4 Revolutionary Use Cases of 5G in Health Care

2022-08-09 21:39:29
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The health care  IT market is searching for new ways advanced technology can play a more impactful role in transforming health care delivery. 

With new 5G technologies emerging, health care IT services and applications are set to become better connected than ever. This development will have significant impacts on health care providers and patients alike. 

5G opens new horizons for telehealth. Telehealth technology allows patients to connect virtually with doctors and other health care providers. It enables them to communicate via real-time video or live chat. As 5G promises to bring high speeds with low latency, telehealth applications will improve dramatically. 

The health care industry’s network footprint grows each year. More health care services and applications depend on fast network speeds and low latency. 

5G technology will turn antiquated health care systems in hospitals into smart hospitals that can deliver remote health care services to patients worldwide. 

1. Telehealth

A pre-COVID-19 study by Market Research Future found that the telehealth market is expected to grow at a compound annual growth rate of 16.5% from 2017 to 2023. This growth is parallel with the emergence and rollout of 5G. It is foregone that these are likely to be higher growth rates now. Faster network speeds and care quality will allow doctors to engage remotely with patients in a more immersive way at home or in field hospitals without network blackouts, disconnections or lag time. 

In the aftermath of the coronavirus pandemic, 5G eMBB technology will enable remote support of quality health care. Minimizing in-person visits to the doctor or health care facilities will reduce patient exposure to contagion. For patients who can’t easily travel to their health care providers, 5G will allow the provider to visit them via natural-feeling telepresence systems. 

As a result, critical health care services can be delivered over a wireless network for chronically ill or quarantined patients. With the emergence of 5G, it might mean the difference between life and death for many. 

2. Large Data Files

Your top priority is ensuring that your business gets the right solutions to fit its needs — and that those solutions function.

The health care industry produces massive data amounts. One patient can generate hundreds of gigabytes of data each day, from patient medical records to the large image files created by MRI, CAT or PET scans. 

According to AT&T, “Adding a high-speed 5G network to existing architectures can help quickly and reliably transport huge data files of medical imagery, which can improve both access to care and the quality of care. At the Austin Cancer Center, the PET scanner generates extremely large files — up to 1 gigabyte of information per patient per study.” 

“To get that much data from one side of the town to another, you’ve got to have the network performance to handle it. We used to have to send the files after hours. Now as soon as the patient leaves the scanner, the study is already on its way. It’s beneficial to doctors because they can get the results that they need quicker.” 

Jason Lindgren, CIO of Austin Cancer Center

A 5G network means that these large files can be transmitted quickly between doctors and hospitals. It reduces the time that would otherwise be needed to move them across often under-powered legacy wired networks prone to cuts and other service interruption issues. The time reduction 5G brings means more timely diagnostics, second opinions, treatment starts and adjustments. Medical data can be transmitted and consumed by doctors faster than ever before, whether at home or in the office. 

Cellular 5G will also make it possible to set up broadband wireless connectivity for new clinics or temporary field hospitals during emergencies in hours without waiting for a wired line.  

The switch to 5G also represents a long-term solution to the ever-rising need for bandwidth. Planned 5G data speed increases are more clearly keeping pace with improvements in diagnostic and medical imaging systems requirements than wired networks other than fiber-based. 

3. Real-Time Remote Monitoring 

There is currently no 5G-native, low-power standard. LTE-M and NB-IoT are LTE technologies fully embedded in 5G and carrying cellular connectivity for wearables. However, 5G native standards for battery-friendly devices are initially in store with LTE-M and NB-IoT operating in-band within the bandwidth of the 5G NR carrier.  

Today, it’s operating inside the LTE carrier in 5G non-stand-alone (NSA). Later, as proposed for 5G-Advanced (Rel 18), RedCap evolution will deliver solutions for wearable and reduced capability devices, possibly down to 5 MHz. These solutions will also enhance low-power modes and maintain coexistence with Rel 17 RedCap and other 5G NR devices.  

With the additional speed and lower power of 5G-enabled wearable devices, health care providers can monitor patients remotely and gather real-time data. Remote monitoring and data can be leveraged for preventative care and other individually-tailored health care provisions. 

A report from Accenture reveals that the use of digital health technology is on the rise, with the use of wearables rising from 17% in 2020 to 24% in 2021. According to Lisa Anne Bove in her article for The Journal of Nurse Practitioners, wearables can increase patients’ engagement with their health. This engagement is expected to decrease hospital costs by 16% over the next five years. 

Patients with chronic conditions can also retain autonomy and improve outcomes with more reliable, always-on mobile personal emergency response systems (PERS). AT&T notes that even though remote technology brings many benefits, usage is “limited by the capacity of the network to handle the data.” A slow network with unreliable connections could result in doctors being unable to meet with patients. It could get in the way of obtaining critical health care data about them, especially in an emergency. 

5G technology reduces the chances of this happening. It allows health care providers to deliver treatment seamlessly to chronically ill patients across the fastest network available. 

4. Sensor Innovation

Innovations in medical device technology will provide more medical gadgets to patients who can reliably measure and monitor their health from home. These do-it-yourself innovations in health care will calibrate, gather and validate data from trusted sensors. The data can then be transmitted to various medical and health care professionals for analysis. 

According to Qualcomm®, medical sensors will continue to improve as patient demand continues to surge. In 2017, the Qualcomm Tricorder XPrize medical device competition saw submissions approaching Star Trek-levels of portable functionality: 

“The entry included a sensor that fits into the palm of your hand and is as user-friendly as your smartphone, enabling patients to easily measure their health at home. This was a major advancement, but one sensor alone really isn’t enough. The combination of numerous patient Internet of Medical Things (IoMT) devices and sensors helps doctors provide a complete health picture for their patients, leading to a personalized health treatment program.” 

5G will make these technologies function in ways that 3G or 4G LTE couldn’t. 

Telit IoT Solutions in Health Care

The health care industry needs to stay adaptable to fully leverage the wave of novel applications enabled by 5G networks. Negotiating the historical challenges of information security and privacy becomes only more complicated in critical health care contexts. 

Work with Telit for a tech partner that understands health care and hospital systems’ unique needs. We have the expertise to guide your cellular connectivity upgrade in legacy telehealth devices. Our solutions can help you launch entirely novel applications or guide your 5G integration into innovative devices. Check out our IoT applications for health care for case studies and a direct link to contact our team. 


Editor’s Note: This blog was originally published on 24 July 2019 and has since been updated. 

参考译文
5G在医疗领域的4个革命性应用案例
医疗IT市场正在寻找新的方式,让先进技术在变革医疗交付模式中发挥更大的作用。随着5G新技术的出现,医疗IT服务和应用程序将比以往任何时候都更加互联。这一发展将对医疗机构和患者产生重大影响。5G为远程医疗打开了全新的视野。远程医疗技术允许患者通过虚拟方式与医生及其他医疗服务提供者连接。它使他们能够通过实时视频或即时聊天进行沟通。5G承诺带来高速和低延迟,使远程医疗应用得到显著改善。医疗行业的网络覆盖范围每年都在扩大。越来越多的医疗服务和应用程序依赖于快速的网络速度和低延迟。5G技术将把医院中过时的医疗系统转变为能够为全球患者提供远程医疗服务的智能医院。1. 远程医疗 一项由Market Research Future在新冠疫情之前进行的研究发现,远程医疗市场预计将在2017年至2023年间以年复合增长率16.5%的速度增长。这种增长与5G的出现和部署同步。可以预见,现在这一增长速度还会更高。更快的网络速度和更好的医疗质量将使医生能够以更沉浸的方式远程接触患者,无论是在家中还是在野战医院,而不会出现网络中断、断线或延迟等问题。在新冠大流行之后,5G eMBB技术将能够支持高质量的远程医疗服务。减少患者亲自前往医疗机构的机会将降低他们感染病菌的风险。对于无法方便前往医疗机构的患者,5G将使医疗服务提供者通过自然体验的远程呈现系统“探访”他们。因此,关键的医疗服务可以通过无线网络提供给慢性病或隔离中的患者。随着5G的出现,这可能会决定许多人的生死。2. 大数据文件 您的首要任务是确保您的企业获得适合其需求的解决方案,并且这些方案能够正常运作。医疗行业会产生海量数据。一个患者每天可以产生数百GB的数据,从病患病历到由磁共振成像(MRI)、计算机断层扫描(CAT)或正电子发射断层扫描(PET)生成的大图像文件。根据AT&T的说法,“将高速5G网络添加到现有架构中,可以帮助快速、可靠地传输巨大的医学影像数据,从而改善医疗服务的可及性和质量。在奥斯汀癌症中心,PET扫描仪会产生非常大的文件,每次每个患者可达1GB的信息。”“要把这么多数据从一个城镇的一边传到另一边,你必须拥有可以处理它的网络性能。我们以前必须在下班后发送这些文件。现在,病人一离开扫描仪,研究数据就已开始传输。这对医生来说很有利,因为他们可以更快地获得所需结果。”奥斯汀癌症中心的首席信息官Jason Lindgren表示。5G网络意味着这些大文件可以快速在医生和医院之间传输。它减少了原本需要花费的时间,以将数据通过经常性能不足、容易断开或出现服务中断问题的传统布线网络传输。5G带来的时延减少意味着更及时的诊断、二次意见、治疗启动和调整。医学数据可以比以往任何时候都更快地被医生在家中或办公室内传输和使用。蜂窝5G还将使在紧急情况下设立新诊所或临时野战医院的宽带无线连接在几小时内完成,而不必等待有线线路的布置。向5G的转变还代表了对带宽日益增长需求的长期解决方案。计划中的5G数据速度提升,比非光纤类有线网络更清楚地与诊断和医学成像系统的改进保持同步。3. 实时远程监控 目前还没有专门针对5G的低功耗标准。LTE-M和NB-IoT是完全嵌入5G中的LTE技术,为可穿戴设备提供蜂窝连接。然而,5G本原标准的低功耗设备目前仍依赖于LTE-M和NB-IoT在5G NR载波带宽内运行。今天,它在5G非独立组网(NSA)中运行在LTE载波内。后来,如5G-Advanced(Rel 18)所提议,RedCap演进将为可穿戴设备和能力降低的设备提供解决方案,可能低至5 MHz。这些解决方案还将增强低功耗模式,并与Rel 17 RedCap和其他5G NR设备共存。借助5G驱动的可穿戴设备提供的额外速度和更低的功耗,医疗服务提供者可以远程监控患者并收集实时数据。远程监控和数据可用于预防性护理和量身定制的其他医疗服务。根据埃森哲(Accenture)的一份报告,数字健康技术的使用正在上升,2020年可穿戴设备的使用率为17%,2021年已增至24%。根据Lisa Anne Bove在《护士从业者杂志》上的文章,可穿戴设备可以提高患者对其健康的参与度。这种参与度预计将在未来五年内使医院成本减少16%。患有慢性病的患者也可以通过更可靠、始终在线的移动个人紧急响应系统(PERS)保持自主性并改善结果。AT&T指出,尽管远程技术带来了许多好处,但其使用“受限于网络处理数据的能力”。网络慢、连接不可靠可能会导致医生无法与患者会诊。这可能会妨碍获取他们的关键医疗数据,尤其是在紧急情况下。5G技术减少了这种情况发生的可能性。它允许医疗服务提供者通过目前最快的网络无缝地为慢性病患者提供治疗。4. 传感器创新 医疗设备技术的创新将为患者提供更多可以在家中可靠测量和监测健康的医疗设备。这些医疗领域的DIY创新将校准、收集和验证来自可信传感器的数据。然后这些数据可以传输给各种医疗和健康专业人士进行分析。根据高通公司(Qualcomm)的说法,随着患者需求的持续激增,医疗传感器将继续改进。2017年,高通Tricorder XPrize医疗设备竞赛中收到的提交作品接近《星际迷航》中的便携功能水平:“其中一项参赛作品包含一个可以放入你掌心大小的传感器,其使用便捷性与智能手机相当,使患者可以轻松地在家测量自己的健康状况。这是重大进展,但仅凭一个传感器是不够的。许多患者医疗物联网(IoMT)设备和传感器的组合,可以帮助医生为患者提供完整的健康画像,从而制定个性化的健康治疗计划。”5G将使这些技术以3G或4G LTE所无法实现的方式运作。健康领域的Telit物联网解决方案 医疗行业需要保持灵活性,以充分利用5G网络所带来的各种新应用。在关键的医疗环境中,解决历史性的信息安全和隐私挑战变得更为复杂。与Telit合作,选择一家了解医疗和医院系统独特需求的技术伙伴。我们具备专业能力,可指导您在老式远程医疗设备上升级蜂窝连接。我们的解决方案可以帮助您推出全新的应用程序,或指导您将5G整合到创新设备中。查看我们的医疗物联网应用,获取案例研究和直接联系我们的团队的链接。编辑注:本文最初于2019年7月24日发布,后经更新。
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