficient experience. Trust us to be your reliable radiology partner, empowering you with the insights and tools needed for improved healthcare outcomes.

Sources:

Itnonline.com
Medicaldevices-network.com
fortunebusinessinsights.com
openai.com

Mammography: Is AI Better than Humans?

In recent years, artificial intelligence (AI) has made remarkable strides in revolutionizing the landscape of the medical field, offering unprecedented opportunities for enhanced patient care, diagnosis, and treatment. From accelerating the analysis of medical imagery to predicting disease outcomes with unparalleled accuracy, AI-powered technologies have swiftly established themselves as indispensable tools for healthcare professionals. Beyond diagnostics, AI has played a pivotal role in drug discovery, streamlining clinical trials, and personalizing patient interventions. As AI continues to evolve, its potential to transform healthcare systems globally is becoming increasingly evident, promising not only improved medical outcomes but also cost-effective solutions and optimized resource allocation. The fusion of AI’s computational prowess with medical expertise heralds a new era of medical advancements that hold the potential to alleviate the burden on healthcare systems, save lives, and redefine the standards of patient well-being.

In the United States alone, it is estimated that around 40 million mammograms were performed each year. Mammograms are crucial as they are the primary method for early detection of breast cancer, enabling timely intervention and improving survival rates. By detecting small abnormalities and tumors that may not be palpable, mammograms help identify potential breast cancer cases in their earliest stages, allowing for more effective and less invasive treatment options.

Radiologists often find themselves overwhelmed due to the increasing volume of medical images requiring analysis, coupled with a shortage of radiology specialists. The demand for accurate and timely diagnoses, especially in fields like mammography, can lead to extended work hours and heightened stress levels among radiologists. Introducing AI technologies can alleviate this burden by assisting in image analysis, enabling radiologists to focus on complex cases and ensuring more efficient patient care.

How AI Helps in Mammography

A recent study published in The Lancet Oncology suggests that artificial intelligence (AI) may outperform trained doctors in detecting breast cancer from mammogram images. Mammograms face challenges due to factors like breast density, leading to missed cancer cases. The study analyzed 80,000 mammograms from Swedish women, finding that AI-assisted readings detected 20% more cancers compared to human radiologists. While not a standalone solution, AI could alleviate doctors’ workloads, enhancing accuracy without increasing false negatives. Despite FDA-approved AI technologies, integration with conventional methods is likely, aiding radiologists in managing a growing workload. The balance between AI and human expertise remains essential, ensuring optimal patient care and early cancer detection.

Healthcare experts, including the NHS and the Royal College of Radiologists, acknowledge AI’s promise in enhancing efficiency, decision-making, and prioritizing critical cases.

AI applied to diagnostic imaging holds the potential to significantly enhance the level of patient care. We eagerly anticipate further progress in this field. However, we maintain the viewpoint that presently, no machine can effectively substitute for the expertise of a skilled human observer for interpretations. At Vesta, we offer the services of radiologists who are US Board Certified, dedicated to delivering precise preliminary and final analyses. Discover how we can bolster your radiology department by reaching out to us today.

Sources:

Criver.com
health.com
theguardian.com
openai.com

How is Teleradiology and AI Impacting the Medical Industry Today?

Artificial Intelligence (AI) is revolutionizing the medical industry, transforming the way healthcare is delivered, diagnosed, and managed. With its ability to analyze vast amounts of data quickly and accurately, AI is reshaping various aspects of healthcare. From aiding in disease diagnosis to personalized treatment recommendations, AI is enhancing the precision and efficiency of medical practices. Moreover, AI-powered technologies are streamlining administrative tasks, optimizing resource allocation, and improving patient outcomes. As AI continues to advance, it holds immense potential to revolutionize healthcare delivery, foster medical innovations, and ultimately improve the quality of patient care on a global scale.

Teleradiology has had a profound impact on healthcare by enabling remote access to radiology expertise, bridging geographical barriers, and ensuring timely diagnoses. It has improved patient care by providing faster turnaround times, facilitating collaboration among radiologists, and increasing access to specialized interpretations, ultimately enhancing diagnostic accuracy and treatment outcomes. Going even further, a latest white paper from One Call describes how teleradiology and AI are helping reduce the strain of the radiology shortage.

Teleradiology and AI in Action

Medical imaging vendor, Nanox, is looking to address heath disparities and lack of access care with a new x-ray system which would be offered to countries in Africa, Asian and South American using a pay-per-scan model. The potential of combining cold cathode X-ray technology with teleradiology and artificial intelligence (AI) to enhance diagnostic capabilities and improve healthcare economics. Cold cathode X-ray systems offer advantages such as reduced energy consumption and improved image quality. When integrated with teleradiology, these systems can enable remote interpretation of X-rays, leading to faster diagnoses and improved patient care. Additionally, the use of AI algorithms in conjunction with cold cathode X-ray technology has the potential to enhance image analysis, automate certain tasks, and optimize resource allocation, offering cost-saving opportunities in healthcare settings.

diagnostic imaging — A teleradiologist examines a chest x-ray

There are plans to roll out AI-powered teleradiology by the “Screen for Life” program at the Primary Health Care Corporation in Qatar, aimed at early detection and prevention of cancer in the United Arab Emirates. The program plans to utilize AI algorithms to analyze radiology images, enhancing the accuracy and efficiency of cancer screening. The integration of AI in teleradiology will help automate image interpretation, expedite diagnoses, and reduce the workload on radiologists. The implementation of AI teleradiology in the “Screen for Life” program is expected to improve cancer detection rates, streamline healthcare processes, and ultimately save lives by identifying cancers at earlier stages.

Vesta Teleradiology

Looking to outsource your radiology interpretations using an expert Teleradiology company that is at the forefront of technology including AI? Please reach out to Vesta to learn more. Vesta Teleradiology can accommodate any type of volume, large, medium and small.

Sources:

Radiologybusiness.com
menafn.com
openai.com
cdc.gov

Teleradiology FAQ: How Are Teleradiology Reports Delivered?

A healthcare facility – hospital, private practice, imaging center – may choose to utilize the services of a teleradiology company to enhance their radiology capabilities and streamline their diagnostic imaging processes. Teleradiology services offers numerous advantages, such as increased access to specialized radiologists, expedited turnaround times, reduced waiting time for patients, and improved patient care. By partnering with a reputable teleradiology company, healthcare facilities can leverage advanced technology, secure data transmission, and a network of skilled radiologists to obtain accurate and timely radiology preliminary and final interpretations. This collaboration allows healthcare providers to optimize their resources, extend their coverage, and ultimately deliver high-quality diagnostic imaging services to their patients, regardless of time or location.

Teleradiology Reports Delivery

Before engaging with an outsourced radiology company, you may wonder how reports are delivered. Teleradiology specialists deliver their reports through secure electronic means, utilizing advanced technology and secure communication platforms.

When you partner with Vesta, a Gateway application is installed remotely to allow your systems direct access to our PACS. Once linked, your technicians send exams straight from your machine to our PACS. Vesta account specialists assign it to the proper physician who read and dictate the report, it’s uploaded to your branded template where it’s easily accessible for your facility to access and download!

These customized reports can also be distributed electronically, and any critical findings are immediately shared with the facility via phone, email, or text. We also facilitate callbacks between the physician and radiologist and provide an unlimited amount of customized report templates with your facility’s information and logo. It’s a seamless experience which allows you to focus on what matters most, the patient experience.

Safety and Security: HIPAA

Teleradiology companies like Vesta prioritize the security and confidentiality of patient data throughout the entire process. They employ strict data encryption, comply with privacy regulations (such as HIPAA in the United States), and implement robust security measures to protect patient information during transmission and storage.

hipaa compliance — Look to Vesta for secure and compliant reports

Looking to outsource your radiology interpretations? Please reach out to Vesta to learn more. Vesta Teleradiology can accommodate any type of volume, large, medium and small.

Sources

https://www.ncbi.nlm.nih.gov
https://openai.com

Social Media Tips to Help Healthcare Facilities Connect with Patients

Social media is an ever-changing landscape, but it remains one of the best ways for healthcare facilities to reach and engage with current and potential patients. If you’re a healthcare facility looking to get started on social media, here are a few tips to help.

Listen First, Talk Later

Before creating content or engaging with people on social media, listening and observing what’s already happening in your industry is essential. Read up on trending topics, follow influencers, and join conversations relevant to your healthcare facility—this will give you a better understanding of what kinds of content resonates with your target audience.

Once you understand the conversation, you can create content or join existing discussions.

social media for healthcare — How are you connecting with patients online?

Spread Awareness of Services

Content doesn’t have to be hard to produce. Does your facility offer mammograms or other diagnostic imaging services? What type of special treatments do you offer patients? Let it be known through your posts! Whether you make a short informative Instagram Reel or a simple graphic, it’s ever crucial to make sure people know what you offer.

Build Relationships

Social media is all about building relationships, so pay attention to how you interact with others online.

Respond thoughtfully to comments and questions from followers; if someone has taken the time to reach out to you via social media, they deserve a well-crafted response that shows them that their voice matters. When responding directly to a patient’s question or comment, always use a professional tone and be sure not to disclose private information.

The beginning response to a patient with a question about diabetes might be:

“ Managing diabetes is no easy task, and if you’re a diabetes patient, it can be challenging to get your condition under control.”

Or:

“I empathize with the daily struggles you must endure keeping diabetes at bay. The good news is that there are ways to help make this easier for you.”

Be Transparent

Social media should be an opportunity for transparency between yourself and your followers.

health care social media tips — Show the faces behind your healthcare team

Share behind-the-scenes photos and videos from your day-to-day operations; this helps build trust by showing that real people work hard at your facility daily. It also allows patients who may not have visited before to get familiarized with the space beforehand, making them more comfortable when they arrive for their appointment or procedure.

Monitor Your Reputation

As a healthcare facility on social media, you must monitor what’s being said about you online – positive and negative.

Be sure to set up alerts for your company name as well as any hashtags associated with it to allow you to keep tabs on mentions of your brand.

If anything negative is posted about you online (such as negative reviews), you can address it quickly before the situation escalates. When a person posts a positive comment, be sure you “like” them, or comment back, so your followers know you respected their opinion.

A respectful response to a negative review about a rude employee at a hospital might be:

“At our hospital, all our staff members strive to ensure the highest level of quality care and customer satisfaction possible. Unfortunately, it’s not always achieved as intended due to human error and environmental stressors.”

“We recognize that patient care starts with respectful communication and interactions between patients and healthcare providers. To improve communication throughout the institution, we are investing in additional staffing resources so that nurses and other team members feel better supported when high volumes present themselves on certain days or times during their shifts.”

Measure Results

Lastly, measure the results of your social media efforts using analytics tools.

Using these tools will allow you to track how many people are visiting your page (and how often), see where they came from (e.g., organic search vs. referral traffic), and track engagement over time (likes/comments/shares). This information will help inform future decisions about what kind of content works best for engaging with patients online.

By measuring results regularly, you can continually refine and improve your strategy over time, so it eventually becomes second nature.

Social media can provide significant benefits for healthcare facilities looking to connect more deeply with current & potential patients—but only if done correctly.

Following these tips will ensure your presence on social media is practical & compliant with relevant regulations & guidelines set forth by governing bodies.

Take some time today & begin implementing these tips into practice right away. Your healthcare facility’s social pages will become vibrant hubs of conversation & connect with the community.

Good luck & happy posting!

Reduced Radiation Exposure in Imaging

Medical imaging is a powerful tool for diagnosing and treating medical conditions; however, it can also expose patients to excess radiation levels. Fortunately, recent technological advancements have resulted in the development of new ways to reduce radiation exposure during imaging.

Here are a few ways these advancements are helping patients receive the care they need while reducing their radiation exposure.

New Guidelines

Clinicians have always used guidelines for the use of CT scans. Still, they recently developed new guidelines for the benefit of CT scans on the head, neck, chest, and abdomen/pelvis areas of the body–especially in pediatric practice.

x-ray safety for kids — New guidelines for CT scans

Clinicians can reduce or eliminate the need for CT scans if the child is awake and alert, if the blood work is normal, and if the patient is not experiencing abdominal pain.

A study of 146 children not exposed to the excess CT scan radiation using the new guidelines showed no clinically significant missed injuries.

Smart Software

One of the most significant advancements in this area is using smart software to reduce radiation dose in computerized tomography (CT) scans. This software analyzes patient size, age, and other factors to determine the dosage necessary for an accurate scan that minimizes radiation exposure. In some cases, reducing radiation doses by up to 90 percent has been possible without any decrease in diagnostic accuracy.

Lower Radiation Levels in the New CT Machines

In addition to using innovative software to reduce doses, researchers are also looking at new technologies, such as low-dose CT machines, that can achieve similar results without any additional processing needed.

Technicians have designed these machines with unique components that limit X-ray emissions while still providing high-quality imaging. As a result, patients can receive the same level of care without worrying about unnecessary radiation exposure.

Reducing Radiation Exposure with Ultrasound

Finally, reducing radiation exposure through ultrasound technology is more progressive. For clinicians using sound waves instead of X-rays or other forms of energy, ultrasound technology can provide doctors with highly detailed imaging with no risk of exposing patients to dangerous radiation levels.

Ultrasound is an ideal option for pregnant women and children who may be more sensitive to the effects of radiation than adults.

vesta teleradiology for women's wellness centers — An ultrasound tech consults a patient

Recent advancements have made it easier for medical professionals to provide high-quality care while minimizing their patients’ exposure to harmful radiation.

With the medical profession redefining the guidelines, using low-dose scans, better x-ray machinery, and more ultrasounds, many options are now available for reducing radiation exposures during imaging procedures—all without sacrificing diagnostic accuracy or quality care.

That’s great news for anyone who needs an imaging scan but wants to ensure they’re taking steps to protect their health and safety!

Tele ICU and Tele-Critical Care Trends

Providing the highest quality of patient care remains a primary goal for most doctors and medical professionals. That’s why technologies that allow virtual options are used more and more throughout the healthcare industry. A 2021 research study by Pew Research Center revealed 93% of Americans use the Internet in their homes, which shows the usefulness that virtual medical care for less serious patient needs can provide.

These technological advancements are available in more serious cases as well. Doctors and specialists no longer need to travel to the hospital to provide critical care with Tele-ICU.

What is Tele-ICU?

The American Journal of Medicine defines Tele-ICU, or Telemedicine Intensive Care Unit, as the remote delivery of clinical (critical) care services through audiovisual conferencing technology.” Through this system, doctors can monitor their patients from a distance, allowing them to track vital signs, review medical records, and communicate with the patient’s family. This helps doctors provide more personalized care to their patients and helps them make informed decisions about the patient’s care.

Tele-ICU also helps reduce the number of visits to the hospital, as the patient can be monitored remotely, reducing the risk of infection. Through telemedicine, doctors can be alerted faster of changes in the patient’s condition, allowing them to act quickly and appropriately. Tele-ICU provides better communication between doctors, nurses, and other healthcare providers, reducing miscommunications and allowing them to coordinate care more effectively.

5 Ways Telemedicine Benefits Doctors and Patients

So, why do we need tele-icu? Tele-ICU is an invaluable tool for providing better care for intensive care patients. Telemedicine as a whole is an altogether better experience for both the doctor and patients. It’s integrated into the overall care that medical providers give and in most cases is billed the same as a regular in-office visit. Here are five reasons why telemedicine is a beneficial resource:

Telemedicine allows for more efficient communication between doctors and patients, eliminating the need for lengthy office visits.
Telemedicine enables doctors to quickly and easily access medical records from any location, providing more accurate and up-to-date information to make treatment decisions.
Telemedicine enables patients to connect with specialists all over the world, allowing them to access more specialized care.
Telemedicine reduces healthcare costs by eliminating the need for travel, overnight stays, and the use of expensive medical equipment.
Telemedicine helps to reduce the spread of infectious diseases by increasing the use of remote consultations and reducing the need for face-to-face contact.

Advanced Practice Providers

The National Library of Medicine published a study on utilizing advanced practice providers or APPs, to help aid in the current physician shortage by using advanced practice providers for tele-critical and Telehealth services. Yet, even as this solution could benefit several cities without many options for a critical care provider otherwise, as well as save lives, the acceptance of such a program is not as widespread as it could be.

The pandemic pushed remote critical care to the forefront in 2020. Looking toward the future, tele-icu is expected to grow once more medical staff and hospitals decide it is a helpful way to treat their patients.

Teleradiology Companies

Vesta services partners healthcare facilities and hospitals via remote radiology interpretations. Teleradiology helps unburden facilities from the shortage of radiologists as well as assist rural hospitals who may find it difficult to find staff. Learn more about our services and how we seamlessly integrate into your workflow. Contact us today.

Diagnostic Imaging Trends: Point of Care Ultrasound – POCUS

Point of care ultrasound (POCUS) is revolutionizing the healthcare industry and changing how doctors prescribe treatment for patients. POCUS is a diagnostic tool that utilizes ultrasound imaging to diagnose, monitor, and guide treatments for medical conditions.

This technology has been around for decades but is presently utilized more broadly throughout the healthcare system. Let’s take a closer look at POCUS and how it transforms patient care.

What Is Point of Care Ultrasound (POCUS)?

Point of Care Ultrasound (POCUS) is an ultrasound-based diagnostic tool used in clinical settings that uses sound waves to create images allowing doctors to see inside the body without having to do surgery or other invasive procedures.

POCUS can detect various medical conditions, such as heart defects, abdominal diseases, vascular diseases, musculoskeletal problems, and gynecological issues. POCUS can also be used in emergency settings to assess a patient’s condition quickly and determine if further intervention or testing is needed.

How Is Point of Care Ultrasound Transforming Healthcare?

One benefit of POCUS is its cost-effectiveness compared with other imaging tests, such as MRI or CT scans, and POCUS does not require expensive equipment as those tests do.

Additionally, it can be done quickly and easily at the point of care, which reduces wait times for patients and increases accuracy in diagnosis, as well as reduces unnecessary treatments or hospital admissions. Furthermore, since it does not use radiation as other imaging tests do, there are no additional health risks associated with this technology, making it safer overall for patients.

Another advantage of POCUS is its ability to provide real-time data about a patient’s condition, which helps doctors make more informed decisions about treatment plans for their patients.

Additionally, because POCUS used in most circumstances does not require special training or expensive equipment, these systems are becoming increasingly available in low-resource areas where access to traditional diagnostic imaging may be limited. This benefit means more people have access to high-quality healthcare regardless of where they live or available resources.

The Gates Foundation recently provided financing to bring 1,000 handheld ultrasound devices to Africa. When low to mid-income nations can improve the accuracy of an efficient diagnosis–local doctors can save more lives.

Since 2012, however, emergency medicine program accreditation requires competency in POCUS. Competency assessment in this field includes demonstrations of technical skill and how it relates to the specific clinical practice.

Point of Care Ultrasound (POCUS) offers numerous benefits over traditional imaging tests. Its cost-effectiveness allows physicians to provide accurate diagnoses without breaking the bank. In contrast, its portability allows it to reach underserved populations who may not otherwise have access to quality healthcare services.

With further advances in technology coming soon, we could see even more widespread use of this powerful diagnostic tool across all areas of medicine in the near future.

Vesta Teleradiology: At the Forefront of Medical Technology

Vesta believes it is crucial to stay on top of technological trends that can benefit our hospital and healthcare facility partners. Vesta is always at the forefront of technological advances in order to help bring more efficiency and accuracy to imaging and radiological interpretations. For more information about Vesta’s teleradiology services, please contact us today.

The Role of 3D Printing in Radiology

3D printing is an incredible technological tool both in and out of the medical world. Fortunately, this revolutionary technology has opened up an entirely new realm of possibilities for medical professionals to better their patient’s care.

Why Is 3D Printing Important To Medical Professionals?

3D printing has enabled doctors to create models of patients’ organs, tissues, and bones that can show the precise image of the patient’s anatomy, enabling them to make more thorough and accurate diagnoses. This means that diseases can be caught faster, leading to a higher percentage rate of positive outcomes.

These models are helpful to ensure quality by using test treatments on a physical model before trying them on a patient. This can help to reduce the risk of adverse reactions and ensure that the treatment is as effective as possible. In addition, 3D printing can be used to create prosthetic limbs, allowing patients to receive a personalized prosthesis that is custom fit to their body.

Finally, 3D printing is being used to create custom medical implants. Medical implants are used to replace missing or damaged tissue. They are typically made of titanium or other materials, but 3D printing has enabled medical professionals to create custom implants that are specifically designed for each patient. This has improved patient outcomes and allowed doctors to create implants that are more effective than ever before.

3D Printing In Radiology

In an interview for the American College of Radiology, Kenneth C. Wang, MD, Ph.D. said, “the benefit of printing comes from the patient-specific nature of what is depicted. And that almost always starts with imaging. That’s why we, as radiologists, are so well positioned to be at the center of these workflows. We can use our deep understanding of imaging modalities, anatomy, and disease to create models, interpret findings and also to know the limitations of the images, and communicate with other providers.”

3D printing has become an increasingly common and useful tool for radiologists. Because it can be used to create customized models of organs, bones, and other body parts, it gives radiologists a better visualization and understanding of medical conditions that couldn’t be seen before. The in-depth imaging 3D printing provides can also be used to create medical implants, such as scaffolds for bone regeneration and customized joint replacements.

3D-printed models of organs can be used to practice minimally invasive procedures and to create guides for surgeons to follow during operations.

This will help with medical education, allowing students and radiologists to visualize the anatomy and better understand medical conditions. Finally, 3D printing can be used to create patient-specific medical devices, such as hearing aids and prosthetics, to customize them and make them more comfortable for patients.

Conclusion

Overall, 3D printing has revolutionized the world of radiology. It has allowed medical professionals to make more precise and accurate diagnoses, create custom medical devices, create models of organs, tissues, and bones, and create custom medical implants. This technology has enabled doctors to provide better patient care and has improved patient outcomes. With this kind of technology coupled with Artificial Intelligence, the sky is the limit.

Vesta Teleradiology is always looking to new technologies to improve our operations and further assist our clients in accurate and quick interpretations. Please reach out to us to learn about how we customize the process for your healthcare facility’s needs.

The Future of Radiology with 5G

If you’ve been to the doctor’s office, hospital, or any healthcare building recently, you might have noticed an upgrade in technology. Instead of a sign-in sheet, you may have been handed a fingerprint scanner. In lieu of a paper and pen, a nurse may have an iPad or desktop computer to take your medical history. For years, medical offices around the country have already had an online scheduling and note-taking system, so it may not come as a surprise that innovations have reached their way to medical imaging and radiology. 5G technology has made vast improvements in the medical space since 2018, says Imaging Technology News, and will continue to make waves, globally, for years to come.

Advancements with 5G

Ultrasound and telehealth technology has advanced this year with 5G technology, particularly with people who live in remote locations without easy access to hospitals, says Radiology Business. 5G connectivity makes transmission of 4K images and ultrasound images much more efficient and clearer than LTE technology, says the article. Patients who need appointments or images read by medical professionals are able to receive the care they need through telehealth services and remarkably clearer images. In addition to this, 5G technology has helped remotely train the practitioners, who were not radiologists, to take the ultrasound examinations. Having a wider pool of practitioners to perform these tasks is proof that 5G has a promising future in the healthcare community.

Another advancement brought about by 5G technology is biomedical devices, says Applied Sciences. When a patient has an implantable and wearable biomedical device with wireless communication technology, doctors are able to have updates and treatments in real time for those in their care. These devices gather data from sick patients and instantly transmit the progress to a doctor to be checked, remotely. Because of the reliability of a 5G network, life supporting devices are able to work quickly, and without complications of interruption. According to the article, developing the “self-health” systems aided by 5G technology will be critical for the lack of healthcare workers we will experience by 2035.

Looking ahead, Imaging Technology News predicts the 5G networks could be the “catalyst towards smart hospitals;” a center of streamlined systems and information that efficiently carries through the patient experience. Some of those concepts, says the article, includes a smart scheduling system, facial recognition or fingerprint scanners, and multiple imaging transfers between medical professionals. Importantly, too, 5G networks will enable “crosstalk” between medical devices, monitoring devices, and medical records, creating one, integrated system.

There are a lot of predictions about our healthcare system due to so many changes in our world today amidst the COVID, flu, RSV, healthcare worker shortage, and so many other variables. But, here, there is proof of a silver lining. Technology has made it possible to reroute some of these fears and bring some light to some dark statistics. We are on the precipice of new and big developments in our healthcare systems. The future is here and we are excited. Click here to learn more about Vesta’s partnership with MIT for artificial intelligence research.