Reportlinker Adds Process Analytical Technologies for Pharmaceuticals: Global Markets
NEW YORK, March 24, 2011 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:
Process Analytical Technologies for Pharmaceuticals: Global Markets
The global market for process analytical technology (PAT) instrumentation was valued at nearly $195 million in 2010. This market is expected to increase by a 7.4% compound annual growth rate (CAGR) to reach an estimated $279 million in 2015.
The North American region represents the largest market for PAT instrumentation. It was valued at $86 million in 2010 and is expected to increase at a 6% CAGR to reach nearly $116 million in 2015.
Asia will experience the highest CAGR of 10.2% over the 5-year forecast period. This market was valued at $31 million in 2010 and is expected to reach $50 million by 2015.
INTRODUCTION
STUDY GOALS AND OBJECTIVES
The key objective of this report is to provide a comprehensive analysis of the global process analytical technology (PAT) market with respect to tools, services, and applications. The report analyzes the market from both the qualitative and quantitative perspectives. Qualitative analysis, which covers such aspects as drivers, restraints, and opportunities, provides insight into market forecasts of the PAT submarkets. Also covered are the regulatory scenarios that are expected to boost or constrain the market's potential. The report tracks recent developments of the key companies and strategies that may lead to a better understanding of the market from a practical perspective. Patents are also provided to present novel technologies focused on by the research and development (R&D) departments of key companies in the PAT market.
REASONS FOR DOING THE STUDY
The trends in PAT end-user companies and the growing importance of delivering quality products and services is making PAT an extremely vital concept. In the case of the healthcare industry, cost constraints have always been an issue due to the escalating costs involved in R&D and clinical trials. Quality, however, cannot be compromised. Therefore, healthcare companies look forward to such novel technologies that enable them to enhance quality at reduced cost. The market scenario is extremely complex due to changing regulatory standards and competition. This report intends to provide deep insight into these dynamic scenarios, as well as estimates of PAT technologies and relevant qualitative analysis.
INTENDED AUDIENCE
Audiences for this study include key decision makers such as business heads, senior managers, R&D heads of PAT instrument manufacturers, suppliers, technology experts, and service provides. This information is also important to consulting firms so they can understand the adoption trends of PAT instruments and market dynamics. The healthcare industry may also employ the utilities and application areas of the PAT technologies that will enable them to enhance quality and reduce cost.
INFORMATION SOURCES
This report draws insight from both primary and secondary research. The primary research includes telephone interviews with key personnel connected with PAT manufacturers, suppliers, technology experts, and service providers. The research also included interviews with the key global leaders involved with PAT technologies. The secondary research involved paid sources such as Factiva, as well as other sources such as company websites, freepatents.com, and Google Search.
AUTHOR'S CREDENTIALS
Varsha Bhat has more than 5 years experience in market intelligence, business research, strategic consulting, and analytics. She has immense experience in the healthcare domain with respect to pharmaceuticals, pharma chemicals and technologies, and the life sciences market. She has been constantly tracking, authoring, and interacting with top market participants in these domains and has conducted high-level briefings. She has been continuously delivering research services that contain high-level analysis, strategic recommendation, and top business strategies to enhance the market shares of industry players. She also has extensive experience in leading and training a global research and analytics team. She has considerable access to market research models that involve economic analysis, strengths, weakness, opportunities and threats (SWOT) and TOWS matrices, pricing analysis, and segmentation, targeting and positioning (STP) techniques. She holds a B.Sc. in biotechnology and an MBA in marketing.
REPORT DESCRIPTION
Pharmaceutical processes are complex in nature due to regulatory impositions, cost constraints, and the importance of drug quality. Quality and efficacy of drugs are critical attributes that cannot be compromised. PAT is a concept that aims at designing and controlling the pharmaceutical process, which will effectively lead to companies enhancing and sustaining the quality of their output. PAT is a rapidly growing concept that enables pharmaceutical companies to effectively overcome the previously stated challenges. Implementation of PAT has been proven to condense the production life cycle, reduce batch failures, and increase process efficiency, therefore enhancing pharmaceutical companies' business operations. The increasing adoption levels have escalated the demand for PAT-related tools and technologies, thus widening opportunities in these segments. Therefore, this report aims at providing key market trends, as well as market sizes and forecasts for PAT instruments (i.e., tools), services, and related application segments. This report will also provide strategic analysis on key industry participants and respective strategies.
MARKETS COVERED
The PAT market is basically segmented as instrumentation and tools, services, and applications. This will enable the reader to intensely comprehend the technicalities, drivers, hindrances, opportunities, market estimates, related developments, and innovations involved in each of these markets. The PAT instrumentation is further segmented as
Chromatographic methods: HPLC, GC, TLC, GC/MS
Spectrophotometric methods: UV-VIS, IR, NIR, AA, NMR, XRD, MS
Capillary electrophoresis methods: Zone, isoelectric focusing, Isotachophoresis
Particle sizer analysis methods: Laser, microscopic, photozone, sieving, SEC
Dissolution methods: HPLC, UV, automated
Automated analytical methods: Robots, automated analysis
Titration tools
The PAT services market is segmented as data management and software maintenance, consulting and implementation services, engineering solutions, calibration services, and others.
Process application: Raw material ID, blending, drying, extrusion, compression, coating, packaging, fermentation, bioreaction, crystallization, lyophilization, solvent recovers, others
Measurement capabilities: API concentration, content uniformity, material ID confirmation, coating thickness, biomass measurement, impurity concentration, out gas monitoring, purity, lubricant uniformity, moisture, coating coverage, nutrient concentration, optical density
Other key applications
Such macro- to micro-level approaches enhance the breadth of analysis and accuracy of the market estimates. This report covers all these markets at the global level segmented as the Americas (i.e., North America and Latin America), Europe, Asia, and Rest of the World (ROW), which includes the Middle East and other countries. The report also profiles key companies with respect to their overall backgrounds, product and service portfolios, recent developments, key strategies, and other relevant analyses.
RESEARCH METHODOLOGY
Market information was obtained through secondary research from articles, annual reports, and messages from the chairpersons of leading companies. The study also included intensive primary research within the top players in the market. Product-wise, penetration was obtained through primary and secondary research, and the same was applied per geography. A top-down approach was taken to determine the market for all sub-markets in each of the geographic segments. The forecast was calculated using the trends, latest developments, and future strategies of leading players. All of these factors were applied in each of geographic segment to determine the base estimates and forecast for each market.
Chapter- 1: INTRODUCTION
STUDY GOALS AND OBJECTIVES 1
REASONS FOR DOING THE STUDY 1
INTENDED AUDIENCE 1
INFORMATION SOURCES 2
AUTHOR'S CREDENTIALS 2
REPORT DESCRIPTION 2
MARKETS COVERED 3
RESEARCH METHODOLOGY 3
RELATED BCC REPORTS 4
BCC ONLINE SERVICES 4
DISCLAIMER 4
Chapter-2: SUMMARY
TABLE 1 GLOBAL PAT INSTRUMENTATION MARKET BY PRODUCT, THROUGH 2015 ($ THOUSANDS) 5
TABLE 2 GLOBAL PAT INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 5
SUMMARY FIGURE GLOBAL PAT INSTRUMENTATION MARKET BY GEOGRAPHY, 2008-2015 ($ THOUSANDS) 6
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 6
IMPROVED QUALITY OF PRODUCTS 6
HIGH IMPLEMENTATION COST 7
FDA SUPPORT FOR PAT IMPLEMENTATION 7
TECHNOLOGICAL TRENDS 7
Chapter-3: MARKET OVERVIEW AND DEFINITION
FIGURE 1 GLOBAL PAT MARKET SEGMENTATION 9
PAT TOOLS: 9
FIGURE 2 PAT TOOLS 10
FIGURE 3 PAT TOOLS AND APPLICATIONS 11
PAT MARKET SEGMENT SHARE 11
FIGURE 4 PAT MARKET SEGMENT SHARE (%) 12
INFLUENCING FACTORS 12
FIGURE 5 DRIVING FACTORS OF PAT MARKET GROWTH 13
BUSINESS PROCESS 13
FIGURE 6 PAT BUSINESS PROCESS 14
DRIVING FACTOR MODEL 14
OPPORTUNITIES 15
CASE STUDIES 16
Genzyme's Troubles with Cerezyme Production 17
RESTRAINTS 18
DEMAND SIDE DRIVERS 18
SUPPLY SIDE DRIVERS 19
KEY COMPETITIVE POINTS 19
FIGURE 7 DRIVING FORCES ANALYSIS OF PAT MARKET 20
MARKET STRATEGY 20
FIGURE 8 ANALYSIS OF THE PAT STRATEGIES MARKET 21
GLOBAL PATENT SHARE 21
FIGURE 9 GLOBAL PAT PATENT SHARE, JANUARY 2007SEPTEMBER 2010 (%) 22
YEAR–BY-YEAR PATENT ANALYSIS 22
FIGURE 10 YEAR–BY-YEAR PATENT ANALYSIS, JANUARY 2007SEPTEMBER 2010 (NUMBER OF PATENTS) 23
PATENT ANALYSIS BY ASSIGNEE 23
FIGURE 11 PATENT SHARES BY ASSIGNEES, JANUARY 2007SEPTEMBER 2010 (%) 24
Chapter-4: PAT INSTRUMENTATION MARKET
CHROMATOGRAPHIC METHODS 25
TABLE 3 GLOBAL CHROMATOGRAPHIC METHOD INSTRUMENTATION MARKET BY PRODUCT, THROUGH 2015 ($ THOUSANDS) 25
TABLE 4 GLOBAL CHROMATOGRAPHIC METHOD INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 26
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 26
Reliable and its Use in Protein Separation 26
Sensitivity 26
Growing Asian Market 27
TECHNOLOGICAL TRENDS 27
HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY 27
TABLE 5 GLOBAL HPLC INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 28
Drivers, Restraints, and Opportunities 28
Quicker Process and Better Separation 28
Expensive Technology and Complexity 28
Wide Application and its Use in Different Sectors 29
Technological Trends 29
GAS CHROMATOGRAPHY 29
TABLE 6 GLOBAL GAS CHROMATOGRAPHY INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 30
Drivers, Restraints, and Opportunities 30
Accurate and Inexpensive Method 30
Limited to Volatile and Thermally Stable Compounds 30
Efficiency in Volatile Mixture Separation 31
Technological Trends 31
THIN-LAYER CHROMATOGRAPHY 31
TABLE 7 GLOBAL THIN-LAYER CHROMATOGRAPHY INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 32
Drivers, Restraints, and Opportunities 32
Simultaneous Analysis of Multiple Samples 32
Open System 32
Clinical Application 33
Technological Trends 33
GAS CHROMATOGRAPHY MASS SPECTROMETRY 33
TABLE 8 GLOBAL GAS CHROMATOGRAPHY MASS SPECTROMETRY INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 34
Drivers, Restraints, and Opportunities 34
Quantitative and Qualitative Results 34
Failure of One Tool's Impact on the Result 34
GC/MS's Role in R&D 35
Technological Trends 35
SPECTROPHOTOMETRIC METHODS 35
TABLE 9 GLOBAL SPECTROPHOTOMETRIC METHODS INSTRUMENTATION MARKET BY PRODUCT, THROUGH 2015 ($ THOUSANDS) 36
TABLE 10 GLOBAL SPECTROPHOTOMETRIC METHODS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 36
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 37
Simple and Inexpensive Technology 37
Impurities 37
Analyzing Ability 37
TECHNOLOGICAL TRENDS 38
UV-VIS 38
TABLE 11 GLOBAL UV-VIS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 38
Drivers, Restraints, and Opportunities 39
Speed and Accuracy 39
Disturbing Factors 39
Growing Textile Industry and the Asian Market 39
Technological Trends 40
INFRARED (IR) SPECTROPHOTOMETER 40
TABLE 12 GLOBAL IR SPECTROPHOTOMETER INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 40
Drivers, Restraints, and Opportunities 40
Application Driven 40
Limited to Dipole Moment 41
Technological Advancements 41
Technological Trends 41
NEAR-INFRARED SPECTROPHOTOMETER 41
TABLE 13 GLOBAL NEAR-INFRARED SPECTROPHOTOMETER INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 42
Drivers, Restraints, and Opportunities 42
Eco-Friendly Technology 42
Sensitivity 43
Medical and Recycling Application 43
Technological Trends 43
ATOMIC ABSORPTION SPECTROPHOTOMETER 43
TABLE 14 GLOBAL ATOMIC ABSORPTION SPECTROPHOTOMETER INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 44
Drivers, Restraints, and Opportunities 44
Metal Ion Determination 44
Time Consuming 45
Technological Innovations 45
Technological Trends 45
NUCLEAR MAGNETIC RESONANCE 45
TABLE 15 GLOBAL NMR SPECTROPHOTOMETER INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 46
Drivers, Restraints, and Opportunities 46
Information Provision 46
High Sensitivity 46
Protein Analysis and Nucleic Acid Analysis 47
Technological Trends 47
X-RAY DIFFRACTION 47
TABLE 16 GLOBAL X-RAY DIFFRACTION GAS CHROMATOGRAPHY MASS SPECTROMETRY MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 48
Drivers, Restraints, and Opportunities 48
Efficiency 48
Crystal Purity 48
Wide Use in Many Applications 48
Technological Trends 49
MASS SPECTOMETRY (MS) 49
TABLE 17 GLOBAL MS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 50
Drivers, Restraints, and Opportunities 50
High Sensitivity and Accuracy 50
Slow Process 50
Coupled MS and Tandem MS 51
Technological Trends 51
CAPILLARY ELECTROPHORESIS METHODS 51
TABLE 18 GLOBAL CAPILLARY ELECTROPHORESIS METHODS INSTRUMENTATION MARKET BY PRODUCT, THROUGH 2015 ($ THOUSANDS) 52
TABLE 19 GLOBAL CAPILLARY ELECTROPHORESIS METHODS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 52
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 52
High Separation Efficiency 52
Limited to Dissolving Compounds 53
Importance of Chiral Compounds in Pharmaceutical Sector 53
TECHNOLOGICAL TRENDS 53
ISOELECTRIC FOCUSING 53
TABLE 20 GLOBAL ISOELECTRIC FOCUSING INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 54
Drivers, Restraints, and Opportunities 54
Determining Isoelectric Point 54
Inconsistent Coating Efficiency 54
Protein Determination and Material Science 55
Technological Trends 55
ISOTACHOPHORESIS 55
TABLE 21 GLOBAL ISOTACHOPHORESIS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 56
Sharp Boundaries 56
Need for High Purity 56
Eco-Friendly 56
Technological Trends 57
PARTICLE SIZER ANALYSIS METHODS 57
TABLE 22 GLOBAL PARTICLE SIZER ANALYSIS METHODS INSTRUMENTATION MARKET BY PRODUCT, THROUGH 2015 ($ THOUSANDS) 57
TABLE 23 GLOBAL PARTICLE SIZER ANALYSIS METHODS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 58
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 58
Ease of Use 58
Limited to Specific Particles 58
Wide Application 58
TECHNOLOGICAL TRENDS 59
LASER DIFFRACTION METHOD 59
TABLE 24 GLOBAL LASER DIFFRACTION INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 60
Drivers, Restraints, and Opportunities 60
Flexibility 60
Expense 60
Wide Application 60
Technological Trends 61
MICROSCOPIC 61
TABLE 25 GLOBAL MICROSCOPIC INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 62
Drivers, Restraints, and Opportunities 62
Shape Analysis 62
Sample Preparation 62
3D Particle Images 62
Technological Trends: 63
PHOTOZONE 63
TABLE 26 GLOBAL PHOTOZONE INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 63
Drivers, Restraints, and Opportunity 64
Measuring Variety of Particles 64
Diffraction Effects 64
Emulsion's Application in Vaccine Production 64
Technological Trends 64
SIEVING 65
TABLE 27 GLOBAL SIEVING INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 65
Drivers, Restraints, and Opportunities 65
Simple and Inexpensive 65
Sieve Performance 65
Technological Trends 66
SIZE-EXCLUSION CHROMATOGRAPHY 66
TABLE 28 GLOBAL SIZE-EXCLUSION CHROMATOGRAPHY INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 67
Drivers, Restraints, and Opportunities 67
Good Separation and the Ability to be Coupled 67
Difficult Data Acquisition 67
Polymer Synthesis 67
Technological Trends 68
DISSOLUTION METHODS 68
TABLE 29 GLOBAL DISSOLUTION METHODS INSTRUMENTATION MARKET BY PRODUCTS, THROUGH 2015 ($ THOUSANDS) 69
TABLE 30 GLOBAL DISSOLUTION METHODS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 69
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 69
Risk Free and Inexpensive 69
Careful Selection of Apparatus 70
Increase in Awareness 70
TECHNOLOGICAL TRENDS 70
HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY 70
TABLE 31 GLOBAL HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 71
Drivers, Restraints, and Opportunities 71
Efficiency 71
Expense 71
Risk Free 71
Technological Trends 72
UV 72
TABLE 32 GLOBAL UV SPECTROPHOTOMETER INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 73
Drivers, Restraints, and Opportunities 73
Inexpensive and Accurate 73
Influence of External Factors 73
High Demand 73
Technological Trends 74
AUTOMATED 74
TABLE 33 GLOBAL AUTOMATED INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 74
Drivers, Restraints, and Opportunities 75
Time-Saving Technique 75
Expense 75
Technological Advancements 75
Technological Trends 75
AUTOMATED ANALYTICAL METHODS 76
TABLE 34 GLOBAL AUTOMATED ANALYTICAL METHODS INSTRUMENTATION MARKET BY PRODUCT, THROUGH 2015 ($ THOUSANDS) 76
TABLE 35 GLOBAL AUTOMATED ANALYTICAL METHODS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 76
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 77
Reduction in Human Labor Cost 77
Unbalanced Employee Morale 77
High Availability of Technology 77
ROBOTS 77
TABLE 36 GLOBAL ROBOTS INSTRUMENTATION MARKET BY GEOGRAPHY, 2008–2015 ($ THOUSANDS) 78
Drivers, Restraints, and Opportunities 78
Compliance 78
Extremely Repetitive 78
Installation into Existing Processes 78
Key for Drug Manufacturers 79
Technological Trend 79
AUTOMATED ANALYSIS 79
TABLE 37 GLOBAL AUTOMATED ANALYSIS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 79
Drivers, Restraints, and Opportunities 80
Efficient Action 80
Automated Analyzers Subjectivity to System Errors 80
Need for Automation 80
Technological Trends 80
OTHERS 80
Automated Sample Preparation and Analysis 80
TABLE 38 GLOBAL OTHERS AUTOMATED ANALYTICAL METHODS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 81
Drivers, Restraints, and Opportunities 81
Analytical Labor Reduction 81
Productivity Assistance 81
High Maintenance 81
Benefit to Drug Manufacturing Industry 82
Technological Trend 82
TITRATION TOOLS 82
TABLE 39 GLOBAL TITRATION TOOLS INSTRUMENTATION MARKET BY GEOGRAPHY, THROUGH 2015 ($ THOUSANDS) 82
Drivers, Restraints, and Opportunities 83
Simple and Inexpensive 83
Calibration Requirement 83
Application in Petrochemical and Food Industry 83
Technological Trends 83
Chapter-5: PROCESS ANALYTICAL TECHNOLOGY SERVICES MARKET
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 84
EASE IN MONITORING AND CONTROL 84
IN-HOUSE ANALYZERS WITH LIMITED EXPERIENCE 84
SERVICE-ORIENTED ARCHITECTURE 84
WIDE NETWORK OF SERVICE ACCESS 84
MARKET SEGMENTATION 85
DATA MANAGEMENT AND SOFTWARE MAINTENANCE 85
Drivers 85
Secured Distributed Database 85
Support of Multivariate Statistical Tool 85
Restraints 85
Identification of Reliable and Relevant Data 85
Identification of Errors in Software 86
Opportunities 86
Interrelation of Data with Process 86
Provision of Object-Oriented Information 86
Technological Trends 86
Symbion-DX and RX 86
Unscrambled Predictor and Unscrambled Classifier with SIPAT 86
CONSULTING AND IMPLEMENTATION SERVICES 87
ENGINEERING SOLUTIONS 87
Technological Trend 87
CALIBRATION SERVICES 88
Technological Trends 88
REAL-TIME RELEASE 88
Technological Trend 89
Chapter-6: PAT APPLICATION MARKET
DRIVERS, RESTRAINTS, AND OPPORTUNITIES 90
COMPLETE CONTROL OVER THE PROCESS 90
LOW AWARENESS 90
HIGH COST 90
TECHNOLOGICAL ADVANCEMENTS AND WIDE APPLICATION 91
PROCESS APPLICATION 91
RAW MATERIAL IDENTIFICATION 91
BLENDING 91
DRYING 92
COMPRESSION 92
COATING 93
PACKAGING 93
FERMENTATION 93
CRYSTALLIZATION 94
LYOPHILIZATION 94
SOLVENT RECOVERY 94
OTHERS 95
Downstream Process 95
MEASUREMENT CAPABILITIES 95
ACTIVE PHARMACEUTICAL INGREDIENT CONCENTRATION 95
CONTENT UNIFORMITY 96
CONFIRM MATERIAL IDENTIFICATION 96
COATING THICKNESS 96
BIOMASS MEASUREMENT 97
IMPURITY CONCENTRATION 97
OFF-GAS MONITORING 98
PURITY 98
LUBRICANT UNIFORMITY 99
MOISTURE 99
COATING COVERAGE 100
NUTRIENT CONCENTRATION 100
OPTICAL DENSITY 100
REACTION MONITORING 101
Chapter-7: COMPETITIVE LANDSCAPE
FIGURE 12 SHARES OF MAJOR DEVELOPMENTS, JANUARY 2008–SEPTEMBER 2010 (%) 102
FIGURE 12 (CONTINUED) 103
TABLE 40 NEW PRODUCT LAUNCHES 103
TABLE 40 (CONTINUED) 104
TABLE 40 (CONTINUED) 105
TABLE 40 (CONTINUED) 106
TABLE 41 RESEARCH AND DEVELOPMENT 106
TABLE 41 (CONTINUED) 107
TABLE 42 MERGERS AND ACQUISITIONS 108
TABLE 42 (CONTINUED) 109
TABLE 42 (CONTINUED) 110
TABLE 43 COLLABORATIONS AND AGREEMENTS 111
TABLE 43 (CONTINUED) 112
Chapter-8: COMPANY PROFILES
ABB LTD 113
PRIMARY BUSINESS 113
STRATEGY 113
TABLE 44 DEVELOPMENTS AT ABB 114
AGILENT TECHNOLOGIES 114
PRIMARY PRODUCTS 114
STRATEGY 114
TABLE 45 DEVELOPMENTS AT AGILENT 115
BIO-TEK INSTRUMENTS, INC. 115
PRIMARY BUSINESS 115
COMPANY STRATEGY 116
BRUKER OPTICS 116
PRIMARY PRODUCTS 116
STRATEGY 116
TABLE 46 DEVELOPMENTS AT BRUKER OPTICS 117
CARL ZEISS 117
PRIMARY PRODUCTS 117
STRATEGY 118
TABLE 47 DEVELOPMENTS AT CARL ZSEISS 118
DANAHER 118
PRIMARY PRODUCTS 119
STRATEGY 119
TABLE 48 DEVELOPMENTS AT DANAHER 119
DIONEX 119
PRIMARY PRODUCTS 120
STRATEGY 120
TABLE 49 DEVELOPMENTS AT DIONEX 120
EMERSON PROCESS 121
PRIMARY PRODUCTS 121
STRATEGY 121
FOSS 122
PRIMARY PRODUCTS 122
STRATEGY 122
TABLE 50 DEVELOPMENTS AT FOSS 123
HAMILTON SUNDSTRAND 123
PRIMARY PRODUCTS 123
STRATEGY 123
HONEYWELL 124
PRIMARY PRODUCTS 124
STRATEGY 124
JEOL, LTD. 125
PRIMARY BUSINESS 125
COMPANY STRATEGY 125
KAISER OPTICAL SYSTEMS 125
PRIMARY BUSINESS 126
COMPANY STRATEGY 126
TABLE 51 DEVELOPMENTS 126
MALVERN INSTRUMENTS, LTD. 127
PRIMARY BUSINESS 127
COMPANY STRATEGY 127
METTLER-TOLEDO INTERNATIONAL, INC. 127
PRIMARY BUSINESS 128
COMPANY STRATEGY 128
TABLE 52 DEVELOPMENTS AT METTLER-TOLEDO 128
PERKIN ELMER 128
PRIMARY PRODUCTS 129
STRATEGY 129
SHIMADZU 129
PRIMARY BUSINESS 130
COMPANY STRATEGY 130
SOTAX AG 130
PRIMARY BUSINESS 130
COMPANY STRATEGY 130
THERMO FISHER SCIENTIFIC, INC. 131
PRIMARY BUSINESS 131
COMPANY STRATEGY 131
TABLE 53 DEVELOPMENTS AT THERMO FISHER 132
YSI, INC. 132
PRIMARY BUSINESS 133
COMPANY STRATEGY 133
Chapter-9: APPENDIX
APPENDIX 134
TABLE 54 U.S. PATENTS 2007 TO OCTOBER 2010 134
TABLE 54 (CONTINUED) 135
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