Electroencephalography (EEG) is a monitoring method to record the electrical activity of the brain. Wearable EEG headsets position noninvasive electrodes along the scalp. The clinical definition of EEG is the recording of brain activity over a period of time. EEG electrodes pick up on and record the electrical activity in your brain. The collected signals are amplified and digitized then sent to a computer or mobile device for storage and data processing. The wireless data transmission, real-time feedback, alerting mechanism are some of the common features that are incorporated inside an EEG and sleep monitoring device. Several factors such as rising geriatric population, increasing prevalence of neurological disorders and traumatic brain injuries, increasing stress, healthcare spending along with escalation in the penetration of smartphones and internet are driving the market. According to World Health Organisation (WHO), the number of people aged 65 and above is projected to grow from 524 million in 2010 to nearly 1.5 billion in 2050 with the maximum increase in developing countries. The major restraints that are affecting the market of wireless brain sensors include data security. However, the emergence of artificial intelligence (AI) in this technology, increasing demand for connected devices, increased ease of use in neurodevelopmental populations and integration into developmentally informative research designs will act as an opportunity for the growth of the market.
Based on product type the report segments the market into Electroencephalography (EEG), sleep monitoring devices, magnetoencephalography (MEG), Transcranial Doppler (TCD) Devices, Intracranial pressure (ICP) Monitors, Other (Accessories). Electroencephalography (EEG) Devices registered the maximum market share in 2019 with a revenue of US$ 525.07 million and is projected to grow to US$ 950.45 million in 2026. These devices have an application in the monitoring of the brain waves in normal as well as patients suffering from neurological disorders.
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Major neurological disorders include Parkinson's disease, Alzheimer's disease, sleep disorders, traumatic brain injuries, epilepsy, migraine, Stroke and others. These devices can also be utilized for the monitoring of patients suffering from seizures. Traumatic Brain Injuries dominated the market in 2019 with a market share of 24.6%. Given the insidious nature of neurological disorders and the high cost of several diagnostic tests, there is a significant need for widely available, reliable, and inexpensive biomarkers to track the progression of neurodegenerative processes in time frames suitable for drug development. The major end-users of these devices include hospitals, diagnostic centers, research institutes and others. Hospitals registered the highest revenue in 2019 and are expected to maintain its dominance during the forecast.
North America is projected to dominate the wireless brain sensors market with a market value of US$ 1,418.16 Million (2026) followed by Asia-Pacific which is projected to constitute a market share of 38.3% in 2026. APAC is projected to show the highest growth during the forecast period. EMOTIV Inc, Advanced Brain Monitoring, Inc., Muse, Neurosky, Neuroelectrics, Cognionics, Inc., Wearable Sensing, Bitbrain Technologies, Compumedics Neuroscan, Brain Products Gmbh are some of the prominent players of this industry. These players tend to expand their geographical reach by the commencement of several M&As along with partnerships. Moreover, the startup funding has raised enormously in the past few years.
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The global wireless brain sensors market stood at US$ 1,558.19 million in 2019. The technology is expected to grow at a CAGR of 9.3% during the forecast period 2020-2026 to reach a market valuation of US$ 2,903.77 million by 2026. North America dominated the Global wireless brain sensors market in 2019, generating revenue of US$ 791.43 million. However, Europe is expected to witness the highest CAGR growth of 10.0% during the analyzed period.
Global Wireless Brain Sensors Market was valued at US$ 1,558.2 million in 2019 and is anticipated to reach US$ 2,903.8 million by 2026 displaying reasonable CAGR of 9.3% over the forecast period (2020-2026). Neurological disorders are recognized as one of the most prevalent diseases with a higher burden on the patients, their families, and society. 20 million Americans experience some form of neuropathy, and about 16% of U.S. households contain an individual with brain impairment. According to the Federal Interagency Forum on Aging-Related Statistics, 35.8% of persons aged 85 years and older have moderate or severe memory impairment. The prevalence of neurological disorders such as Alzheimer's and Parkinson's among others are increasing. Rising technological advancements have resulted in the advent of wireless brain sensors technology. The wireless brain sensors can monitor intracranial pressure/temperature and can be deployed for the monitoring of patients suffering from traumatic brain injuries and other neurological disorders. The market of Wireless Brain Sensors market is anticipated to grow enormously owing to factors such as rising geriatric population, increasing prevalence of neurological disorders and traumatic brain injuries, increasing stress, escalation penetration of smartphones and the internet. Moreover, increasing life expectancy due to rising awareness and better medical facilities would further boost this market, as the prevalence of age-related neurological disorders has increased over the year, majorly in the developed countries. Increasing demand for connected devices, ease of use of such sensors by neurodevelopmental populations is further expected to boom the industry. However, privacy issues will act as the major challenges in the growth of this market.
"Brain Sensors are majorly applied in Electroencephalography (EEG) Devices"
Based on product type the global wireless brain sensors market is bifurcated into Electroencephalography (EEG), sleep monitoring devices, magnetoencephalography (MEG), Transcranial Doppler (TCD) Devices, Intracranial Pressure (ICP) Monitors, Other (Accessories). Electroencephalography (EEG) Device segment dominated the market, generating revenue of US$ 525.07 million in 2019. Sleep Monitoring Devices are expected to witness a CAGR growth of 9.8% during the forecast period 2020-2026.
"Wireless Brain sensors are major applications to the treatment and tracking of Traumatic Brain Injuries"
Based on medical conditions, the global Wireless Brain Sensors market is segmented into Parkinson's disease, Alzheimer's disease, sleep disorders, traumatic brain injuries, epilepsy, migraine, Stroke and others. Application of wireless brain sensors for Traumatic Brain Injuries occupied the largest share of 24.6% in 2019. TBI contributes to worldwide death and disability more than any other traumatic insult. Epilepsy disease would witness the highest adoption of brain sensors in the years to come. The segment is expected to grow at a CAGR of 10.3% during the forecast period.
"Amongst end-user, the hospital was the highest user of Wireless Brain Sensors, accounting for 66.5% share in 2019"
Hospitals, Diagnostic Centers, Research Institutes among others were the major end-user segments of the wireless brain sensors technology. The hospital segment dominated the market in 2019 and is expected to generate revenue of US$ 1,460.18 million by 2023. However, the use of these brain sensors in Diagnostic Centres is expected to witness the highest CAGR growth of 10.1% during the analysed period.
"North America dominated the adoption of wireless brain sensors technology, generating revenue of US$ 791.43 million in 2019"
For better understanding of the overall adoption and penetration of wireless brain sensors technology, deep-dive country-level analysis was conducted for major regions/countries including North America (US, Canada, Rest of North America), Europe (Germany, UK, France, Italy, Spain, Rest of Europe), Asia-Pacific (China, Japan, India, Australia, South Korea, Rest of Asia-Pacific) and Rest of the world. In 2019, North America was the largest market of the technology owing to the high prevalence of age-related neurological disorders and the rising old age population along with high awareness among the people. Europe and Asia-Pacific regions are expected to witness the highest CAGR of 10.0% and 9.9% respectively during the analysed period.
Competitive Landscape-Top 10 Market Players
EMOTIV Inc, Advanced Brain Monitoring, Inc., Muse, Neurosky, Neuroelectrics, Cognionics, Inc., Wearable Sensing, Bitbrain Technologies, Compumedics Neuroscan and Brain Products Gmbh are some of the prominent players operating in the Global Wireless Brain Sensors market industry. Several M&A's along with partnerships have been undertaken by these players to facilitate costumers with hi-tech and innovative products.
Reasons to buy:
? Current and future market size from 2019 to 2026 in terms of value (US$)
? Combined analysis of deep-dive secondary research and input from primary research through Key Opinion Leaders of the industry
? Country-level details of the overall adoption of Wireless Brain Sensors market
? A quick review of overall industry performance at a glance
? In-depth analysis of key industry players
? A detailed analysis of regulatory framework, drivers, restraints, key trends and opportunities prevailing in the industry
? Examination of industry attractiveness with the help of Porter's Five Forces analysis and start-ups
? The study comprehensively covers the market across different segments and sub-segments of the technology
? Regions/countries Covered: North America (US, Canada, Rest of North America), Europe (Germany, UK, France, Italy, Spain, Rest of Europe), Asia-Pacific (China, Japan, India, Australia, South Korea, Rest of Asia-Pacific) and Rest of the world
Customization Options:
UMI understands that you may have your own business need, hence we also provide fully customized solutions to clients. The Global Wireless Brain Sensors Market can be customized to the country level or any other market segment.
Table of Contents
1. MARKET INTRODUCTION
1.1 Market Definition 17
1.2 Objective of the Study 17
1.3 Limitation 17
1.4 Stakeholders 17
1.5 Currency used in the Report 18
1.6 Scope of the Global Wireless Brain Sensors Market Study 18
2. RESEARCH METHODOLOGY 19
2.1 Research Methodology adopted for Global Wireless Brain Sensors Market study 19
2.1.1 Main objective of the Global Wireless Brain Sensor Market Study 20
3. REGULATORY FRAMEWORK 21
3.1 General Overview 21
3.1.1 US Regulations for Wireless Brain Sensor Devices (Wearable Devices) 21
3.1.1.1 Legal Framework for Medical Device Regulation 21
3.1.1.2 FDA Flexibility on Low-Risk Mobile Applications 22
3.1.1.3 Legal Framework for Health Data Privacy 22
3.1.2 Japan Regulations for Wearable Medical Devices 22
3.1.2.1 List of software Under Regulation 23
3.1.2.2 Legal Framework for Health Data Privacy 23
3.1.3 European Regulations for Wearable Medical Devices 24
3.1.3.1 EU Strict Rules on Medical Device Software 24
3.1.3.2 Legal Framework for Health Data Privacy 25
4. INDUSTRY PERFORMANCE 27
5. EXECUTIVE SUMMARY 28
6. MARKET OVERVIEW 31
6.1 Introduction 31
6.2 Market Dynamics 31
6.2.1 Market Drivers 32
6.2.1.1 Accelerating Geriatric Population and Related Neurological Disorders 32
6.2.1.2 Rising Prevalence of Neurological Disorders and Traumatic Brain Injuries 34
6.2.1.3 Increasing Stress Level 34
6.2.1.4 Growing Technological Advancements 36
6.2.1.5 Rising Healthcare Expenditure and Health-Conscious Personals 37
6.2.1.6 Increasing Penetration of Smartphone-Based Healthcare Applications 38
6.2.2 Market Restraints 40
6.2.2.1 Data Security Issues 40
6.2.3 Opportunities in Wireless Brain Sensor Devices 43
6.2.3.1 Increasing demand for connected devices 43
6.2.3.2 Increased Ease of Use in Neurodevelopmental Populations 43
6.2.3.3 Integration into Developmentally Informative Research Designs 44
7.1 Common Applications of EEG Research on Humans 45
7.1.1 Neuromarketing 45
7.1.2 Human Factors 45
7.1.3 Social Interaction 45
7.1.4 Psychology and Neuroscience 46
7.1.5 Clinical and Psychiatric Studies 46
7.1.6 Brain-Computer Interfaces (BCI) 46
7.2 Real-World Applications 46
7.2.1 Bosses read workers' minds 46
7.2.2 Playing Video Games 47
7.2.3 EEG Derived Neuronal Dynamics during Meditation 47
8. KEY MARKET INDICATORS 48
8.1 Demand Side Analysis 48
8.1.1 Some of the Key Facts about Aging Population 48
8.1.2 Neurological Conditions Associated with Aging 49
8.1.2.1 Some of the key facts about Dementia 49
8.2 Supply Side Analysis 51
8.2.1 Top Product Launch 51
8.2.2 Top Partnerships 53
8.2.3 Top Business Expansion & Investment 53
8.2.4 Value Chain Analysis of Wireless Brain Sensors Market 55
8.2.5 List of Start-Up under Neurotechnology Sector 56
9. MARKET INSIGHTS BY PRODUCT 58
9.1 General Overview 58
9.1.1 Electroencephalography (EEG) Devices 60
9.1.2 Sleep Monitoring Device 61
9.1.3 Magnetoencephalography (MEG) Devices 62
9.1.4 Transcranial Doppler (TCD) Devices 64
9.1.5 Intracranial Pressure Monitoring 65
9.1.6 Other (Accessories) 67
10. MARKET INSIGHTS BY MEDICAL CONDITION 69
10.1 General Overview 69
10.1.1 Parkinson's Disease 70
10.1.2 Alzheimer's Disease 72
10.1.3 Sleep Disorders 73
10.1.4 Traumatic Brain Injuries 74
10.1.5 Epilepsy 76
10.1.6 Migraine 78
10.1.7 Stroke 80
10.1.8 Others 81
11. MARKET INSIGHTS, BY END-USER 83
11.1 General Overview 83
11.1.1 Hospitals 84
11.1.2 Diagnostic Centres 85
11.1.3 Research Institutes 86
11.1.4 Others 87
12. MARKET INSIGHTS BY REGION/COUNTRY 88
12.1 General Overview 88
12.2 North America Wireless Brain Sensors Market (2018-2026) 90
12.2.1 North America Wireless Brain Sensors Market, by Product Type 91
12.2.2 North America Wireless Brain Sensors Market, by Medical Condition 91
12.2.3 North America Wireless Brain Sensors Market, by End-Users 92
12.2.4 North America Wireless Brain Sensors Market, by Country 92
12.2.4.1 US Wireless Brain Sensors Market (2019-2026) 93
12.2.4.1.1 US Wireless Brain Sensors Market, by Product Type 95
12.2.4.1.2 US Wireless Brain Sensors Market, by Medical Condition 96
12.2.4.1.3 US Wireless Brain Sensors Market, by End-Users 96
12.2.4.2 Canada Wireless Brain Sensors Market (2018-2026) 97
12.2.4.2.1 Key Findings on Canada Healthcare Spending, 2018 98
12.2.4.2.2 Key Findings on Hospital sector Spending in Canada, 2018 99
12.2.4.2.3 Canada Wireless Brain Sensors Market, by Product Type 100
12.2.4.2.4 Canada Wireless Brain Sensors Market, by Medical Condition 100
12.2.4.2.5 Canada Wireless Brain Sensors Market, by End-Users 101
12.2.4.3 Rest of the NA Wireless Brain Sensors Market (2018-2026) 101
12.2.4.3.1 Rest of the NA Wireless Brain Sensors Market, by Product Type 103
12.2.4.3.2 Rest of the NA Wireless Brain Sensors Market, by Medical Condition 103
12.2.4.3.3 Rest of the NA Wireless Brain Sensors Market, by End-Users 104
12.3 Europe Wireless Brain Sensors Market (2018-2026) 104
12.3.1 Europe Wireless Brain Sensors Market, by Product Type 106
12.3.2 Europe Wireless Brain Sensors Market, by Medical Condition 106
12.3.3 Europe Wireless Brain Sensors Market, by End-Users 107
12.3.4 Europe Wireless Brain Sensors Market, by Country 107
12.3.4.1 Germany Wireless Brain Sensors Market (2018-2026) 108
12.3.4.1.1 Germany Wireless Brain Sensors Market, by Product Type 109
12.3.4.1.2 Germany Wireless Brain Sensors Market, by Medical Condition 109
12.3.4.1.3 Germany Wireless Brain Sensors Market, by End-Users 110
12.3.4.2 United Kingdom Wireless Brain Sensors Market (2018-2026) 110
12.3.4.2.1 United Kingdom Wireless Brain Sensors Market, by Product Type 112
12.3.4.2.2 United Kingdom Wireless Brain Sensors Market, by Medical Condition 113
12.3.4.2.3 United Kingdom Wireless Brain Sensors Market, by End-Users 113
12.3.4.3 Spain Wireless Brain Sensors Market (2020-2026) 114
12.3.4.3.1 Spain Wireless Brain Sensors Market, by Product Type 115
12.3.4.3.2 Spain Wireless Brain Sensors Market, by Medical Condition 116
12.3.4.3.3 Spain Wireless Brain Sensors Market, by End-Users 116
12.3.4.4 France Wireless Brain Sensors Market (2018-2026) 117
12.3.4.4.1 France Wireless Brain Sensors Market, by Product Type 118
12.3.4.4.2 France Wireless Brain Sensors Market, by Medical Condition 118
12.3.4.4.3 France Wireless Brain Sensors Market, by End-Users 119
12.3.4.5 Italy Wireless Brain Sensors Market (2019-2026) 119
12.3.4.5.1 Italy Wireless Brain Sensors Market, by Product Type 120
12.3.4.5.2 Italy Wireless Brain Sensors Market, by Medical Condition 121
12.3.4.5.3 Italy Wireless Brain Sensors Market, by End-Users 121
12.3.4.6 Rest of Europe Wireless Brain Sensors Market (2018-2026) 122
12.3.4.6.1 Rest of Europe Wireless Brain Sensors Market, by Product Type 123
12.3.4.6.2 Rest of Europe Wireless Brain Sensors Market, by Medical Condition 123
12.3.4.6.3 Rest of Europe Wireless Brain Sensors Market, by End-Users 124
12.4 Asia-Pacific Wireless Brain Sensors Market (2018-2026) 124
12.4.1 Asia-Pacific Wireless Brain Sensors Market, by Product Type 126
12.4.2 Asia-Pacific Wireless Brain Sensors Market, by Medical Condition 126
12.4.3 Asia-Pacific Wireless Brain Sensors Market, by End-Users 127
12.4.4 Asia-Pacific Wireless Brain Sensors Market, by Country 127
12.4.4.1 China Wireless Brain Sensors Market (2018-2026) 128
12.4.4.1.1 China Wireless Brain Sensors Market, by Product Type 129
12.4.4.1.2 China Wireless Brain Sensors Market, by Medical Condition 130
12.4.4.1.3 China Wireless Brain Sensors Market, by End-Users 130
12.4.4.2 India Wireless Brain Sensors Market (2018-2026) 131
12.4.4.2.1 India Wireless Brain Sensors Market, by Product Type 132
12.4.4.2.2 India Wireless Brain Sensors Market, by Medical Condition 132
12.4.4.2.3 India Wireless Brain Sensors Market, by End-Users 133
12.4.4.3 Japan Wireless Brain Sensors Market (2018-2026) 133
12.4.4.3.1 Changing Demographic Structure of Japan 135
12.4.4.3.2 Japan Wireless Brain Sensors Market, by Product Type 136
12.4.4.3.3 Japan Wireless Brain Sensors Market, by Medical Condition 136
12.4.4.3.4 Japan Wireless Brain Sensors Market, by End-Users 137
12.4.4.4 Australia Wireless Brain Sensors Market (2018-2026) 137
12.4.4.4.1 Australia Wireless Brain Sensors Market, by Product Type 139
12.4.4.4.2 Australia Wireless Brain Sensors Market, by Medical Condition 139
12.4.4.4.3 Australia Wireless Brain Sensors Market, by End-Users 140
12.4.4.5 South Korea Wireless Brain Sensors Market (2019-2026) 140
12.4.4.5.1 South Korea Wireless Brain Sensors Market, by Product Type 142
12.4.4.5.2 South Korea Wireless Brain Sensors Market, by Medical Condition 142
12.4.4.5.3 South Korea Wireless Brain Sensors Market, by End-Users 143
12.4.4.6 Rest of APAC Wireless Brain Sensors Market (2018-2026) 143
12.4.4.6.1 Rest of APAC Wireless Brain Sensors Market, by Product Type 144
12.4.4.6.2 Rest of APAC Wireless Brain Sensors Market, by Medical Condition 145
12.4.4.6.3 Rest of APAC Wireless Brain Sensors Market, by End-Users 145
12.5 Rest of World Wireless Brain Sensors Market (2018-2026) 146
12.5.1.1.1 Rest of World Wireless Brain Sensors Market, by Product Type 148
12.5.1.1.2 Rest of World Wireless Brain Sensors Market, by Medical Condition 148
12.5.1.1.3 Rest of World Wireless Brain Sensors Market, by End-Users 149
13. COMPETITIVE SCENARIO 150
13.1 Porter's Five forces analysis 150
13.1.1 Bargaining Power of Buyers 150
13.1.2 Bargaining power of Supplier 151
13.1.3 Threat of new entrants 151
13.1.4 Availability of Substitute 151
13.1.5 Industry Rivalry 152
14. TOP COMPANY PROFILES 153
14.1 EMOTIV Inc 153
14.1.1 Key Facts 153
14.1.2 Business Description 153
14.1.3 SWOT Analysis 155
14.1.4 Recent Developments 155
14.1.4.1 Product Launches 155
14.1.4.2 Partnerships 155
14.1.4.3 Business Expansions and Investment 156
14.2 Neuroelectrics 157
14.2.1 Key Facts 157
14.2.2 Business Description 157
14.2.3 Key Product/Services Offerings 157
14.2.4 Growth Strategy 158
14.2.5 SWOT Analysis 159
14.2.6 Recent Developments 160
14.2.6.1 Partnerships 160
14.3 Neuroscan 161
14.3.1 Key Facts 161
14.3.2 Business Description 161
14.3.3 Key Product/Services Offerings 162
14.3.4 Growth Strategy 163
14.3.5 SWOT Analysis 164
14.3.6 Compumedics Neuroscan Key Financials 165
14.3.6.1 Revenue Split, by Region and Segment 166
14.4 Wearable Sensing 167
14.4.1 Key Facts 167
14.4.2 Business Description 167
14.4.3 Growth Strategy 168
14.4.4 SWOT Analysis 169
14.4.5 Recent Developments 169
14.4.5.1 Business Expansions and Investment 169
14.5 Advanced Brain Monitoring, Inc. 170
14.5.1 Key Facts 170
14.5.1.1 Business Description 170
14.5.2 Key Product/Services Offerings 171
14.5.3 Growth Strategy 171
14.5.4 SWOT Analysis 172
14.5.5 Recent Developments 172
14.5.5.1 Product Launches 172
14.5.5.2 Business Expansions and Investment 173
14.6 NeuroSky 174
14.6.1 Business Description 174
14.6.2 Key Product/Services Offerings 174
14.6.3 Growth Strategy 175
14.6.4 SWOT Analysis 176
14.6.5 Recent Developments 176
14.6.5.1 Product Launches 176
14.7 Bitbrain Technologies 177
14.7.1 Business Description 177
14.7.2 Key Product/Services Offerings 177
14.7.3 SWOT Analysis 179
14.7.4 Recent Developments 179
14.7.4.1 Product Launches 179
14.8 Muse 180
14.8.1 Key Facts 180
14.8.2 Business Description 180
14.8.3 Key Product/Services Offerings 180
14.8.4 Growth Strategy 181
14.8.5 SWOT Analysis 182
14.8.6 Recent Developments 182
14.8.6.1 Product Launches 182
14.8.6.2 Partnerships 183
14.8.6.3 Business Expansions and Investment 183
14.9 Brain Products Gmbh 184
14.9.1 Key Facts 184
14.9.2 Business Description 184
14.9.3 Key Product/Services Offerings 184
14.9.4 Growth Strategy 185
14.9.5 SWOT Analysis 186
14.9.6 Recent Developments 186
14.9.6.1 Product Launches 186
14.10 Cognionics 188
14.10.1 Key Facts 188
14.10.2 Business Description 188
14.10.3 Key Product/Services Offerings 188
14.10.4 Growth Strategy 189
14.10.5 SWOT Analysis 190
14.10.6 Recent Developments 191
14.10.6.1 Product Launches 191
14.10.6.2 Partnerships 191
List of Figures
FIG. 1 Scope of the Global Wireless Brain Sensors Market Study 18
FIG. 1 Research Methodology for Global Wireless Brain Sensor Market study 19
FIG. 2 Facts About Work-Related Stress in the United States 28
FIG. 3 Global Wireless Brain Sensors Market Size, 2018-2026 (US$ million) 30
FIG. 4 Number and Distribution of People Aged 65 Years or Over by Region (2019 and 2050) (in Millions) 32
FIG. 5 Population Under 15 Years and Over 65 Years, by Region (2019) (in Percentage) 33
FIG. 6 Major Contributors to Neurological Disability-Adjusted Life Years (DALY) Globally, 2016 34
FIG. 7 World's Most Stressed Countries (2018) 35
FIG. 8 Common Sources of Stress, 2017 (in Percentage) 35
FIG. 9 Facts About Work-Related Stress in the United States 36
FIG. 10 BCI System Incorporating Signal Detection, Processing and Deployment 36
FIG. 11 Key Facts on Smartphone Market, 2018 39
FIG. 12 Mobile and PC Applications Compatible with MindeWave Mobile EEG headsets 40
FIG. 13 Global Total Breached Healthcare Records (2014-2018) 42
FIG. 14 Pathway of Neurodevelopmental Study Using EEG 44
FIG. 15 Number and Distribution of Persons Aged 60 Years or Over by Region, in 2017 and 2050 (in Millions) 48
FIG. 16 Risk of Manifestation of Common Neurological Diseases (Dementia, Stroke and Parkinson) 50
FIG. 17 Value Chain of the Wireless Brain Sensors Market 55
FIG. 18 Product Types in Wireless Brain Sensors 58
FIG. 19 Global Wireless Brain Sensors Market, by Product type, 2020 & 2026 (%) 59
FIG. 20 Global Wireless Brain Sensors Market by Product Type, 2018-2026 (US$ Million) 59
FIG. 21 EEG-Based Brain-Computer Interfaces 60
FIG. 22 Global Electroencephalography (EEG) Devices Market by Region, 2018-2026 (US$ Million) 61
FIG. 23 Prevalence of Obstructive Sleep Apnea in Adults, by Country (2018) (%) 62
FIG. 24 Global Wireless Sleep Monitoring Devices Market by Region, 2018-2026 (US$ Million) 62
FIG. 25 MEG Combines Functional Information from Magnetic Field Recordings with Structural Information from MRI 63
FIG. 26 Global Wireless Magnetoencephalography (MEG) Devices Market by Region, 2018-2026 (US$ Million) 64
FIG. 27 Global Wireless Transcranial Doppler (TCD) Devices Market by Region, 2018-2026 (US$ Million) 65
FIG. 28 Impact of Hydrocephalus 66
FIG. 29 Global Wireless Intracranial pressure (ICP) Monitors Market by Region, 2018-2026 (US$ Million) 66
FIG. 30 Accessories Available in the Market 67
FIG. 31 Wireless Other (Accessories) Market by Region, 2018-2026 (US$ Million) 68
FIG. 32 Percentage of Global DALYs for Neurological Disorders Projected for 2005, 2015 and 2030 69
FIG. 33 Global Wireless Brain Sensors Market by Medical Condition, 2018 & 2026 (%) 70
FIG. 34 Global Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 70
FIG. 35 Age-Specific Prevalence Estimates of Parkinson's Disease by Country 71
FIG. 36 Global Parkinson's Disease Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 71
FIG. 37 Number of People Aged 65 and Older in the U.S. Population with Alzheimer's Disease, 2010 to 2050 (in Million) 72
FIG. 38 Global Alzheimer's Disease Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 73
FIG. 39 Prevalence of Obstructive Sleep Apnea in Adults, by Country (2018) (%) 74
FIG. 40 Global Sleep Disorders Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 74
FIG. 41 Incidence of Traumatic Brain Injury (TBI) per 100,000 People, by Region 75
FIG. 42 Global Traumatic Brain Injuries Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 76
FIG. 43 Prevalence of Epilepsy in U.S. Adults and Children, in thousands (2007, 2015) 77
FIG. 44 Prevalence of Epilepsy, by Country (per 1000) 77
FIG. 45 Global Epilepsy Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 78
FIG. 46 Facts About Migraine 79
FIG. 47 Global Migraine Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 79
FIG. 48 Global Incidence of Different Types of Stroke (in million) 80
FIG. 49 Global Stroke Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 81
FIG. 50 Global Other Diseases Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 82
FIG. 51 Global Wireless Brain Sensors Market by End-Users, 2020 & 2026 (%) 83
FIG. 52 Global Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 83
FIG. 53 Global Hospitals Wireless Brain Sensors Market by Region, 2018-2026 (US$ million) 84
FIG. 54 Global Diagnostic Centres Wireless Brain Sensors Market by Region, 2018-2026 (US$ million) 85
FIG. 55 Global Research Institutes Wireless Brain Sensors Market by Region, 2018-2026 (US$ million) 86
FIG. 56 Global Others Wireless Brain Sensors by Region, 2018-2026 (US$ million) 87
FIG. 57 Distribution of Population Aged 65 Years or Over by Region, 2019 and 2050 (%) 88
FIG. 58 Global Wireless Brain Sensors Market by Region, 2020 & 2026 (%) 89
FIG. 59 Global Wireless Brain Sensors Market by Region, 2018-2026 (US$ Million) 89
FIG. 60 Population aged 65 years or over in North American Countries, (2019 & 2030) 90
FIG. 61 North America Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 91
FIG. 62 North America Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 91
FIG. 63 North America Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 92
FIG. 64 North America Wireless Brain Sensors Market by Country, 2018-2026 (US$ Million) 92
FIG. 65 People Over 65 Years in the United States Suffering from Alzheimer's Disease, 2019 (In Million, Percent) 93
FIG. 66 People Over 65 Years in the United States Suffering from Alzheimer's Disease, 2019 (In Million, Percent) 94
FIG. 67 US Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 95
FIG. 68 US Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 96
FIG. 69 US Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 96
FIG. 70 The proportion of the Population Aged 65 and Over, Canada, 2019-2061 (in Percentage) 97
FIG. 71 Prevalence Rates of Parkinson's and Alzheimer's Disease among, Canadian Age 65+ 2016 to 2031 (in Percentage) 98
FIG. 72 Canada Health Spending by Sources of Funds, 2017 99
FIG. 73 Canadian Hospital Spending by Type and Function, 2018 (%) 99
FIG. 74 Canada Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 100
FIG. 75 Canada Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 100
FIG. 76 Canada Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 101
FIG. 77 Population Aged 65 years or over in Rest of NA, by Country, 2019 & 2030 (%) 102
FIG. 78 GDP of Rest of North American Countries, PPP (2017 & 2019) 102
FIG. 79 Rest of the NA Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 103
FIG. 80 Rest of the NA Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 103
FIG. 81 Rest of the NA Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 104
FIG. 82 Prevalence of Epilepsy in Europe, by Country (per 1000) 105
FIG. 83 FIG. 81 Population Aged 65 years or over in Rest of NA, by Country, 2019 & 2030 (%) 105
FIG. 84 Europe Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 106
FIG. 85 Europe Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 106
FIG. 86 Europe Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 107
FIG. 87 Europe Wireless Brain Sensors Market by Country, 2018-2026 (US$ Million) 107
FIG. 88 The population of Germany Recorded Over 65 Years in 2019, 2030 and 2050 (in Percentage) 108
FIG. 89 Germany Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 109
FIG. 90 Germany Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 109
FIG. 91 Germany Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 110
FIG. 92 Prevalence Data of Neurological Disorders in the UK, 2017 110
FIG. 93 The population of the UK Recorded Over 65 Years in 2019, 2026, 2035 & 2045 (%) 111
FIG. 94 Prevalence of Neurological Conditions in England 112
FIG. 95 United Kingdom Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 112
FIG. 96 United Kingdom Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 113
FIG. 97 United Kingdom Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 113
FIG. 98 Major Causes of Death in Spain in 2018 (%) 114
FIG. 99 The population of the Spain Recorded Over 65 Years in 2010, 2019 & 2030 (%) 115
FIG. 100 Spain Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 115
FIG. 101 Spain Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 116
FIG. 102 Spain Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 116
FIG. 103 The population of France Recorded Over 65 Years in 2019, 2030 & 2050 (%) 117
FIG. 104 Prevalence of Epilepsy in France (per 1,000) 117
FIG. 105 France Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 118
FIG. 106 France Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 118
FIG. 107 France Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 119
FIG. 108 Prevalence of Epilepsy in Italy (per 1,000) 119
FIG. 109 The population of Italy Recorded Over 65 Years in 2019, 2030 & 2050 (%) 120
FIG. 110 Italy Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 120
FIG. 111 Italy Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 121
FIG. 112 Italy Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 121
FIG. 113 Rest of Europe % of the population over 65 years old by Country, 2019 122
FIG. 114 Rest of Europe Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 123
FIG. 115 Rest of Europe Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 123
FIG. 116 Rest of Europe Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 124
FIG. 117 The proportion of Total Population Aged 65 or Over In 2019 And 2030 By Asian Subregion 125
FIG. 118 Prevalence of Epilepsy in APAC, by Country (per 1000) 125
FIG. 119 Asia-Pacific Health expenditure per capita, 2015 by Country 125
FIG. 120 Asia-Pacific Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 126
FIG. 121 Asia-Pacific Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 126
FIG. 122 Asia-Pacific Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 127
FIG. 123 Asia-Pacific Wireless Brain Sensors Market by Country, 2018-2026 (US$ Million) 127
FIG. 124 China's Estimated Elderly Population Structure in 2020 (%) 128
FIG. 125 The population of China Above 65 years in 2019, 2030 and 2050 (Percentage) 128
FIG. 126 Adult Wearable Users and Penetration in China 2015-2019 129
FIG. 127 China Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 129
FIG. 128 China Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 130
FIG. 129 China Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 130
FIG. 130 The population of India Above 65 years in 2019, 2030 and 2050 (Percentage) 131
FIG. 131 India Wireless Brain Sensors Market, by Product Type 2018-2026 (US$ Million) 132
FIG. 132 India Wireless Brain Sensors Market by Medical Condition, 2018-2026 (US$ Million) 132
FIG. 133 India Wireless Brain Sensors Market by End-Users, 2018-2026 (US$ Million) 133
FIG. 134 Japanese Population Count by Age Group, Current and Forecast 2010-2060 (
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