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Global Automated Visual Field Analyzer Market- Description
The automated visual field analyser has benefits over the manual visual field analyser in that it delivers more sensitive and accurate findings in a timely manner, and the recording of patient responses can be regulated, that gives more reliable results. Introduction of automated analysers and compact portable analysers is expected to be one of the prominent factor that is contributing in the growth of Automated Visual Field Analyzer Market.
Micro Medical Devices launched its visual field analyser named as Palm Scan VF200. The device is a battery-powered portable device that allows its users to perform screening and complete visual field tests on patients in any settings. These settings include an office waiting room, a nursing home, or even the patient's own house. Restrictions such as the high cost of automated visual field analyse, increased competition and a scarcity of ophthalmologists with the price pressure among major providers may hinder Automated Visual Field Analyzer Market's expansion throughout the projected period.
Source: WMR
Global Automated Visual Field Analyser Market: Overview
Computerized automated perimetry is an efficient and standardised method to evaluate a patients visual sensitivity. For example, The Humphrey Field Analyzer (Carl Zeiss Meditec, Inc) integrate the Swedish Interactive Threshold Algorithm (SITA) strategy. At present, the SITA Standard is the conventional threshold estimation procedure in most clinical settings. Moreover, Advanced Vision Analyser Elisar Vision Technology, is a new portable, lightweight virtual reality headset perimeter with optics that allows visual field analysis. The expensive cost of an automated visual field analyser, a scarcity of ophthalmologists, and rising competition and price pressure among major providers are some factors that Automated Visual Field Analyzer Market is expected to get hampered in the forecast period.
Source: WMR
Global Automated Visual Field Analyser Market- Key Trends
Hospitals and Non- Profitable Organisations
The introduction of compact portable analysers and automated analysers are further anticipated to serve as prominent driving factors in the automated visual field analyser market. Among other segments, the hospital segment shares the largest revenue portion in the automated visual field analyser market. Further, hospitals and non-profit organizations are opting for market strategies such as mergers and acquisitions that are expected to create lucrative opportunities in the automated visual field analyser market. Moreover, improvements in the healthcare facilities and favourable reimbursement policies designed in the developed economies also contribute in the automated visual field analyser market growth.
Increasing use of artificial intelligence (AI) and machine learning (ML)
One of the key trends in the Automated Visual Field Analyser Market is the increasing use of artificial intelligence (AI) and machine learning (ML) algorithms for improved accuracy and faster testing. Traditionally, visual field testing has relied on manual interpretation of results, which can be subjective and prone to errors. However, the integration of AI and ML algorithms is making visual field testing more accurate and efficient, enabling clinicians to detect and diagnose eye diseases earlier and with greater precision. AI and ML algorithms can be used to analyze large datasets of visual field results and identify patterns and anomalies that may be indicative of eye disease. By automating the analysis process, clinicians can save time and resources, and also reduce the risk of human error. The increasing use of AI and ML algorithms in the Automated Visual Field Analyser Market is expected to drive growth in Automated Visual Field Analyzer Market, as healthcare providers seek more efficient and accurate methods of detecting and diagnosing eye diseases.
Impact of COVID-19 on the Global Automated Visual Field Analyser Market
The Automated Visual Field Analyser Market, like many other industries, was initially impacted by the COVID-19 pandemic. With healthcare resources and attention focused on managing the pandemic, routine eye care services, including visual field testing, were temporarily halted or delayed. During the pandemic, many manufacturers of automated visual field analysers pivoted their production to meet the increased demand for personal protective equipment (PPE) and other medical supplies. This helped to sustain the industry and keep manufacturing operations running, despite disruptions to the supply chain and logistics.
As healthcare facilities resumed non-emergency services, visual field testing gradually resumed. The use of telemedicine and remote patient monitoring also helped to facilitate visual field testing during the pandemic, enabling clinicians to remotely monitor patients and provide necessary care. The Automated Visual Field Analyser Market is expected to continue to grow, driven by factors such as technological advancements, increasing prevalence of eye diseases, and aging population. Automated Visual Field Analyzer Market is also expected to benefit from the growing demand for personalized medicine and the increasing use of AI and ML algorithms in healthcare.
Market Segmentation of Global Automated Visual Field Analyser Market:
Segmentation based on Product type
Kinetic
Static
The kinetic visual field analyser segment is anticipated to grow at a CAGR of 6.28% during the forecast period. Some of the major advantages of kinetic visual field analysers include their capacity to catch moving stimuli and provide accurate findings. Its major benefits are improved spatial resolution and quicker peripheral testing.
Source: WMR
Segmentation based on End- Users
Hospitals
Ophthalmic Clinics
Others
The rising incidence of eye-related conditions and the technological advancements in the automated visual field analyser are driving the growth of the hospitals segment. The increasing acquisitions between ophthalmic non-profit organizations and hospitals might hike the demand for new installations in the coming years. However, favourable reimbursement policies in developed countries, and improving healthcare facilities are factors contributing toward segment growth.
Global Automated Visual Field Analyzer Market- Regional Landscape
The major regions constituting the geographical ambit of this industry are
North America
Middle East & Africa
Europe
Asia Pacific
Latin America
North America dominated the automated visual field analyser market and accounted for the largest revenue share of around 46.6% in 2022. Asia Pacific, Automated Visual Field Analyzer Market for automated visual field analysers has shown the fastest growth in the economy. Fast developing economies coupled with modernizing healthcare services in Southeast Asian countries are expected to drive Automated Visual Field Analyzer Market in the region.
Global Automated Visual Field Analyser Market- Competitive Landscape
The prominent players operating in Automated Visual Field Analyzer Marketplace are Avedro, Inc., Carl Zeiss, Bausch Health Companies Inc., Haag-Streit AG, Johnson & Johnson Services, Inc., Elektron Eye Technology, Heidelberg Engineering, Kowa Company, Ltd., OPTOPOL Technology Sp. z o.o., OCULUS, Inc., Metrovision, MEDA Co., Ltd., Topcon Positioning Systems, Inc., and Others. In July 2020, Topcon Healthcare acquired the Henson line of perimetry products. Along with that Metro vision is also working on a project named INVISIO that aims at creating new and interesting ways for evaluating visual functions by combining photonics, auto stereoscopy with paediatric.
Scope of the Report:
Historical Years- 2020-2021
Forcast Years- 2023-2033
Growth Rate- 0.6% CAGR
Market Size in 2022- USD 176.2 Million
Market Size in 2033- USD 265.5 Million
Segments Covered- Product Type, Region and End -Users.
Major regions reported- North America, MEA, Asia Pacific, Europe, and Latin America
Key players profiled- Avedro, Inc., Carl Zeiss, Bausch Health Companies Inc., Haag-Streit AG, Johnson & Johnson Services, Inc., Elektron Eye Technology, Heidelberg Engineering, Kowa Company, Ltd., OPTOPOL Technology Sp. z o.o., OCULUS, Inc., Metrovision, MEDA Co., Ltd., Topcon Positioning Systems, Inc., and Others.
1. Global Automated Visual Field Analyzer Market Introduction and Market Overview
1.1. Objective of the Market Research Study
1.2. AUTOMATED VISUAL FIELD ANALYZER Market Definition & Description
1.3. Research Data Parameters & Reporting Timelines
1.3.1. Historical Data Reporting Years 2020 to 2021
1.3.2. Projected Data Reporting Years 2022 to 2033
1.3.3. Reporting Data Parameters Value (US$ Million)
1.4. Global AUTOMATED VISUAL FIELD ANALYZER Market Scope and Market Estimation
1.4.1. Global AUTOMATED VISUAL FIELD ANALYZER Overall Market Size (US$ Million), Market CAGR (%), Market Estimates & Forecast (2020 to 2033)
1.4.2. Global AUTOMATED VISUAL FIELD ANALYZER Market Revenue Share (%) and Growth Rate (Y-o-Y) from 2020 to 2033
1.5. AUTOMATED VISUAL FIELD ANALYZER Market Segmentation
1.5.1. Product of Global AUTOMATED VISUAL FIELD ANALYZER Market
1.5.2. End User of Global AUTOMATED VISUAL FIELD ANALYZER Market
1.5.3. Key Regions of Global AUTOMATED VISUAL FIELD ANALYZER Market
2. Global AUTOMATED VISUAL FIELD ANALYZER Market - Executive Summary
2.1. Global AUTOMATED VISUAL FIELD ANALYZER Market Summary & Snapshot
2.2. Global AUTOMATED VISUAL FIELD ANALYZER Market, By Product (US$ Million)
2.3. Global AUTOMATED VISUAL FIELD ANALYZER Market, By End User (US$ Million)
2.4. Global AUTOMATED VISUAL FIELD ANALYZER Market, By Geography (US$ Million)
2.5. Global AUTOMATED VISUAL FIELD ANALYZER Market Outlook & Future Opportunities
3. Global AUTOMATED VISUAL FIELD ANALYZER Market Trends, Outlook, and Factors Analysis
3.1. Global AUTOMATED VISUAL FIELD ANALYZER Market Industry Development Trends under COVID-19 Outbreak
3.1.1. Global COVID-19 Status Overview
3.1.2. Influence of COVID-19 Outbreak on Global AUTOMATED VISUAL FIELD ANALYZER Market Industry Development
3.1.3. Pre & Post COVID-19 Trends and Scenarios
3.2. Market Dynamics (Growth Impacting Factors & Rationales)
3.2.1. Drivers
3.2.1.1. Increased ophthalmic disorders
3.2.1.2. Advancements in technology
3.2.2. Restraints
3.2.2.1. High cost of automated visual field analyzer
3.2.2.2. Shortage of trained medical staff
3.2.3. Opportunities
3.2.3.1. technological advancements related to the market
3.2.4. Impact Analysis of Drivers and Restraints
3.3. Ecosystem/ Value Chain Analysis
3.4. Porters Five Forces Analysis
3.5. SWOT Analysis
3.6. PEST Analysis
3.7. Average Selling Prices and Pricing Trends Analysis of AUTOMATED VISUAL FIELD ANALYZER Market
3.8. Technological Roadmap
3.9. Key Investment Pockets of AUTOMATED VISUAL FIELD ANALYZER Market
3.9.1. By Product
3.9.2. By End User
3.9.3. By Regions
4. Global AUTOMATED VISUAL FIELD ANALYZER Market: Estimates & Historic Trend Analysis (2020 to 2021)
4.1. Global AUTOMATED VISUAL FIELD ANALYZER Market, 2020 2021 (US$ Million)
4.2. Global AUTOMATED VISUAL FIELD ANALYZER Market, By Product, 2020 to 2021 (US$ Million)
4.3. Global AUTOMATED VISUAL FIELD ANALYZER Market, By End User, 2020 to 2021 (US$ Million)
4.4. Global AUTOMATED VISUAL FIELD ANALYZER Market, By Region, 2020 to 2021 (US$ Million)
5. Global AUTOMATED VISUAL FIELD ANALYZER Market Estimates & Forecast Trend Analysis, by Product
5.1. Global AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, by Product, 2022 & 2033
5.2. Global AUTOMATED VISUAL FIELD ANALYZER Market Size (US$ Million) Estimates and Forecasts, by Product, 2022 to 2033
5.2.1. Static
5.2.2. Kinetic
6. Global AUTOMATED VISUAL FIELD ANALYZER Market Estimates & Forecast Trend Analysis, by End User
6.1. Global AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, by End User, 2022 & 2033
6.2. Global AUTOMATED VISUAL FIELD ANALYZER Market (US$ Million) Estimates and Forecasts, by End User, 2022 to 2033
6.2.1. Hospitals
6.2.2. Ophthalmic Clinics
6.2.3. Others
7. Global AUTOMATED VISUAL FIELD ANALYZER Market Analysis and Forecast, by Region
7.1. Global AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, by Region, 2022 & 2033
7.2. Global AUTOMATED VISUAL FIELD ANALYZER Market (US$ Million) Estimates and Forecasts, by Region, 2022 to 2033
7.2.1. North America
7.2.2. Europe
7.2.3. Asia Pacific
7.2.4. Middle East and Africa
7.2.5. Latin America
8. North America AUTOMATED VISUAL FIELD ANALYZER Market: Estimates & Forecast Trend Analysis
8.1. North America AUTOMATED VISUAL FIELD ANALYZER Market Assessments & Key Findings
8.2. North America AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, 2022 & 2033
8.3. North America AUTOMATED VISUAL FIELD ANALYZER Market Size Estimates and Forecast (US$ Million) (2022 to 2033)
8.3.1. By Product
8.3.2. By End User
8.3.3. By Major Country
8.3.3.1. The U.S.
8.3.3.2. Canada
9. Europe AUTOMATED VISUAL FIELD ANALYZER Market: Estimates & Forecast Trend Analysis
9.1. Europe AUTOMATED VISUAL FIELD ANALYZER Market Assessments & Key Findings
9.2. Europe AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, 2022 & 2033
9.3. Europe AUTOMATED VISUAL FIELD ANALYZER Market Size Estimates and Forecast (US$ Million) (2022 to 2033)
9.3.1. By Product
9.3.2. By End User
9.3.3. By Major Country
9.3.3.1. Germany
9.3.3.2. The U.K.
9.3.3.3. France
9.3.3.4. Italy
9.3.3.5. Spain
9.3.3.6. Rest of Europe (includes all other European countries)
10. Asia Pacific AUTOMATED VISUAL FIELD ANALYZER Market: Estimates & Forecast Trend Analysis
10.1. Asia Pacific AUTOMATED VISUAL FIELD ANALYZER Market Assessments & Key Findings
10.2. Asia Pacific AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, 2022 & 2033
10.3. Asia Pacific AUTOMATED VISUAL FIELD ANALYZER Market Size Estimates and Forecast (US$ Million) (2022 to 2033)
10.3.1. By Product
10.3.2. By End User
10.3.3. By Major Country
10.3.3.1. China
10.3.3.2. Japan
10.3.3.3. India
10.3.3.4. ASEAN
10.3.3.5. South Korea
10.3.3.6. Rest of Asia Pacific (includes all other Asia Pacific countries)
11. Middle East & Africa AUTOMATED VISUAL FIELD ANALYZER Market: Estimates & Forecast Trend Analysis
11.1. Middle East & Africa AUTOMATED VISUAL FIELD ANALYZER Market Assessments & Key Findings
11.2. Middle East & Africa AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, 2022 & 2033
11.3. Middle East & Africa AUTOMATED VISUAL FIELD ANALYZER Market Size Estimates and Forecast (US$ Million) (2022 to 2033)
11.3.1. By Product
11.3.2. By End User
11.3.3. By Major Country
11.3.3.1. GCC
11.3.3.2. South Africa
11.3.3.3. Egypt
11.3.3.4. Rest of Middle East & Africa (includes all other Middle East & Africa countries)
12. Latin America AUTOMATED VISUAL FIELD ANALYZER Market: Estimates & Forecast Trend Analysis
12.1. Latin America Market Assessments & Key Findings
12.2. Latin America AUTOMATED VISUAL FIELD ANALYZER Market Share (%) Estimates and Forecasts, 2022 & 2033
12.3. Latin America AUTOMATED VISUAL FIELD ANALYZER Market Size Estimates and Forecast (US$ Million) (2022 to 2033)
12.3.1. By Product
12.3.2. By End User
12.3.3. By Major Country
12.3.3.1. Brazil
12.3.3.2. Mexico
12.3.3.3. Rest of Latin America (includes all other Latin America countries)
13. Competitive Landscape
13.1. Market Revenue Share Analysis (%), by Major Players (2021)
13.2. Market Competition Matrix, by Leading Players
13.3. List of Emerging, Prominent and Leading Players
13.4. Major Mergers & Acquisitions, Partnership, Joint Venture, Expansions, Deals, Recent Developments, etc.
14. Company Profiles
14.1. Avedro, Inc.
14.1.1. Company Overview & Insights
14.1.2. Financial Performance
14.1.3. Product / Service Portfolio
14.1.4. Geographical Footprint & Share
14.1.5. Strategic Initiatives & Key Developments
*Similar details would be provided for all the players mentioned below
14.2. Carl Zeiss
14.3. Bausch Health Companies Inc.
14.4. Haag-Streit AG
14.5. Johnson & Johnson Services, Inc.
14.6. Elektron Eye Technology
14.7. Heidelberg Engineering
14.8. Kowa Company, Ltd
14.9. OPTOPOL Technology Sp. z o.o.
14.10. OCULUS, Inc.
14.11. Metrovision
14.12. MEDA Co., Ltd.
14.13. Topcon Positioning Systems, Inc.
14.14. Others
15. Assumptions and Research Methodology
15.1. Data Mining
15.2. Secondary Research
15.3. Primary Research
15.4. Subject Matter Expert Advice
15.5. Quality Check
15.6. Final Review
15.7. Data Triangulation
15.8. Bottom-Up Approach
15.9. Top Down Approach
15.10. Research Flow
15.11. Key Insights from Industry Experts
15.12. Data Sources
15.13. Assumptions
15.14. Limitations
16. Conclusions and Recommendations
16.1. Key Research Findings and Conclusion
16.2. Key Insights & Recommendations from Analysts
