Market Scenario 

5G in healthcare market was valued at US$ 67.22 billion in 2024 and is projected to hit the market valuation of US$ 808.40 billion by 2033 at a CAGR of 31.83% during the forecast period 2025–2033.

The 5G in healthcare market is experiencing a dynamic surge in demand, fueled by the rising need for seamless telemedicine, AI diagnostics, and connected medical devices. Healthcare providers are rapidly integrating 5G services to establish ultra-low-latency communication systems, and over 220 hospital networks worldwide have already upgraded their telehealth infrastructure to this technology in 2023. More than 45 newly developed 5G-enabled medical imaging devices are currently undergoing clinical trials to streamline ultrasound and MRI diagnostics. Simultaneously, close to 1,000 specialized clinics in emerging economies have adopted 5G-based interactive consultation platforms that reduce patient wait times and broaden accessibility to expert care.

Today, telecom giants and healthcare technology vendors in the 5G in healthcare market are collaborating to deliver robust network coverage and novel connected solutions. At least 25 global telecommunications firms, including major players like Ericsson and Huawei, have launched dedicated healthcare verticals focusing on advanced tele-surgical platforms and wearable health monitors. This has resulted in over 300 5G-powered pilots for remote patient monitoring spread across North America and Europe, catering to complex chronic conditions. Leaders in the space, such as Philips and Medtronic, have placed 5G connectivity at the heart of their latest product lines, including at least 20 newly approved wearable sensors designed to relay real-time vitals from home.

It has also been found that sales of 5G-ready medical tools and solutions are steadily rising, with an estimated 600 advanced tele-consultation kiosks deployed in rural regions to extend specialized services. Furthermore, more than 80 multi-institutional consortia have been formed to conduct large-scale clinical validations in the 5G in healthcare market, targeting smoother robotic surgical interventions and faster data sharing between research labs. Backed by a growing consumer base eager for on-demand healthcare, it is evident that 5G-facilitated solutions are garnering significant attention in both developed and emerging markets. From AI-driven early disease detection to remote operating theater assistance, the most sought-after features revolve around real-time connectivity and reliable, high-speed data exchange that revolutionizes the manner in which healthcare services are delivered and consumed.

Market Dynamics 

Driver: Amplified integration of advanced telehealth solutions to expedite patient-centered remote consultations and specialized care

The move toward telehealth has already proven transformative for outpatient services, and 5G accelerates this shift by offering faster, more reliable connections in the 5G in healthcare market. In 2023, over 90 telemedicine pilot projects exclusively reliant on 5G networks have launched across the Middle East to address gaps in specialist availability. Telehealth platforms are reaching new heights of efficiency as real-time video consultations and AI-driven symptom checks reduce the time needed for initial diagnosis in busy clinics. As a result, around 40 tertiary care providers in Southeast Asia have reported a notable decrease in non-urgent in-person visits, channeling resources toward critical patients instead.

This driver also boosts access to cutting-edge medical expertise in underserved regions in the 5G in healthcare market. Rural hospitals, for instance, now utilize portable 5G stations to exchange data-heavy diagnostics with urban specialist centers. At present, at least 15 mobile health units utilize these stations to conduct on-site ultrasound scans in remote communities, sending scans to metropolitan reading centers for instantaneous consultation. Such operations are not only responding to immediate healthcare demands but also gathering an extensive data library for future research and epidemiological studies. In tandem with technological improvements, healthcare organizations are increasingly collaborating with telecom providers to ensure broad coverage and robust cybersecurity. Five alliances formed between leading telecom carriers and national medical boards this year have placed a particular emphasis on teletherapy in mental health services, improving access to professional counseling for those in isolated locales. Moreover, some 30 newly published clinical papers in the 5G in healthcare market confirm that 5G-based telehealth platforms are delivering faster data exchange rates than previous networks, empowering practitioners to make timely, life-saving decisions. This robust integration of telehealth, fueled by 5G, stands poised to redefine healthcare delivery, bridging geographical barriers and reshaping how providers interact with patients worldwide.

Trend: Escalating adoption of highly secure private 5G networks dedicated to specialized hospital operational demands

Private 5G networks are emerging as the gold standard for hospitals in the 5G in healthcare market aiming to safeguard sensitive patient data while maintaining uninterrupted service quality. In 2023, more than 110 healthcare facilities in Europe have transitioned from public to private 5G setups to eliminate congestion issues and ensure faster upload of high-resolution diagnostic images. These custom networks are configured to handle critical communications, such as emergency triage calls and tele-ICU monitoring, without interference from consumer traffic on standard networks.

A major attraction of private 5G lies in its capacity to support next-generation medical technologies like augmented reality (AR) training modules. Hospitals now running private 5G have purchased over 40 AR simulation kits to instruct surgical residents in complex procedures. These kits replicate real patient cases in a controlled digital environment, providing immersive practice spaces that significantly cut down the risk of errors during live surgery. Furthermore, research centers in the United States 5G in healthcare market are testing AI-driven patient monitoring platforms on private 5G channels, ensuring fluid transmission of real-time data without risking enforcement-level security breaches. This trend is also enabling hospital consortiums to measure operational performance more precisely. A consortium of 12 major urban hospitals collaborated this year to standardize real-time monitoring for post-operative care, generating large volumes of high-frequency data. Their private 5G networks handled the load seamlessly, supporting advanced analytics dashboards that tracked patient vitals and identified patterns in recovery times. Meanwhile, at least three specialized institutions in Asia have used private 5G in settings ranging from hybrid operating rooms to intelligent robotic pharmacies, all reporting reduced downtime and improved staff productivity. With these successes, private 5G adoption in hospitals is rapidly evolving from an experimental phase into a strategic infrastructure choice that propels patient care forward.

Challenge: Securing consistent connectivity for underserved remote regions facing significant infrastructural and resource readiness challenges

Expanding 5G capabilities into remote regions presents a formidable challenge in the 5G in healthcare market, especially where basic infrastructure for roads and electricity remains limited. Telecom providers in Africa have reported that fewer than 25 rural communities are equipped for 5G deployment, underscoring the pressing need for supplementary power sources and advanced network planning. Additionally, mountainous regions in Asia face similar obstacles; in 2023, only 35 mountaintop villages gained 5G reception for the first time, often dependent on satellite backhaul systems to maintain stable connectivity. This lack of uniform readiness complicates efforts to provide remote telemedicine, emergency health lines, and advanced diagnostic imaging. Healthcare charities operating in South America lament significant delays in shipping 5G base stations, resulting in at least 10 pilot telehealth programs being postponed in high-altitude areas. Meanwhile, limited availability of local technical expertise in the 5G in healthcare market further hinders rapid deployment of new network infrastructure, forcing providers to rely on external consultants or traveling teams. Such constraints often increase operational costs and prolong timelines, leaving large sections of the population without reliable healthcare access.

At the same time, certain creative solutions are starting to emerge. Some nonprofits are trialing solar-powered small-cell stations, which have been successfully deployed in at least eight low-resource areas prone to rolling blackouts. Furthermore, joint ventures backed by philanthropic organizations have introduced ruggedized equipment that can withstand harsh climates, contributing to a slow but steady rise in 5G adoption. This approach has already enabled two remote clinics in Central Asia to synchronize patient scans with specialists in capital cities, enabling quicker diagnoses for critical conditions. Despite these incremental wins, bridging the digital divide remains a daunting and critical challenge to ensuring that the benefits of 5G-enabled healthcare reach even the most isolated corners of the world.

Segmental Analysis 

By Component 

Hardware retains a notable 71% share in the 5G in healthcare market because it underpins the most critical performance metrics—ultra-low latency, high reliability, and robust bandwidth. This leadership stems from advancements that make real-time patient data processing possible. In January 2023, Intel launched its 4th Gen Xeon Scalable processors with embedded AI accelerators, allowing faster analysis of imaging datasets in surgical theaters. Around the same time, Qualcomm introduced the Snapdragon X75 5G Modem-RF System, enabling telehealth devices to reach multi-gigabit speeds for seamless video consultations. Ecosystem-wide collaborations have also propelled hardware dominance. In March 2023, Ericsson partnered with Ooredoo in Qatar to deploy millimeter-wave solutions across multiple hospital campuses, demonstrating how specialized antennas and base stations can reliably connect dense clinical environments. 

Nokia’s Digital Automation Cloud underwent pilot tests at University Hospital Birmingham in early 2023, significantly reducing lag during robotic-assisted procedures. Samsung further showcased its Exynos 5G Modem 5300 in the same year, emphasizing minimal power consumption for portable dialysis units in the 5G in healthcare market. Such breakthroughs highlight why hardware investments lead the industry: they solve practical challenges in data security, coverage, and seamless connectivity. As a prime example, IBM collaborated with Cleveland Clinic in mid-2023 to pilot an edge computing system that processes 3D MRI scans in under 20 seconds—an essential requirement for critical diagnostics. At every stage of patient care, from ambulance to operating room, hardware remains the foundational layer ensuring 5G healthcare solutions function optimally under demanding clinical conditions.

By Application 

Remote patient monitoring commands over 61% of 5G in healthcare market applications due to its transformative impact on chronic disease management, post-operative care, and preventive medicine. The US Food and Drug Administration approved a 5G-enabled wearable sensor from BioIntelliSense in January 2023, enabling continuous multi-parameter tracking around the clock. That same month, France’s largest hospital system (AP-HP) integrated 5G-based home monitoring for over 1,000 patients with conditions ranging from diabetes to heart failure. This dominance in the 5G in healthcare market is also fueled by international expansions. In March 2023, China’s Ping An Good Doctor platform leveraged 5G to extend remote cardiac monitoring to 10 additional provinces, improving doctor-patient communication in geographically dispersed areas. 

Similarly, the Cleveland Clinic reported mid-2023 findings showing that real-time vital data from 5G patches shortened hospital stays for heart failure patients by an average of two days. Svea Healthcare in Sweden launched a pilot program in May 2023 using 5G-enabled smart inhalers, providing personalized feedback loops for children with asthma. With robust connectivity powering constant data streams, clinicians can detect early warning signs and adapt treatments in near real-time. An NHS trust in the UK began deploying a 5G drone system by July 2023, delivering medications and diagnostic tools to remote patient monitoring hubs in the Lake District. By cutting response times and late interventions, remote monitoring reduces complications, improves patient satisfaction, and remains the leading application for 5G-driven healthcare innovation.

By End Users

Healthcare providers hold a dominant 62% share among 5G in healthcare market end users, propelled by the need for swift, secure, and data-intensive clinical operations. In 2023, a nationwide survey by the American Hospital Association of 2,500 institutions revealed that nearly half plan to adopt tele-surgery platforms over 5G networks by 2025. During the same period, Japan’s Ministry of Internal Affairs and Communications funded 15 pilot hospital projects incorporating AI-driven imaging over 5G, illustrating a global rush toward cutting-edge connectivity. The ability to vastly improve clinical workflows also drives provider-led adoption. In March 2023, Mayo Clinic partnered with T-Mobile to deploy advanced networks across regional clinics, unlocking high-resolution tele-dermatology and rapid radiographic transfers. Saudi Arabia’s Ministry of Health endorsed a modernization plan in mid-2023, implementing full-scale 5G networks in 50 major healthcare facilities to streamline triage in remote areas. Meanwhile, the Indian government launched a new telemedicine service in 2023, focusing on maternal care across 10 states with dedicated 5G connectivity.

These implementations underscore why hospitals and clinics invest more heavily in 5G in healthcare market than any other stakeholder segment. By August 2023, Brazil’s Albert Einstein Hospital had already introduced a 5G-based remote ICU ward, providing specialized care to underserved regions. This shift toward provider-centric networks ensures high-speed data exchange, secure patient records, and continuous monitoring possibilities—all essential components in elevating patient outcomes. As a result, healthcare providers remain the primary force driving 5G’s widespread adoption.

Regional Analysis 

North America stands as the most dominant and lucrative region for the 5G in healthcare market with over 36.14% market share, thanks to a convergence of technological leadership, robust policy support, and a proactive healthcare ecosystem. In 2023, at least 78% of large U.S. hospitals reported some level of 5G pilot implementation, underscoring the region’s early mover advantage. According to telehealth associations, 55% of those pilot programs evolved into fully operational 5G-based services by late 2023, highlighting rapid scaling. Canada follows close behind, with 42% of its public hospitals partnering with telecom providers to expand network reach into remote communities—a figure that tripled in under two years. Alongside these efforts, an estimated 66% of medical device manufacturers in North America indicated a strategic focus on 5G instrumentation for advanced telemonitoring, robotic surgery, and AI-assisted diagnostics. These initiatives are facilitated by a 17% average year-over-year increase in 5G infrastructure spending across the region, leading to near-comprehensive coverage in urban centers and growing accessibility in rural territories.

Social and health-related factors also bolster North America’s dominance in the 5G in healthcare market. The U.S. accounts for roughly 58% of total global 5G healthcare patents filed in 2023, reflecting a robust research culture and active collaborations among academia, healthcare systems, and tech giants. A survey of top insurance providers reveals that 63% of them introduced reimbursement protocols for 5G-powered remote patient monitoring, encouraging wider consumer adoption. Additionally, at least 51% of newly established community clinics in low-density counties across the United States installed 5G-enabled telehealth booths, enabling providers to tackle healthcare deserts more effectively and reduce rural-urban care gaps. In Canada, the rate of virtual consultations rose to 34% of overall physician visits in 2023, supported by latency improvements of nearly 50% in 5G networks. These combined drivers—policy incentives, high technology uptake, and broad societal acceptance—explain North America’s leading role and hint at continued growth as regional healthcare systems move toward full-scale 5G integration.

Top Players in the 5G in Healthcare Market

• AT&T Inc.
• BT Group
• China Mobile International Limited
• Cisco Systems Inc.
• Ericsson
• Huawei Technologies Co., Ltd
• Orange S.A.
• SAMSUNG
• Telefónica S.A.
• Telit
• Telus Communications Inc.
• T‑Mobile USA Inc.
• Verizon
• NEC Corporation
• Vodafone
• Qualcomm
• Other Prominent Players

Market Segmentation Overview:

By Component

• Hardware
• Services

By Application

• Remote Patient Monitoring
• Connected Medical Devices
• AR/VR
• Virtual consultations
• Telemedicine
• Smart wearables
• Connected Ambulances
• Home Healthcare
• Others

By End User

• Healthcare Providers
• Healthcare Payers

By Region

• North America
  • The U.S.
  • Canada
  • Mexico
• Europe
  • Western Europe
    • The UK
    • Germany
    • France
    • Italy
    • Spain
    • Rest of Western Europe
  • Eastern Europe
    • Poland
    • Russia
    • Rest of Eastern Europe
• Asia Pacific
  • China
  • India
  • Japan
  • Australia & New Zealand
  • South Korea
  • ASEAN
  • Rest of Asia Pacific
• Middle East & Africa
  • Saudi Arabia
  • South Africa
  • UAE
  • Rest of MEA
• South America
  • Argentina
  • Brazil
  • Rest of South America