Brain Monitoring Market to Attain CAGR of 6-7% Valuation through 2026, Says Medi-Tech Insights in New Study
Global Brain Monitoring Market Overview
The Global Brain
Monitoring Market is projected to witness a growth rate of 6–7% by 2026,
driven by rising prevalence of neurological disorders, growing cases of
traumatic brain injuries, and technological advancements in brain monitoring
devices. Increasing demand for non-invasive and minimally invasive devices,
expanding therapeutic applications, and the rising use of brain monitoring
tools in clinical trials are also contributing to market expansion.
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Brain monitoring involves clinical neurological, neurophysiological, neuroradiological, and invasive or ultrasound-based assessments of a patient's nervous system. The main goal is to detect pathological neurological changes at the earliest possible stage to initiate timely treatment before irreversible damage occurs. These monitoring procedures can be performed continuously or intermittently, depending on patient requirements and clinical conditions.
Growing Demand for Non-Invasive Brain
Monitoring Techniques for Measuring Intracranial Pressure
Continuous invasive intracranial pressure (ICP) monitoring is vital for
managing intracranial hypertension (ICH) in intensive care settings.
Traditional invasive procedures like trepanation and catheter insertion, though
accurate, carry significant risks, including infection and tissue damage. As a
result, non-invasive brain monitoring techniques are gaining strong traction.
These alternatives, including optic nerve sheath diameter measurement,
transcranial Doppler, near-infrared spectroscopy, pupillometry, and
electroencephalography, offer safer, quicker, and equally reliable results.
They are particularly useful in conditions such as traumatic brain injury, hydrocephalus,
subarachnoid hemorrhage, and cerebral edema. Recognizing this demand, companies
are developing innovative non-invasive devices. For example, NeuroWave Systems
received FDA clearance for its NeuroSENSE® NS-901 Monitor in 2021, which helps
assess the adequacy of anesthesia and sedation. Similarly, IRRAS AB introduced
Hummingbird Solo, a bolt-based ICP monitoring device, marking an important step
toward safer brain pressure management solutions.
Increase in Usage of
Electroencephalogram (EEG) for Diagnosing Neurological Disorders
The electroencephalogram (EEG) plays a crucial role in diagnosing abnormalities
in brain wave patterns and electrical activity. It is widely used to detect
epilepsy, brain lesions due to tumors or strokes, and neurological conditions
like Alzheimer's disease, psychosis, and narcolepsy. EEG is also applied in
evaluating trauma, drug intoxication, or brain damage in comatose patients and
in monitoring cerebral blood flow during surgeries. Due to its accuracy,
non-invasiveness, and diagnostic value, the demand for EEG devices continues to
increase across hospitals and research institutions worldwide. This rising use
of EEG for early detection and monitoring of neurological disorders is fueling
overall market growth, as it forms the foundation for several advanced brain
monitoring systems.
Potential of Brain Monitoring Using
Sensors, Wearables, and Mobile Devices
Advancements in wearable technology and sensor miniaturization are
revolutionizing the brain monitoring landscape. Portable and wearable EEGs,
cognitive trackers, and sleep monitoring devices are expanding accessibility
beyond clinical settings. These innovations are supported by the growing
processing power of smartphones and tablets, allowing real-time brain data
collection and analysis. Interaxon Inc. introduced the second generation of its
Muse S headband, an EEG-based meditation and sleep aid that provides real-time
biofeedback to help users manage relaxation and sleep patterns. NeuroSky's
ZenZone apps use biosensors to monitor mindfulness and train the brain for
improved focus and stress management. Advanced Brain Monitoring launched the
Sleep Profiler™, a self-applied EEG system designed to assess overnight sleep
quality and detect insomnia or mood disorders. These examples highlight how
digital health integration is transforming brain monitoring into a more
personalized, data-driven, and continuous process.
Growing Adoption of Brain Multimodality
Monitoring in Neurocritical Care
In neurocritical care, detecting secondary brain injuries such as ischemia or
edema is a major challenge, especially in comatose patients. Multimodality
monitoring (MMM) integrates multiple brain monitoring tools to measure cerebral
metabolism, perfusion, and oxygenation, thereby enabling timely intervention
before irreversible damage occurs. Technologies such as intracranial pressure
monitors, transcranial Doppler, Licox™ oxygen probes, and microdialysis
catheters are used together for comprehensive patient assessment. Devices like
Hemedex™ enable continuous measurement of cerebral blood flow, supporting
clinicians in making informed decisions about patient management. This approach
is increasingly adopted in neurocritical units globally to enhance outcomes and
reduce mortality in patients with severe brain injuries.
Key Challenges in the Brain Monitoring
Market
Despite strong growth prospects, the brain monitoring market faces several
challenges. The high cost of advanced monitoring systems and complex procedures
restricts adoption in low- and middle-income regions. Additionally, unfavorable
reimbursement policies in certain countries deter hospitals from investing in
new technologies. A shortage of skilled professionals capable of operating
sophisticated brain monitoring equipment further limits usage, especially in developing
markets. Overcoming these challenges will require greater training initiatives,
cost optimization, and supportive healthcare infrastructure development.
Regional Insights: North America
Dominates the Market
North America currently holds the largest share of the global brain monitoring
market due to high awareness levels, strong healthcare infrastructure, and
early adoption of technologically advanced devices. The prevalence of
neurological and neurodegenerative diseases such as Parkinson's, Alzheimer's,
and epilepsy is also higher in this region, driving demand for effective
monitoring systems. Moreover, clinical research and trials involving
neuro-assessment technologies are significantly more active in the U.S. and
Canada, further propelling regional growth. Meanwhile, the Asia-Pacific (APAC)
region is projected to experience the fastest growth, driven by an expanding
patient base, increasing healthcare expenditure, and rising adoption of
non-invasive monitoring devices in countries like China and India.
Competitive Landscape of the Brain
Monitoring Market
The global brain monitoring market is competitive, with several leading players
driving innovation through technological upgrades and product launches. Key
companies include Natus Medical Inc., Nihon Kohden Corporation, Philips
Healthcare, GE Healthcare, Compumedics Ltd., Medtronic, Edwards Lifesciences
Corporation, Advanced Brain Monitoring, Masimo Corporation, Spiegelberg GmbH
& Co. KG, Cadwell Industries, Elekta AB, Drägerwerk AG & Co.,
Electrical Geodesics, and Siemens Healthineers. These companies are leveraging
partnerships, acquisitions, and R&D investments to expand their presence
globally.
Organic and Inorganic Growth Strategies
Adopted by Industry Leaders
Major players are pursuing both organic and inorganic growth strategies to
solidify their market position. Philips, for instance, secured FDA clearance in
July 2022 for its AI-powered SmartSpeed MR acceleration software, which
enhances MRI performance through advanced data processing algorithms. Brain
Scientific achieved FDA approval for its next-generation NeuroCap EEG headset
in October 2021, designed for rapid EEG recordings in clinical settings. Linus
Health raised $55 million in 2021 to expand its AI-powered remote brain health
platform, which aids healthcare providers in monitoring brain activity outside
hospital environments. These developments underscore the industry's focus on
artificial intelligence, connectivity, and miniaturization to enhance clinical
efficiency and accessibility.
Future Outlook of the Brain Monitoring
Market
The global brain monitoring market is poised for continued expansion, driven by
a convergence of digital innovation, rising disease prevalence, and growing
awareness about brain health. Increasing use of wearable EEG devices,
tele-neurology solutions, and AI-based diagnostic algorithms will reshape the
future of neuro-monitoring. Moreover, opportunities in emerging markets,
combined with ongoing investments by global players, are expected to accelerate
market penetration. Overall, advancements in non-invasive technologies,
integration of multimodal monitoring systems, and expansion into preventive and
cognitive health applications are set to redefine the brain monitoring
ecosystem in the years ahead.
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About Medi-Tech Insights
Medi-Tech Insights is a healthcare-focused business research & insights firm. Our clients include Fortune 500 companies, blue-chip investors & hyper-growth start-ups. We have completed 100+ projects in Digital Health, Healthcare IT, Medical Technology, Medical Devices & Pharma Services in the areas of market assessments, due diligence, competitive intelligence, market sizing and forecasting, pricing analysis & go-to-market strategy. Our methodology includes rigorous secondary research combined with deep-dive interviews with industry-leading CXO, VPs, and key demand/supply side decision-makers.