Chat with us, powered by LiveChat

Loading...

Intracranial Pressure Monitoring Devices Market Report

RA00025

Intracranial Pressure Monitoring Devices Market by Procedure (Invasie and Non-Invasive), Application (Intracerebral Hemorrhage, Traumatic Brain Injury, Meningitis and Others) and End Use (Hospitals, Ambulatory Care & Clinics and Others): Global Opportunity Analysis and Industry Forecast, 2019–2026
Update Available On-Demand

RA00025

Pages: NA

Nov 2019

Intracranial Pressure Monitoring Devices Industry Overview 2026:

The global intracranial pressure monitoring devices market size was valued at US $ 1,256.6 Million in 2018 and is projected to reach US $ 1,625.7 Million by 2026, registering a CAGR of 3.3% from 2019 to 2026. North America accounted for the highest share in 2018 and is anticipated to maintain its lead in the global intracranial pressure monitoring devices market throughout the forecast period.

Intracranial pressure monitoring devices are used to perform diagnostic test that helps to monitor if the pressure inside the head is high or low. The monitor calculates the pressure inside the head and sends the measurements to a recording device. The intracranial pressure monitoring involves two major techniques, namely – invasive and non-invasive. They are used to treat neurological disorders including intracerebral and subarachnoid haemorrhage, hydrocephalus, ischemic stroke, and traumatic brain injury (TBI) among others.

The global intracranial pressure monitoring devices market is segment based on procedure, application, end use and region. Based on procedure, the market is divided into Invasive and Non-Invasive. Invasive segment is further divided into Ventriculostomy and Microtransducers. The non-invasive segment is further sub-divided into Transcranial Doppler, Tympanic Membrane Displacement, Optic nerve sheath diameter, CT scan/MRI, and Fundoscopy. On the basis of application, the market is categorized into Intracerebral Hemorrhage, Traumatic Brain Injury, Meningitis and others. Based on End Use, it is bifurcated into Hospitals, Ambulatory Care & Clinics and others. Based on region, it is analyzed across North America, Europe, Asia-Pacific, and LAMEA.

The key players analyzed in the Intracranial pressure monitoring devices market include Continental Medtronic Plc, Integra LifeSciences Corporation, DePuy Synthes, Focus Medical Group Inc., Spiegelberg Gmbh, SOPHYSA, Raumedic AG, HeadSense Medical, Inc., Vittamed, and Linet among others.

The intracranial pressure (ICP) monitoring technique is proposed centuries ago by Kellie and Monroe, even though this method is widely used across the globe due its advantages in terms of accuracy and safety regarding patient’ health. With the advancement in science and technology, numerous invasive and non-invasive techniques to monitor intracranial pressure (ICP) have been developed and some are yet to develop. Intracranial pressure monitoring devices are inexpensive, easy to use, reliable and provide accurate measurement of the pressure inside the head. These factors are likely to propel the demand for intracranial pressure monitoring devices market during the forecast period. With the rising complications associated with the use of invasive ICP monitoring devices, there is continuous research and development on the production of non-invasive intracranial pressure monitoring devices so that risk of infection and haemorrhage can be reduced. The development and use of non-invasive ICP monitoring devices further drive the global intracranial pressure monitoring devices market during the forecast period.

Intracranial Pressure Monitoring Devices Market Synopsis

Continuous advancements in science & technology, along with the growing development in multiple invasive as well as non-invasive techniques to monitor intracranial pressure (ICP) is expected to accelerate the growth of the intracranial pressure monitoring devices market.

On the other hand, certain problems associated with the use of intraoperative pressure monitoring devices, such as the risk of infection, restricted monitoring, and short term monitoring of the patients are the growth-restricting factor for the market.

According to the regional analysis, the North America market for intracranial pressure monitoring device held the highest market share in 2018 and is anticipated to subjugate in the global industry throughout the forecast period.

Indispensable Technique to Treat Neurological Disorders:

Intracranial pressure monitoring is an important measuring technique to analyse and treat neurological disorders including intracerebral and subarachnoid haemorrhage, hydrocephalus, ischemic stroke, traumatic brain injury (TBI) and meningitis/encephalitis. During the last few decades, the methods of intracranial pressure monitoring have evolved from invasive technique to non-invasive techniques with both advantages and limitations. Any increment in the cranial volume could contribute to the rise in intracranial hypertension. An accurate understanding of intracranial pressure (ICP) monitoring can assist in managing with space-occupying head injuries, lesions, pathological conditions causing an abnormal intracranial pressure, followed by cranial surgeries. The major reason for long term disability and death due to head injuries, haemorrhage and other intracranial pathological situations is a rise in the intracranial pressure. To prevent such conditions, intracranial pressure monitoring has proven to be useful, and indeed life saviour, in the critical care of traumatic brain injuries, hydrocephalus and related cerebral diseases including intracranial haemorrhage, Reye’s syndrome, postoperative sub-occipital brain tumours and cryptococcal meningitis. To prevent such diseases due to raised intracranial pressure, ICP monitoring helps in a great manner. These factors strongly propel the growth prospects of the global intracranial pressure (ICP) monitoring devices market during the forecast period.

Development of Advanced Monitoring Devices:

The intracranial pressure monitoring devices play a critical role in measuring inside pressure of the brain. It enables doctors to deal with an uncertain rise and drop in the skull which in turn, reduces the chances of clotting and risk to get even fatal diseases. The medical devices manufacturers are nowadays developing different kind of products which can help scale-up the intracranial pressure monitoring and sensing. For instance, Branchpoint Technologies, a manufacturer of cost-effective solutions offering intracranial pressure monitoring announced that the FDA (Food and Drug Administration) has approved its AURA intracranial monitoring systems. The AURA intracranial pressure monitoring system offers fully wireless and implantable intracranial pressure sensors that enable complete mobile intracranial pressure monitoring in the patients.

Risk Associated with the Use of ICP Monitoring Devices:

Intracranial pressure monitoring devices are of great help in evaluating ICP pressure in the skull’s pressure. However, there are certain risks associated with both invasive and non-invasive intracranial pressure monitoring devices. With the use of an invasive method, there are certain problems such as the risk of infection, short term monitoring and restricted the monitoring of the patient among others. Also, the invasive nature of monitoring devices limits the frequency of evaluation in several neurological situations such as hydrocephalus, therefore hampering the long-term care of patients with compromised intracranial pressure. However, the use of non-invasive monitoring devices overcome the problem associated with the invasive ICP monitoring devices, but the non-invasive ICP monitoring method is not capable of providing accurate results as the invasive one. These factors are expected to hamper the global intracranial pressure (ICP) monitoring devices market during the forecast period.

Key Benefits for Intracranial Pressure Monitoring Devices Market:

  • This study presents the analytical depiction of the global intracranial pressure monitoring devices market analysis along with the current trends and future estimations to depict the imminent investment pockets.
  • The overall Intracranial pressure monitoring devices market opportunity is determined by understanding the profitable trends to gain a stronger foothold.
  • The report presents information related to the key drivers, restraints, and opportunities of the global Intracranial pressure monitoring devices market with a detailed impact analysis.
  • The current Intracranial pressure monitoring devices market is quantitatively analyzed from 2019 to 2026 to benchmark the financial competency.
  • Porter’s five forces analysis illustrates the potency of the buyers and suppliers in the industry.

Intracranial Pressure Monitoring Devices Key Industry Segments:

By Procedure

  • Invasive
    • Ventriculostomy
    • Microtransducers
  • Non-Invasive
    • Transcranial Doppler
    • Tympanic Membrane Displacement
    • Optic Nerve Sheath Diameter
    • CT scan/MRI
    • Fundoscopy

By Application

  • Intracerebral Hemorrhage
  • Traumatic Brain Injury
  • Meningitis
  • Others

By End Use

  • Hospitals
  • Ambulatory Care & Clinics
  • Others

By Region

  • North America
    • U.S.
    • Canada
    • Mexico
  • Europe
    • Germany
    • France
    • UK
    • Italy
    • Spain 
    • Russia
    • Rest of Europe
  • Asia-Pacific
    • Japan
    • China
    • India
    • Australia
    • ASEAN
    • South Korea
    • Rest of APAC
  • LAMEA
    • Latin America
    • Middle East
    • Africa

1.    Global Intracranial Pressure Monitors Market- Executive Summary

1.1.    Market Overview
1.2.    Opportunity Assessment
1.3.    Key Market Indicators

2.    Global Intracranial Pressure Monitors Market- Introduction

2.1.    Market Introduction and Definition
2.2.    Global Intracranial Pressure Monitors Market- Taxonomy

3.    Global Intracranial Pressure Monitors Market- Associated Industry Assessment

3.1.    Market Dynamics and Impact Assessment

3.1.1.    Drivers
3.1.2.    Restraints
3.1.3.    Opportunities
3.1.4.    Trends

3.2.    PEST Analysis
3.3.    Porters Analysis
3.4.    Value Chain Analysis

3.4.1.    Key Market Participants

3.4.1.1.    Manufacturers
3.4.1.2.    Distributors/Retailers
3.4.1.3.    End Users

3.4.2.    Profitability Margin

3.5.    Forecast Factors and Its Relevance

4.    Global Intracranial Pressure Monitors Market Analysis and Forecast

4.1.    Global Intracranial Pressure Monitors Market Analysis and Forecast

4.1.1.    Market Value (US$ Mn) Forecast and Analysis
4.1.2.    Region Wise Demand Assessment

4.1.2.1.    North America Market Value (US$ Mn), 2019-2027
4.1.2.2.    LAMEA Value (US$ Mn), 2019-2027
4.1.2.3.    Europe Market Value (US$ Mn), 2019-2027
4.1.2.4.    Asia Pacific Market Value (US$ Mn), 2019-2027

4.2.    Global Intracranial Pressure Monitors Market Analysis and Forecast, by Procedure

4.2.1.    Current and Future Market Size (US$ Mn), by Procedure

4.2.1.1.    Invasive

4.2.1.1.1.    Ventriculostomy
4.2.1.1.2.    Microtransducers

4.2.1.2.    Non-Invasive

4.2.1.2.1.    Transcranial Doppler
4.2.1.2.2.    Tympanic Membrane Displacement
4.2.1.2.3.    Optic nerve sheath diameter
4.2.1.2.4.    CT scan/MRI
4.2.1.2.5.    Fundoscopy

4.2.2.    Market Share Analysis (%), by Procedure
4.2.3.    Market Attractive Analysis, by Procedure
4.2.4.     Market Y-o-Y Growth Analysis and forecast, by Procedure

4.3.    Global Intracranial Pressure Monitors Market Analysis and Forecast, by Application

4.3.1.    Current and Future Market Size (US$ Mn), by Application

4.3.1.1.    Intracerebral Hemorrhage
4.3.1.2.    Traumatic Brain Injury
4.3.1.3.    Meningitis
4.3.1.4.    Others

4.3.2.    Market Share Analysis (%), by Application
4.3.3.    Market Attractive Analysis, by Application
4.3.4.     Market Y-o-Y Growth Analysis and forecast, by Application

4.4.    Global Intracranial Pressure Monitors Market Analysis and Forecast, by End Use

4.4.1.    Current and Future Market Size (US$ Mn), by End Use

4.4.1.1.    Hospitals
4.4.1.2.    Ambulatory Care & Clinics
4.4.1.3.    Others

4.4.2.    Market Share Analysis (%), by End Use
4.4.3.    Market Attractive Analysis, by End Use
4.4.4.    Market Y-o-Y Growth Analysis and forecast, by End Use

5.    North America Intracranial Pressure Monitors Market Analysis and Forecast

5.1.    North America Intracranial Pressure Monitors Market Analysis and Forecast

5.1.1.    Market Value (US$ Mn) Forecast and Analysis
5.1.2.    Country Wise Demand Assessment

5.1.2.1.    US Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
5.1.2.2.    Canada Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
5.1.2.3.    Mexico Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis

5.2.    North America Intracranial Pressure Monitors Market Analysis and Forecast, by Procedure
5.3.    North America Intracranial Pressure Monitors Market Analysis and Forecast, by Application
5.4.    North America Intracranial Pressure Monitors Market Analysis and Forecast, by End Use

6.    LAMEA Intracranial Pressure Monitors Market Analysis and Forecast

6.1.    Latin America Intracranial Pressure Monitors Market Analysis and Forecast

6.1.1.    Market Value (US$ Mn) Forecast and Analysis
6.1.2.    Country Wise Demand Assessment

6.1.2.1.    Latin America Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
6.1.2.2.    Middle East Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
6.1.2.3.    Africa Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis

6.2.    LAMEA Intracranial Pressure Monitors Market Analysis and Forecast, by Procedure
6.3.    LAMEA Intracranial Pressure Monitors Market Analysis and Forecast, by Application
6.4.    LAMEA Intracranial Pressure Monitors Market Analysis and Forecast, by End Use

7.    Europe Intracranial Pressure Monitors Market Analysis and Forecast

7.1.    Europe Intracranial Pressure Monitors Market Analysis and Forecast

7.1.1.    Market Value (US$ Mn) Forecast and Analysis
7.1.2.    Country Wise Demand Assessment

7.1.2.1.    UK Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
7.1.2.2.    Germany Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
7.1.2.3.    Italy Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
7.1.2.4.    Spain Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis 
7.1.2.5.    Russia Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
7.1.2.6.    France Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
7.1.2.7.    Rest of Europe Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis

7.2.    Europe Intracranial Pressure Monitors Market Analysis and Forecast, by Procedure
7.3.    Europe Intracranial Pressure Monitors Market Analysis and Forecast, by Application
7.4.    Europe Intracranial Pressure Monitors Market Analysis and Forecast, by End Use

8.    Asia Pacific Intracranial Pressure Monitors Market Analysis and Forecast

8.1.    Asia Pacific Intracranial Pressure Monitors Market Analysis and Forecast

8.1.1.    Market Value (US$ Mn) Forecast and Analysis
8.1.2.    Country Wise Demand Assessment

8.1.2.1.    China Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
8.1.2.2.    India Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
8.1.2.3.    Japan Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
8.1.2.4.    South Korea Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
8.1.2.5.    ASEAN Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
8.1.2.6.    Australia Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis
8.1.2.7.    Rest of Asia Pacific Market Value (US$ Mn) Share Analysis and Y-o-Y Analysis

8.2.    Asia Pacific Intracranial Pressure Monitors Market Analysis and Forecast, by Procedure
8.3.    Asia Pacific Intracranial Pressure Monitors Market Analysis and Forecast, by Application
8.4.    Asia Pacific Intracranial Pressure Monitors Market Analysis and Forecast, by End Use

9.    Competitive Assessment and Company Profiles

9.1.    Global Intracranial Pressure Monitors Market- a Dashboard View
9.2.    Global Intracranial Pressure Monitors Market Structure
9.3.    Global Intracranial Pressure Monitors Market- Company Share Analysis
9.4.    Company Profiles

9.4.1.    Medtronic Plc

9.4.1.1.    Company Overview
9.4.1.2.    Product Portfolio
9.4.1.3.    Locations across the globe
9.4.1.4.    Key Developments (if any)
9.4.1.5.    Key Strategies (if any)

9.4.2.    Integra LifeSciences Corporation

9.4.2.1.    Company Overview
9.4.2.2.    Product Portfolio
9.4.2.3.    Locations across the globe
9.4.2.4.    Key Developments (if any)
9.4.2.5.    Key Strategies (if any)

9.4.3.    DePuy Synthes

9.4.3.1.    Company Overview
9.4.3.2.    Product Portfolio
9.4.3.3.    Locations across the globe
9.4.3.4.    Key Developments (if any)
9.4.3.5.    Key Strategies (if any)

9.4.4.    Focus Medical Group Inc.

9.4.4.1.    Company Overview
9.4.4.2.    Product Portfolio
9.4.4.3.    Locations across the globe
9.4.4.4.    Key Developments (if any)
9.4.4.5.    Key Strategies (if any)

9.4.5.    Spiegelberg Gmbh

9.4.5.1.    Company Overview
9.4.5.2.    Product Portfolio
9.4.5.3.    Locations across the globe
9.4.5.4.    Key Developments (if any)
9.4.5.5.    Key Strategies (if any)

9.4.6.    SOPHYSA

9.4.6.1.    Company Overview
9.4.6.2.    Product Portfolio
9.4.6.3.    Locations across the globe
9.4.6.4.    Key Developments (if any)
9.4.6.5.    Key Strategies (if any)

9.4.7.    Raumedic AG

9.4.7.1.    Company Overview
9.4.7.2.    Product Portfolio
9.4.7.3.    Locations across the globe
9.4.7.4.    Key Developments (if any)
9.4.7.5.    Key Strategies (if any)

9.4.8.    HeadSense Medical, Inc.

9.4.8.1.    Company Overview
9.4.8.2.    Product Portfolio
9.4.8.3.    Locations across the globe
9.4.8.4.    Key Developments (if any)
9.4.8.5.    Key Strategies (if any)

9.4.9.    Vittamed

9.4.9.1.    Company Overview
9.4.9.2.    Product Portfolio
9.4.9.3.    Locations across the globe
9.4.9.4.    Key Developments (if any)
9.4.9.5.    Key Strategies (if any)

9.4.10.    Linet

9.4.10.1.    Company Overview
9.4.10.2.    Product Portfolio
9.4.10.3.    Locations across the globe
9.4.10.4.    Key Developments (if any)
9.4.10.5.    Key Strategies (if any)

10.    Disclaimer

Intracranial pressure (ICP) monitoring devices are used to perform diagnostic test that helps to monitor if the pressure inside the head is high or low. The monitor calculates the pressure inside the head and sends the measurements to a recording device. There are majorly two kinds of methods are used, namely – invasive and non-invasive. Among them invasive method is highly adopted by the doctors due to its high accuracy. The ICP monitoring devices helps in analyzing cranial pressure inside the head and related injuries using invasive or non-invasive techniques.

The rising incidents of traumatic accidents and neurological disorders in various countries across the globe is expected to drive the ICP monitoring devices market growth during the forecast period. Also, the increasing cases of meningitis, brain related injuries and aneurysm among the people is expected to drive the demand of the global intracranial pressure monitoring devices. In addition, government initiatives towards the proper and efficient medical care for the people is expected to drive the growth of the market. However, the risk associated with the pressure monitoring is expected to hinder the growth prospects of the intracranial pressure monitoring devices market.

Among the analyzed regions, currently, North America is the highest revenue contributor, and is expected to maintain the lead during the forecast period, followed by Europe, Asia Pacific, and LAMEA.

Purchase Options

Personalize this research

  • Triangulate with your own data
  • Request your format and definition
  • Get a deeper dive on a specific application, geography, customer or competitor
10% Off on Customization
Contact Us

Customers Also Viewed