Network Modernisation: The Key to the Future of Healthcare

There’s no denying that Covid-19 had an irreversible impact across every industry, perhaps most notably the healthcare sector. Two years ago, healthcare providers and facilities had to make huge changes in order to adjust to the influx of Covid patients.

Many of these changes involved digitisation, as between the initial uncertainty of Covid transmission and on-and-off lockdowns, digital services went from optional to mandatory overnight.

From telemedicine to patient portals, new technologies are still being deployed today to help the system fight back against the backlog of patients needing care and deliver the improved and more seamless service that customers now expect. This has meant that the IoT device explosion is rising across the healthcare sector. In fact, Deloitte predicts that the IoMT market will grow in Europe from $12 billion to $44 billion by 2025.  

As healthcare organisations continue to introduce IoT devices to their operations, their digital success stories depend on one fundamental component – a reliable network. Resilient and secure connectivity must underpin every institution’s digital roadmap, upholding and progressing the convergence of IT, patient care and operational efficiencies. So, just how do they achieve this? 

Step 1: Upgrading the network

Many legacy networks that IT teams in the healthcare sector are pushed to work with were designed during a pre-Covid time when applications were static. These outdated networks not only create their own roadblocks but trying to adapt them to support today’s demands can also result in huge operational issues. An IT team tasked with scaling their network up to support a surge in users and devices across various locations would have to manually process every connection type and device if a network hasn’t been modernised. 

Fast forward to 2022 and the aforementioned shift towards personalised healthcare and increased dependence on mobile devices and applications means that this type of process is simply no longer sustainable. In order to support the surge of IoT devices and unlock the opportunities, they bring around autonomous, predictive and analytical capabilities – healthcare organisations must firstly upgrade and modernise their networks. 

Here, organisations should consider opting for a cloud-centric network architecture solution, as whether it is consumed in the cloud or on-premises, this will provide organisations with much-needed agility for future scale and connectivity. 

On top of this, networks based on traditional VLAN architectures will struggle to accommodate huge amounts of IoT devices, so modernising WAN solutions with SD-WAN should be the next step for healthcare organisations. Offering greater efficiency and cost savings, hospitals and clinics can also opt for an approach that doesn’t involve the wholesale replacement of their current infrastructures but rather look for options that coexist with current architectures. Here, healthcare organisations can introduce network overlays such as EVPN/VXLAN alongside existing infrastructure to learn how to adapt these protocols to current and future environments. 

Step 2: Leveraging automation

With a modern network in place and now set up for scale and connectivity, health organisations must look towards leveraging automation’s benefits. 

As all these IoT devices churn out large quantities of health information, automation merged with other smart technologies such as machine learning can help turn into actionable insights that healthcare organisations can use to build new solutions.

Here, simplified workflows can also help alleviate administrative burdens and redeploy precious time so that staff can focus on patient care. From apps that help patients manage their care themselves to online symptom checkers and e-triage AI tools, virtual agents that can carry out tasks in hospitals, or a bionic pancreas to help patients with diabetes, adding AI to your technology arsenal can greatly enhance patient care. Of these AI applications, some help improve healthcare operations by optimising scheduling or bed management, others aid population health by predicting the risk of hospital admission or helping detect specific cancers early, enabling intervention that can lead to better survival rates; and others even help optimise healthcare R&D and pharmacovigilance. All of this can go a long way to help hospitals better use their resources in an age where they’re more stretched than ever. But it takes a strong and secure network to support this. 

Step 3: Security

While a modern network and the IoT devices and AI solutions it can support have the potential to transform healthcare in practice, the growing use of connective devices also poses increased risk for healthcare organisations. In a hospital setting where staff, patients and visitors are always on the go, multiple new devices are constantly joining and leaving the network. Now, securing the network is more important than ever. 

The key to a secure network is visibility. Everything, from sensors to visitors’ phones, needs to be individually identified, secured and monitored. By ‘fingerprinting’ every device this way, any vulnerability can be spotted and addressed immediately before it is exploited. This level of nuance is also particularly vital in healthcare. In life-or-death environments, critical-care devices that need to run continuously can’t be treated the same way as those which can be disconnected if needed. Instead, Zero Trust architectures ensure that all devices and users trying to access the network are identified and authenticated before providing the least amount of access required through a predefined security policy.  

Conclusion

Our healthcare system’s digital transformation is driven by the benefits of a truly IoT-device connected environment. However, in order to unlock the promises of this future, it is fundamental that organisations have a network in place to support this. By deploying a modern and secure network and leveraging automation, healthcare organisations can drive operational efficiencies, redeploy employee time and ultimately enhance patient care. 

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