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Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Distribution by Type of Monitoring Method, Bioprocessing Method, Working Volume, Scalability, Key Geographical Regions : Industry Trends and Global Forecasts, 2022-2035

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    Report

  • 197 Pages
  • July 2022
  • Region: Global
  • Roots Analysis
  • ID: 5701130
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During each stage of biopharmaceutical manufacturing process, it is essential to ensure that the bioprocess variables and parameters are under control. Sampling is considered to be an important step in the bioprocess. However, there are several challenges associated with conventional, manual aseptic sampling technique, such as high risk of contamination of the sample, high labor costs, operator-to-operator deviations during sampling and sample preparation, lower sample frequency rates and no real-time availability of data. This has created a demand for systems that allow aseptic sampling and handling of samples, reduce errors, and increase reproducibility. As a result, automatic sampling systems have emerged to be the most appropriate solution as these systems have the potential to address a number of challenges associated with manual sampling method and offer various additional benefits including real-time data monitoring, reduction in deviations by around 65% and increase in the overall productivity up to 80%. Moreover, automated sampling systems ensure that the processes continue to run within precise limits and make the necessary adjustments, while minimizing the risk of human errors, improving the overall product quality, timely monitoring critical process parameters, bringing tangible cost benefits and increased throughput.

Several companies are actively engaged in the manufacturing of automatic sampling systems and automatic sample preparation systems that can be used across various scale of operations in biopharmaceutical manufacturing. These systems have diverse applications, including bioprocess / analyte monitoring, fraction collection, data management and advanced process control / feedback control in biotechnology, pharmaceutical, chemical, food and cosmetic industries. In addition, automatic sampling systems use process analytical technology (PAT) that can be easily integrated in the bioprocessing unit in order to improve scalability. Further, the field has witnessed several innovations, constantly evolving guidelines for pharmaceutical bioprocessing, mainly based on automation, digitalization and process transparency. It is also important to highlight that several equipment manufacturers offering user-friendly, controlled, and automated systems, have recently emerged. Given the rising interest of stakeholders towards technological advancements and adoption of these systems, we believe that the overall market for automatic sampling in biopharmaceutical applications and the measurement of CQA is anticipated to witness substantial growth in the coming years.

Scope of the Report

  • The ‘Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA, 2022-2035: Distribution by Type of Monitoring Method (On-line, Off-line and At-line), Bioprocessing Method (Upstream and Downstream), Working Volume (Less than 10 mL, 10-50 mL, 51-100 mL and more than 100 mL), Scalability (Lab Scale, Pilot Scale and Commercial Scale), Key Geographical Regions (North America, Europe, Asia-Pacific and Rest of the World): Industry Trends and Global Forecasts, 2022-2035’ report features an extensive study on the current and future potential of automatic sampling systems. Due to the growing demand for biologics and stringent regulatory guidelines, the biopharmaceutical industry has shifted to using automatic sampling methods, which offer reliable systems for transferring bioprocess samples directly from bioreactors to analytical devices while maintaining the process sterility and integrity. In addition, it features an elaborate discussion on the likely opportunity for the players engaged in this domain, over the next decade. Amongst other elements, the report includes:
  • A detailed assessment of the current market landscape of automatic sampling systems, featuring a detailed analysis of these systems based on several parameters, such as type of monitoring method, type of sampling unit(s), availability of pump / probe, type of module, automated software, type of vessel, vessel fabrication material, type of analyte monitored, type of analyzer, number of sampling vessels, working volume, operating temperature, end user industry, scalability and applications of the system. In addition, the chapter includes analysis of automatic sampling system developers, along with information on their year of establishment, company size, location of headquarters and leading players (in terms of number of systems being offered).
  • A competitiveness analysis of automatic sampling systems manufacturers based on various relevant parameters, such as overall experience of the company (in terms of number of years since it was established), product portfolio strength (in terms of number of automatic sampling systems manufactured and type of monitoring method) and portfolio diversity (in terms of type of sampling unit, end user industry, scalability and applications).
  • Elaborate profiles of prominent players engaged in this domain. Each profile includes a brief overview of the company, details related to its financial information (if available), information on product portfolio, recent developments and an informed future outlook.
  • A detailed market landscape of automatic sample collection / preparation systems, based on a several relevant parameters, such as system category, system classification, type of monitoring method, type of sampling unit, type of module, working volume, type of analyzer, end user industry and scalability of the products. In addition, the chapter includes a list of players engaged in developing automatic sample collection / preparation systems along with information on their year of establishment, company size, location of headquarters. Further, it also highlights the leading manufacturers of automatic sample collection / preparation systems (in terms of the number of systems manufactured).
  • Detailed profiles of the players offering automatic sample collection / preparation systems. It includes a brief overview of the company, details of its product portfolio, and a section on recent developments and an informed future outlook.
  • An insightful analysis of the patents filed / granted for automatic sampling systems, since 2016, taking into consideration various relevant parameters, such as type of patent, publication year, geographical location, CPC symbols, emerging focus areas, type of organization, leading players (in terms of number of patents granted / filed in the given time period) and patent characteristics. In addition, the chapter includes a detailed patent benchmarking and an insightful valuation analysis.
  • An analysis of various developments / recent trends related to automatic sampling systems, offering insights on recent global events related to automatic sampling systems, and partnerships and collaborations established within the industry.
  • A discussion on affiliated trends, key drivers and challenges, under a SWOT framework, featuring a Harvey ball analysis, highlighting the relative impact of each SWOT parameter on the overall automatic sampling systems market.
  • A qualitative analysis, highlighting the five competitive forces prevalent in this domain, including threats of new entrants, bargaining power of customers, bargaining power of automatic sampling system manufacturers, threats of substitute products and rivalry among existing competitors.

One of the key objectives of the report was to estimate the existing market size and the future opportunity for automatic sampling systems, over the coming 13 years. We have provided informed estimates of the likely evolution of the market in the short to mid-term and long term, for the period 2022-2035. Our year-wise projections of the current and future opportunity have further been segmented based on relevant parameters, such as type of monitoring method (on-line, off-line and at-line), bioprocessing method (upstream and downstream), working volume (less than 10 ml, 10-50 ml, 51-100 ml and more than 100 ml), scalability (lab scale, pilot scale and commercial scale), and key geographical regions (North America, Europe, Asia-Pacific and Rest of the World). In order to account for future uncertainties and to add robustness to our model, we have provided three market forecast scenarios, namely conservative, base and optimistic scenarios, representing different tracks of the industry’s growth.

All actual figures have been sourced and analyzed from publicly available information forums and primary research discussions. Financial figures mentioned in this report are in USD, unless otherwise specified.

Key Questions Answered

  • Who are the key players engaged in the development of automatic sampling systems?
  • What is the relative competitiveness of different automatic sampling system manufacturers?
  • Who are the leading manufacturers involved in the automatic sample collection / preparation systems?
  • How has the intellectual property landscape in this domain evolved over the years?
  • What are the key agenda items being discussed in various global events / conferences held in this domain?
  • Which partnership models are most commonly adopted by stakeholders engaged in this industry?
  • How is the current and future market opportunity, likely to be distributed across key market segments?

Please note: This report can be updated on request. Please contact our Customer Experience team using the Ask a Question widget on our website.

Table of Contents

1. PREFACE
1.1. Scope of the Report
1.2. Market Segmentation
1.3. Research Methodology
1.4. Key Questions Answered
1.5. Chapter Outlines

2. EXECUTIVE SUMMARY
3. INTRODUCTION
3.1. Chapter Overview
3.2. Process Analytical Technology in Sampling
3.3. Manual Sampling versus Automatic Sampling
3.4. Need for Automatic Sampling Systems
3.5. Automatic Aseptic Sampling System
3.6. Components of a Sampling System
3.7. Stand-alone Systems versus Integrated Systems
3.8. Bioprocess Monitoring and Control Methods
3.8.1. At-line Monitoring
3.8.2. In-line Monitoring
3.8.3. Off-line Monitoring
3.8.4. On-line Monitoring
3.9. Key Considerations for Automatic Sampling
3.9.1. Sample Volume
3.9.2. Cell Removal
3.9.3. Sampling Rate
3.9.4. Integration of Analyzers
3.9.5. Feedback to Bioreactor
3.9.6. Flexibility
3.9.7. Transferability
3.9.8. Price
3.10. Benefits of Automatic Sampling Systems
3.11. Standards and Requirements
3.12. Future Innovations

4. MARKET LANDSCAPE: AUTOMATIC SAMPLING SYSTEMS
4.1. Chapter Overview
4.2. Automatic Sampling Systems: Overall Market Landscape
4.2.1. Analysis by Type of Monitoring Method
4.2.2. Analysis by Type of Sampling Unit
4.2.3. Analysis by Availability of Pump / Probe
4.2.4. Analysis by Type of Module
4.2.5. Analysis by Automated Software
4.2.6. Analysis by Type of Vessel
4.2.7. Analysis by Vessel Fabrication Material
4.2.8. Analysis by Type of Analyte Monitored
4.2.9. Analysis by Type of Analyzer
4.2.10. Analysis by Number of Sampling Vessels
4.2.11. Analysis by Working Volume
4.2.12. Analysis by Operating Temperature
4.2.13. Analysis by End User Industry
4.2.14. Analysis by Scalability
4.2.15. Analysis by Application(s)
4.3. List of Automatic Sampling System Manufacturers
4.3.1. Analysis by Year of Establishment
4.3.2. Analysis by Company Size
4.3.3. Analysis by Region of Headquarters
4.3.4. Analysis by Company Size and Region of Headquarters
4.3.5. Analysis by Location of Headquarters
4.3.6. Leading Players: Analysis by Number of Automatic Sampling Systems Manufactured
4.2.7. Leading Automatic Sampling System Manufacturers: Analysis by Number of End User Industries

5. COMPANY COMPETITIVENESS ANALYSIS
5.1. Chapter Overview
5.2. Assumptions / Key Parameters
5.3. Scope and Methodology
5.4. Company Competitiveness Analysis: Automatic Sampling System Manufacturers in North America
5.5. Company Competitiveness Analysis: Automatic Sampling System Manufacturers in Europe
5.6. Company Competitiveness Analysis: Automatic Sampling System Manufacturers in Asia-Pacific

6. COMPANY PROFILES: AUTOMATIC SAMPLING SYSTEM MANUFACTURERS
6.1. Chapter Overview
6.2. Agilent Technologies
6.2.1. Company Overview
6.2.2. Financial Information
6.2.3. Product Portfolio
6.2.4. Recent Developments and Future Outlook
6.3. Cytiva
6.3.1. Company Overview
6.3.2. Product Portfolio
6.3.3. Recent Developments and Future Outlook
6.4. Mettler Toledo
6.4.1. Company Overview
6.4.2. Financial Information
6.4.3. Product Portfolio
6.4.4. Recent Developments and Future Outlook
6.5. Pall Corporation
6.5.1. Company Overview
6.5.2. Product Portfolio
6.5.3. Recent Developments and Future Outlook
6.6. Shimadzu
6.6.1. Company Overview
6.6.2. Financial Information
6.6.3. Product Portfolio
6.6.4. Recent Developments and Future Outlook
6.7. Xylem
6.7.1. Company Overview
6.7.2. Financial Information
6.7.3. Product Portfolio
6.7.4. Recent Developments and Future Outlook

7. MARKET LANDSCAPE: AUTOMATIC SAMPLE COLLECTION / PREPARATION SYSTEMS
7.1. Chapter Overview
7.2. Automatic Sample Collection / Preparation Systems: Overall Market Landscape
7.2.1. Analysis by System Category
7.2.2. Analysis by System Classification
7.2.3. Analysis by Type of Monitoring Method
7.2.4. Analysis by Type of Sampling Unit
7.2.5. Analysis by Type of Module
7.2.6. Analysis by Working Volume
7.2.7. Analysis by Type of Analyzer
7.2.8. Analysis by End User Industry
7.2.9. Analysis by Scalability
7.3. List of Automatic Sample Collection / Preparation System Manufacturers
7.3.1. Analysis by Year of Establishment
7.3.2. Analysis by Company Size
7.3.3. Analysis by Region of Headquarters
7.3.4. Analysis by Company Size and Region of Headquarters
7.3.5. Analysis by Location of Headquarters
7.3.6. Leading Players: Analysis by Number of Automatic Sample Collection / Preparation Systems Manufactured

8. COMPANY PROFILES: AUTOMATIC SAMPLE COLLECTION / PREPARATION SYSTEM MANUFACTURERS
8.1. Chapter Overview
8.2. Agilent Technologies
8.2.1. Company Overview
8.2.2. Product Portfolio
8.2.3. Recent Developments and Future Outlook
8.3. Biotage
8.3.1. Company Overview
8.3.2. Product Portfolio
8.3.3. Recent Developments and Future Outlook
8.4. Flownamics
8.4.1. Company Overview
8.4.2. Product Portfolio
8.4.3. Recent Developments and Future Outlook
8.5. MGI Tech
8.5.1. Company Overview
8.5.2. Product Portfolio
8.5.3. Recent Developments and Future Outlook
8.6. SOTAX
8.6.1. Company Overview
8.6.2. Product Portfolio
8.6.3. Recent Developments and Future Outlook

9. PATENT ANALYSIS
9.1. Chapter Overview
9.2. Scope and Methodology
9.3. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Patent Analysis
9.3.1. Analysis by Publication Year
9.3.2. Analysis by Annual Number of Granted Patents and Patent Applications
9.3.3. Analysis by Geographical Location
9.3.4. Analysis by CPC Symbols
9.3.5. Word Cloud: Emerging Focus Areas
9.3.6. Analysis by Type of Organization
9.3.7. Leading Industry Players: Analysis by Number of Patents
9.3.8. Leading Non-Industry Players: Analysis by Number of Patents
9.3.9. Leading Individual Assignees: Analysis by Number of Patents
9.4. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Patent Benchmarking Analysis
9.4.1. Analysis by Patent Characteristics
9.5. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Patent Valuation Analysis
9.6. Leading Patents by Number of Citations

10. RECENT DEVELOPMENTS
10.1. Chapter Overview
10.2. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Partnership Activity
10.2.1. Partnership Models
10.2.2. List of Partnerships and Collaborations
10.2.2.1. Analysis by Year of Partnership
10.2.2.2. Analysis by Type of Partnership
10.2.2.3. Analysis by Type of Product
10.2.2.4. Analysis by Product and Type of Partnership
10.2.2.5. Most Active Players: Analysis by Number of Partnerships
10.2.2.6. Word Cloud: Emerging Focus Areas
10.2.2.7. Regional Analysis
10.2.2.8. Intercontinental and Intracontinental Agreements
10.3. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Global Events
10.3.1. List of Global Events
10.3.1.1. Analysis by Year of Event
10.3.1.2. Analysis by Event Platform
10.3.1.3. Analysis by Type of Event
10.3.1.4. Analysis by Geography
10.3.1.5. Word Cloud: Evolutionary Trends in Event Agenda / Key Focus Area
10.3.1.6. Most Active Participants: Analysis by Number of Events
10.3.1.7. Analysis by Seniority Level of Event Speakers
10.4. Concluding Remarks

11. SWOT ANALYSIS
11.1. Chapter Overview
11.2. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: SWOT Analysis
11.2.1. Comparison of SWOT Factors

12. PORTERS FIVE FORCES ANALYSIS
12.1. Chapter Overview
12.2. Methodology and Assumptions
12.3. Key Parameters
12.3.1. Threats of New Entrants
12.3.2. Bargaining Power of Customers
12.3.3. Bargaining Power of Automatic Sampling System Manufacturers
12.3.4. Threats of Substitute Products
12.3.5. Rivalry Among Existing Competitors
12.4. Concluding Remarks

13. MARKET FORECAST AND OPPORTUNITY ANALYSIS
13.1. Chapter Overview
13.2. Key Assumptions and Methodology
13.3. Global Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022-2035
13.3.1. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Type of Monitoring Method
13.3.1.1. Automatic Sampling Market for On-line Monitoring, 2022-2035
13.3.1.2. Automatic Sampling Market for Off-line Monitoring, 2022-2035
13.3.1.3. Automatic Sampling Market for At-line Monitoring, 2022-2035
13.3.2. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Type of Bioprocessing Method
13.3.2.1. Automatic Sampling Market for Upstream Bioprocessing, 2022-2035
13.3.2.2. Automatic Sampling Market for Downstream Bioprocessing, 2022-2035
13.3.3. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Working Volume
13.3.3.1. Automatic Sampling Market for Systems with less than 10 mL Working Volume, 2022-2035
13.3.3.2. Automatic Sampling Market for Systems with 10-50 mL Working Volume, 2022-2035
13.3.3.3. Automatic Sampling Market for Systems with 51-100 mL Working Volume, 2022-2035
13.3.3.4. Automatic Sampling Market for Systems with more than 100 mL Working Volume, 2022-2035
13.3.4. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Scalability
13.3.4.1. Automatic Sampling Market for Lab Scale Operations, 2022-2035
13.3.4.2. Automatic Sampling Market for Pilot Scale Operations, 2022-2035
13.3.4.3. Automatic Sampling Market for Commercial Scale Operations, 2022 2035
13.3.5. Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Key Geographical Regions
13.3.5.1. Automatic Sampling Market in North America, 2022-2035
13.3.5.2. Automatic Sampling Market in Europe, 2022-2035
13.3.5.3. Automatic Sampling Market in Asia-Pacific and Rest of the World, 2022 2035

14. INDUSTRIAL REVOLUTION FROM INDUSTRY 1.0 TO INDUSTRY 5.0
14.1. Chapter Overview
14.2. Transition from Industry 1.0 to Industry 5.0
14.2.1. Industry 1.0
14.2.2. Industry 2.0
14.2.3. Industry 3.0
14.2.4. Industry 4.0
14.2.5. Industry 5.0
14.3. Horizons of Lab Evolution
14.4. Benefits of Industry 4.0
14.5. Benefits of Industry 5.0
14.6. Concluding Remarks

15. CONCLUDING REMARKS16. EXECUTIVE INSIGHTS17. APPENDIX 1: TABULATED DATA18. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS
List Of Figures
Figure 2.1 Executive Summary: Automatic Sampling Systems Market Landscape
Figure 2.2 Executive Summary: Automatic Sample Collection / Preparation Systems Market Landscape
Figure 2.3 Executive Summary: Patent Analysis
Figure 2.4 Executive Summary: Recent Developments
Figure 2.5 Executive Summary: Market Forecast and Opportunity Analysis
Figure 3.1 Manual Sampling versus Automatic Sampling
Figure 3.2 Automatic Aseptic Sampling System
Figure 3.3 Bioprocess Monitoring and Control Methods
Figure 3.4 Key Considerations for Automatic Sampling
Figure 3.5 Benefits of Automatic Sampling Systems
Figure 4.1 Automatic Sampling Systems: Distribution by Type of Monitoring Method
Figure 4.2 Automatic Sampling Systems: Distribution by Type of Sampling Unit
Figure 4.3 Automatic Sampling Systems: Distribution by Availability of Pump / Probe
Figure 4.4 Automatic Sampling Systems: Distribution by Type of Module
Figure 4.5 Automatic Sampling Systems: Distribution by Automated Software
Figure 4.6 Automatic Sampling Systems: Distribution by Type of Vessel
Figure 4.7 Automatic Sampling Systems: Distribution by Vessel Fabrication Material
Figure 4.8 Automatic Sampling Systems: Distribution by Type of Analyte Monitored
Figure 4.9 Automatic Sampling Systems: Distribution by Type of Analyzer
Figure 4.10 Automatic Sampling Systems: Distribution by Number of Sampling Vessels
Figure 4.11 Automatic Sampling Systems: Distribution by Working Volume (mL)
Figure 4.12 Automatic Sampling Systems: Distribution by Operating Temperature (oC)
Figure 4.13 Automatic Sampling Systems: Distribution by End User Industry
Figure 4.14 Automatic Sampling Systems: Distribution by Scalability
Figure 4.15 Automatic Sampling Systems: Distribution by Application(s)
Figure 4.16 Automatic Sampling System Manufacturers: Distribution by Year of Establishment
Figure 4.17 Automatic Sampling System Manufacturers: Distribution by Company Size
Figure 4.18 Automatic Sampling System Manufacturers: Distribution by Region of Headquarters
Figure 4.19 Automatic Sampling System Manufacturers: Distribution by Company Size and Region of Headquarters
Figure 4.20 Automatic Sampling System Manufacturers: Distribution by Location of Headquarters
Figure 4.21 Leading Players: Distribution by Number of Automatic Sampling Systems Manufactured
Figure 4.22 Leading Automatic Sampling System Manufacturers: Distribution by Number of End User Industries
Figure 5.1 Company Competitiveness Analysis: Automatic Sampling System Manufacturers in North America
Figure 5.2 Company Competitiveness Analysis: Automatic Sampling System Manufacturers in Europe
Figure 5.3 Company Competitiveness Analysis: Automatic Sampling System Manufacturers in Asia-Pacific
Figure 6.1 Agilent Technologies: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
Figure 6.2 Mettler Toledo: Annual Revenues, 2017-2021 (USD Billion)
Figure 6.3 Shimadzu: Annual Revenues, FY 2017-9M 2022 (JPY Billion)
Figure 6.4 Xylem: Annual Revenues, 2017-2021 (USD Billion)
Figure 7.1 Automatic Sample Collection / Preparation Systems: Distribution by System Category
Figure 7.2 Automatic Sample Collection / Preparation Systems: Distribution by System Classification
Figure 7.3 Automatic Sample Collection / Preparation Systems: Distribution by Type of Monitoring Method
Figure 7.4 Automatic Sample Collection / Preparation Systems: Distribution by Type of Sampling Unit
Figure 7.5 Automatic Sample Collection / Preparation Systems: Distribution by Type of Module
Figure 7.6 Automatic Sample Collection / Preparation Systems: Distribution by Working Volume (mL)
Figure 7.7 Automatic Sample Collection / Preparation Systems: Distribution by Type of Analyzer
Figure 7.8 Automatic Sample Collection / Preparation Systems: Distribution by End User Industry
Figure 7.9 Automatic Sample Collection / Preparation Systems: Distribution by Scalability
Figure 7.10 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Year of Establishment
Figure 7.11 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Company Size
Figure 7.12 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Region of Headquarters
Figure 7.13 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Company Size and Region of Headquarters
Figure 7.14 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Location of Headquarters
Figure 7.15 Leading Players: Distribution by Number of Automatic Sample Collection / Preparation Systems Manufactured
Figure 9.1 Patent Analysis: Distribution by Type of Patent
Figure 9.2 Patent Analysis: Cumulative Distribution by Publication Year, 2016-2022 (till March)
Figure 9.3 Patent Analysis: Distribution by Annual Number of Granted Patents and Patent Applications, 2016-2022 (till March)
Figure 9.4 Patent Analysis: Distribution by Geographical Location
Figure 9.5 Patent Analysis: Distribution by CPC Symbols
Figure 9.6 Word Cloud: Emerging Focus Areas
Figure 9.7 Patent Analysis: Cumulative Year-wise Distribution by Type of Organization, 2016-2022 (till March)
Figure 9.8 Leading Industry Players: Distribution by Number of Patents
Figure 9.9 Leading Non-Industry Players: Distribution by Number of Patents
Figure 9.10 Leading Individual Assignees: Distribution by Number of Patents
Figure 9.11 Leading Players: Benchmarking by Patent Characteristics (CPC Symbols)
Figure 9.12 Patent Analysis: Year-wise Distribution of Patents by Age, 2006-2021
Figure 9.13 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Patent Valuation Analysis
Figure 10.1 Partnerships and Collaborations: Cumulative Year-wise Trend, Pre-2017-2022 (till April)
Figure 10.2 Partnerships and Collaborations: Distribution by Type of Partnership
Figure 10.3 Partnerships and Collaborations: Distribution by Year and Type of Partnership, Pre-2017-2022 (till April)
Figure 10.4 Partnerships and Collaborations: Distribution by Type of Product
Figure 10.5 Partnerships and Collaborations: Distribution by Product and Type of Partnership
Figure 10.6 Most Active Players: Distribution by Number of Partnerships
Figure 10.7 Word Cloud: Emerging Focus Areas
Figure 10.8 Partnerships and Collaborations: Regional Distribution
Figure 10.9 Partnerships and Collaborations: Intercontinental and Intracontinental Agreements
Figure 10.10 Global Events: Cumulative Year-wise Trend, 2016-H1 2022
Figure 10.11 Global Events: Distribution by Event Platform
Figure 10.12 Global Events: Distribution by Type of Event
Figure 10.13 Global Events: Regional Distribution of Events
Figure 10.14 Word Cloud: Evolutionary Trends in Event Agenda / Key Focus Area
Figure 10.15 Global Events: Historical Trend of Event Agendas, 2016-H1 2022
Figure 10.16 Most Active Industry Participants: Distribution by Number of Events
Figure 10.17 Global Events: Distribution by Seniority Level of Event Speakers
Figure 10.18 Global Events: Distribution by Affiliated Department of Event Speakers
Figure 11.1 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: SWOT Analysis
Figure 11.2 SWOT Factors: Harvey Ball Analysis
Figure 12.1 Porters Five Forces: Key Parameters
Figure 12.2 Porters Five Forces: Harvey Ball Analysis
Figure 13.1 Global Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022-2035 (USD Million)
Figure 13.2 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Type of Monitoring Method
Figure 13.3 Automatic Sampling Market for On-line Monitoring, 2022-2035 (USD Million)
Figure 13.4 Automatic Sampling Market for Off-line Monitoring, 2022-2035 (USD Million)
Figure 13.5 Automatic Sampling Market for At-line Monitoring, 2022-2035 (USD Million)
Figure 13.6 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Type of Bioprocessing Method
Figure 13.7 Automatic Sampling Market for Upstream Bioprocessing, 2022-2035 (USD Million)
Figure 13.8 Automatic Sampling Market for Downstream Bioprocessing, 2022-2035 (USD Million)
Figure 13.9 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Working Volume
Figure 13.10 Automatic Sampling Market for Systems with less than 10 mL Working Volume, 2022-2035 (USD Million)
Figure 13.11 Automatic Sampling Market for Systems with 10-50 mL Working Volume, 2022-2035 (USD Million)
Figure 13.12 Automatic Sampling Market for Systems with 51-100 mL Working Volume, 2022-2035 (USD Million)
Figure 13.13 Automatic Sampling Market for Systems with more than 100 mL Working Volume, 2022-2035 (USD Million)
Figure 13.14 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Scalability
Figure 13.15 Automatic Sampling Market for Lab Scale Operations, 2022-2035 (USD Million)
Figure 13.16 Automatic Sampling Market for Pilot Scale Operations, 2022-2035 (USD Million)
Figure 13.17 Automatic Sampling Market for Commercial Scale Operations, 2022-2035 (USD Million)
Figure 13.18 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Key Geographical Regions
Figure 13.19 Automatic Sampling Market in North America, 2022-2035 (USD Million)
Figure 13.20 Automatic Sampling Market in Europe, 2022-2035 (USD Million)
Figure 13.21 Automatic Sampling Market in Asia-Pacific and Rest of the World, 2022-2035 (USD Million)
Figure 14.1 Transition from Industry 1.0 to Industry 5.0
Figure 14.2 Horizons of Lab Evolution
Figure 14.3 Benefits of Industry 4.0
Figure 14.4 Benefits of Industry 5.0
Figure 15.1 Concluding Remarks: Automatic Sampling Systems Market Landscape
Figure 15.2 Concluding Remarks: Automatic Sample Collection / Preparation Systems Market Landscape
Figure 15.3 Concluding Remarks: Patent Analysis
Figure 15.4 Concluding Remarks: Partnerships and Collaborations
Figure 15.5 Concluding Remarks: Global Events
Figure 15.6 Concluding Remarks:Porter’s Five Forces Analysis
Figure 15.7 Concluding Remarks: Market Forecast and Opportunity Analysis

List Of Tables
Table 4.1 Automatic Sampling Systems: Information on Type of Monitoring Method, Type of Sample Monitored, Type of Sampling Unit(s) and Bioprocessing Method
Table 4.2 Automatic Sampling Systems: Information on Key Features
Table 4.3 Automatic Sampling Systems: Information on Usability, Automated Software, Type of Vessel, Vessel Fabrication Material, Type of Analyte Monitored, Certification and Regulatory Compliance
Table 4.4 Automatic Sampling Systems: Information on Type of Analyzer
Table 4.5 Automatic Sampling Systems: Information on Product Specifications
Table 4.6 Automatic Sampling Systems: Information on End User Industry and Scalability
Table 4.7 Automatic Sampling Systems: Information on Sterilizability and Application(s)
Table 4.8 List of Automatic Sampling System Manufacturers: Information on Year of Establishment, Employee Count, Company Size, Location and Region of Headquarters
Table 6.1 Automatic Sampling System Manufacturers: List of Companies Profiled
Table 6.2 Agilent Technologies: Company Snapshot
Table 6.3 Agilent Technologies: 850-DS Sampling Station
Table 6.4 Agilent Technologies: Recent Developments and Future Outlook
Table 6.5 Cytiva: Company Snapshot
Table 6.6 Cytiva: ALIAS™
Table 6.7 Cytiva: Recent Developments and Future Outlook
Table 6.8 Mettler Toledo: Company Snapshot
Table 6.9 Mettler Toledo: EasySampler 1210 System
Table 6.10 Mettler Toledo: Recent Developments and Future Outlook
Table 6.11 Pall Corporation: Company Snapshot
Table 6.12 Pall Corporation: Allegro™ MVP Single-Use System
Table 6.13 Pall Corporation: Recent Developments and Future Outlook
Table 6.14 Shimadzu: Company Snapshot
Table 6.15 Shimadzu: Perfinity Workstation
Table 6.16 Shimadzu: Recent Developments and Future Outlook
Table 6.17 Xylem: Company Snapshot
Table 6.18 Xylem: YSI 2940/2980
Table 6.19 Xylem: Recent Developments and Future Outlook
Table 7.1 Automatic Sample Collection / Preparation Systems: Information on System Category, System Classification and Type of Monitoring Method
Table 7.2 Automatic Sample Collection / Preparation Systems: Information on Key Features
Table 7.3 Automatic Sample Collection / Preparation Systems: Information on Product Specifications, Type of Analyzer, Certification and Regulatory Compliance
Table 7.4 Automatic Sample Collection / Preparation Systems: Information on End User Industry and Scalability
Table 7.5 List of Automatic Sample Collection / Preparation System Manufacturers: Information on Year of Establishment, Employee Count, Company Size, Location and Region of Headquarters
Table 8.1 Automatic Sample Collection / Preparation System Manufacturers: List of Companies Profiled
Table 8.2 Agilent Technologies: Company Snapshot
Table 8.3 Agilent Technologies: AssayMAP Bravo Protein Sample Prep Platform
Table 8.4 Agilent Technologies: 7696A Sample Prep Workbench
Table 8.5 Biotage: Company Snapshot
Table 8.6 Biotage: Extrahera™
Table 8.7 Biotage: Extrahera LV-200
Table 8.8 Biotage: Recent Developments and Future Outlook
Table 8.9 Flownamics: Company Snapshot
Table 8.10 Flownamics: Sample-Mod™
Table 8.11 Flownamics: Seg-Flow® Autosampler
Table 8.12 Flownamics: FlowFraction™
Table 8.13 Flownamics: Recent Developments and Future Outlook
Table 8.14 MGI Tech: Company Snapshot
Table 8.15 MGI Tech: MGISP-960
Table 8.16 MGI Tech: MGISP-Smart 8
Table 8.17 MGI Tech: MGISP-100
Table 8.18 MGI Tech: Recent Developments and Future Outlook
Table 8.19 SOTAX: Company Snapshot
Table 8.20 SOTAX: TPW™ Automated Sample Preparation Workstation
Table 8.21 SOTAX: APW™ Automated Sample Preparation Workstation
Table 8.22 SOTAX: CTS Automated Sample Preparation Workstation
Table 9.1 Patent Analysis: Top 10 CPC Symbol Definitions
Table 9.2 Patent Analysis: Top Five CPC Symbols
Table 9.3 Patent Analysis: Top Seven CPC Classification Symbol Definitions
Table 9.4 Patent Analysis: Summary of Benchmarking Analysis
Table 9.5 Patent Analysis: Categorization based on Weighted Valuation Scores
Table 9.6 Patent Portfolio: List of Leading Patents (by Highest Relative Valuation)
Table 9.7 Patent Portfolio: List of Leading Patents (by Number of Citations)
Table 10.1 List of Partnerships and Collaborations, Pre-2017-2022 (till April)
Table 10.2 List of Partnerships and Collaborations: Information on Focus Area and Type of Product, Pre-2017-2022 (till April)
Table 10.3 List of Global Events related to Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA
Table 17.1 Automatic Sampling Systems: Distribution by Type of Monitoring Method
Table 17.2 Automatic Sampling Systems: Distribution by Type of Sampling Unit
Table 17.3 Automatic Sampling Systems: Distribution by Availability of Pump / Probe
Table 17.4 Automatic Sampling Systems: Distribution by Type of Module
Table 17.5 Automatic Sampling Systems: Distribution by Automated Software
Table 17.6 Automatic Sampling Systems: Distribution by Type of Vessel
Table 17.7 Automatic Sampling Systems: Distribution by Vessel Fabrication Material
Table 17.8 Automatic Sampling Systems: Distribution by Type of Analyte Monitored
Table 17.9 Automatic Sampling Systems: Distribution by Type of Analyzer
Table 17.10 Automatic Sampling Systems: Distribution by Number of Sampling Vessels
Table 17.11 Automatic Sampling Systems: Distribution by Working Volume (mL)
Table 17.12 Automatic Sampling Systems: Distribution by Operating Temperature (oC)
Table 17.13 Automatic Sampling Systems: Distribution by End User Industry
Table 17.14 Automatic Sampling Systems: Distribution by Scalability
Table 17.15 Automatic Sampling Systems: Distribution by Application(s)
Table 17.16 Automatic Sampling System Manufacturers: Distribution by Year of Establishment
Table 17.17 Automatic Sampling System Manufacturers: Distribution by Company Size
Table 17.18 Automatic Sampling System Manufacturers: Distribution by Region of Headquarters
Table 17.19 Automatic Sampling System Manufacturers: Distribution by Company Size and Region of Headquarters
Table 17.20 Automatic Sampling System Manufacturers: Distribution by Location of Headquarters
Table 17.21 Leading Players: Distribution by Number of Automatic Sampling Systems Manufactured
Table 17.22 Leading Automatic Sampling System Manufacturers: Distribution by Number of End User Industries
Table 17.23 Agilent Technologies: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
Table 17.24 Mettler Toledo: Annual Revenues, 2017-2021 (USD Billion)
Table 17.25 Shimadzu: Annual Revenues, FY 2017-9M 2022 (JPY Billion)
Table 17.26 Xylem: Annual Revenues, 2017-2021 (USD Billion)
Table 17.27 Automatic Sample Collection / Preparation Systems: Distribution by System Category
Table 17.28 Automatic Sample Collection / Preparation Systems: Distribution by System Classification
Table 17.29 Automatic Sample Collection / Preparation Systems: Distribution by Type of Monitoring Method
Table 17.30 Automatic Sample Collection / Preparation Systems: Distribution by Type of Sampling Unit
Table 17.31 Automatic Sample Collection / Preparation Systems: Distribution by Type of Module
Table 17.32 Automatic Sample Collection / Preparation Systems: Distribution by Working Volume (mL)
Table 17.33 Automatic Sample Collection / Preparation Systems: Distribution by Type of Analyzer
Table 17.34 Automatic Sample Collection / Preparation Systems: Distribution by End User Industry
Table 17.35 Automatic Sample Collection / Preparation Systems: Distribution by Scalability
Table 17.36 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Year of Establishment
Table 17.37 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Company Size
Table 17.38 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Region of Headquarters
Table 17.39 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Company Size and Region of Headquarters
Table 17.40 Automatic Sample Collection / Preparation System Manufacturers: Distribution by Location of Headquarters
Table 17.41 Leading Players: Distribution by Number of Automatic Sample Collection / Preparation Systems Manufactured
Table 17.42 Patent Analysis: Distribution by Type of Patent
Table 17.43 Patent Analysis: Cumulative Distribution by Publication Year, 2016-2022 (till March)
Table 17.44 Patent Analysis: Distribution by Annual Number of Granted Patents and Patent Applications, 2016-2022 (till March)
Table 17.45 Patent Analysis: Distribution by Geographical Location
Table 17.46 Patent Analysis: Cumulative Year-wise Distribution by Type of Organization, 2016-2022 (till March)
Table 17.47 Leading Industry Players: Distribution by Number of Patents
Table 17.48 Leading Non-Industry Players: Distribution by Number of Patents
Table 17.49 Leading Individual Assignees: Distribution by Number of Patents
Table 17.50 Patent Analysis: Year-wise Distribution of Patents by Age, 2006-2021
Table 17.51 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA: Patent Valuation Analysis
Table 17.52 Partnerships and Collaborations: Cumulative Year-wise Trend, Pre-2017-2022 (till April)
Table 17.53 Partnerships and Collaborations: Distribution by Type of Partnership
Table 17.54 Partnerships and Collaborations: Distribution by Year and Type of Partnership, Pre-2017-2022 (till April)
Table 17.55 Partnerships and Collaborations: Distribution by Type of Product
Table 17.56 Most Active Players: Distribution by Number of Partnerships
Table 17.57 Partnerships and Collaborations: Regional Distribution
Table 17.58 Partnerships and Collaborations: Intercontinental and Intracontinental Agreements
Table 17.59 Global Events: Cumulative Year-wise Trend, 2016-H1 2022
Table 17.60 Global Events: Distribution by Event Platform
Table 17.61 Global Events: Distribution by Type of Event
Table 17.62 Global Events: Regional Distribution of Events
Table 17.63 Most Active Industry Participants: Distribution by Number of Events
Table 17.64 Global Events: Distribution by Seniority Level of Event Speakers
Table 17.65 Global Events: Distribution by Affiliated Department of Event Speakers
Table 17.66 Global Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.67 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Type of Monitoring Method
Table 17.68 Automatic Sampling Market for On-line Monitoring, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.69 Automatic Sampling Market for Off-line Monitoring, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.70 Automatic Sampling Market for At-line Monitoring, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.71 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Type of Bioprocessing Method
Table 17.72 Automatic Sampling Market for Upstream Bioprocessing, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.73 Automatic Sampling Market for Downstream Bioprocessing, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.74 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Working Volume
Table 17.75 Automatic Sampling Market for Systems with less than 10 mL Working Volume, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.76 Automatic Sampling Market for Systems with 10-50 mL Working Volume, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.77 Automatic Sampling Market for Systems with 51-100 mL Working Volume, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.78 Automatic Sampling Market for Systems with more than 100 mL Working Volume, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.79 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Scalability
Table 17.80 Automatic Sampling Market for Lab Scale Operations, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.81 Automatic Sampling Market for Pilot Scale Operations, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.82 Automatic Sampling Market for Commercial Scale Operations, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.83 Automatic Sampling in Biopharmaceutical Applications and the Measurement of CQA Market, 2022 and 2035: Distribution by Key Geographical Regions
Table 17.84 Automatic Sampling Market in North America, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.85 Automatic Sampling Market in Europe, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
Table 17.86 Automatic Sampling Market in Asia-Pacific and Rest of the World, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • AbbVie
  • Agilent Technologies
  • Alfa Wassermann Separation Technologies (AWST)
  • ALIT Life Science
  • Amigo Chem
  • AstraZeneca
  • Automation Trainer
  • Axel Semrau (acquired by Trajan Scientific and Medical)
  • Azenta Life Sciences (formerly known as Brooks Life Sciences)
  • bbi-biotech
  • Beckman Coulter
  • Becton Dickinson
  • Biofors
  • Biomatics Technology
  • Biometrics Technologies
  • Biotage
  • Bristol Myers Squibb
  • Broadley-James
  • Brooks Automation
  • Buchiglas
  • Cedars-Sinai Medical Center
  • Chugai Pharmaceutical
  • Columbia University
  • COPAN Diagnostics
  • Cornell University
  • Cytiva
  • Danyel Biotech
  • Dinnissen Process Technology
  • Dionex (acquired by Thermo Fisher Scientific)
  • Distek
  • Electrolab Biotech
  • Elemental Scientific
  • ERWEKA
  • Flownamics
  • French National Centre for Scientific Research (CNRS)
  • GEMÜ
  • General Electric
  • Genomic Health
  • GlaxoSmithKline
  • Groton Biosystems
  • H.E.L
  • HECHT Technologie
  • HiTec Zang
  • Italprotec (acquired by Indutrade)
  • Jasper Engineering & Equipment
  • Jing Liang Bioengineering and Technology
  • Kobe University
  • Labmate Asia
  • LAMBDA Laboratory Instruments
  • Life Technologies (acquired by Thermo Fisher Scientific)
  • Lonza
  • Massachusetts Institute of Technology (MIT)
  • Meter Engineers
  • Mettler Toledo
  • MGI Tech
  • MilliporeSigma
  • Miltenyi Biotec
  • New England Biolabs
  • Nova Biomedical
  • Omnilab (acquired by Abbott)
  • Optimal Biotech
  • Pall Corporation (acquired by Danaher)
  • Pall-Austar Lifesciences (acquired by Pall Corporation)
  • Parr Instrument
  • Particle Measuring Systems (acquired by Spectris)
  • PixCell Medical (acquired by Soulbrain)
  • Purdue Research Foundation
  • QIAGEN
  • Roche
  • Rolf Schütt
  • Sampling Systems
  • Sartorius Stedim Biotech
  • Schematic Engineering Industries
  • Scientific Solutions
  • Securecell
  • Sentinel Monitoring Systems (acquired by SUEZ)
  • Shimadzu
  • Siemens
  • Snapdragon Chemistry (acquired by Asymchem)
  • SOTAX
  • Spark Holland
  • Swissfluid
  • Syrris (acquired by Asahi Glassplant)
  • SYSTAG
  • T&J Bioengineering
  • TAP Biosystems (acquired by Sartorius Stedim Biotech)
  • Top Industrie
  • Virtual Control
  • Woods Hole Oceanographic Institution (WHOI)
  • Xylem

Methodology

 

 

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