The rapid rise in the number of clinical and pre-clinical studies across the world has made the need for speed in an analysis of samples imperative. The machines have to work 24 hours, day in and day out. This has made automation very important in the bio-analytical laboratory. It involves a considerable amount of manpower to work throughout the day. Automation provides a much cheaper and viable alternative considering the fact that it reduces human error to almost none and provides sustainable long term benefits.
The emergence of robotics has transformed the typical workday for scientists around the world. With the advent of automation techniques, scientists are now able to set up, run and analyze the results of experiments in a fraction of the time they needed in the past. In today's world, pulling maximum efficiency out of every department, including the R & D labs, is a major issue.
Automation of routine laboratory procedures, by the use of dedicated work stations and software to program instruments, allows associate scientists and technicians to think creatively about the implications of their experiments and to design effective follow-up projects or develop alternative approaches to their work instead of spending their days repeating tedious tasks.
Apart from reducing mundane tasks, the market for laboratory automation is also driven by the need for consistency in quality. Because, the cost of an error is very high, in a scientific paper or developing a drug, even fairly low error rates can have a profound impact on the conclusions you make downstream.
It is believed that taking out the human element helps in achieving more consistency. Great advances have been made in the molding of plastics that has reduced the volumes of reagents used and enabled handling of smaller liquid volumes easy. These advancements have worked in favor of the development of micro and nano-litre plates to fit in with the automated liquid handling equipment.
Validation and data quality play a major role in modern life science. Legal validation, patents and clinical testing have become crucial issues. Automation enables a much higher reproducibility and better documentation of data. This allows the production of more data points with great ease. It also ensures the safety of personnel in the presence of infectious or potentially hazardous material.
North America is clearly the market leader with a total market share of 60%, followed by Europe. Asia and Latin America are emerging as there has been a considerable increase in outsourcing pharmaceutical manufacturing to these regions due to the availability of cheaper labor and resources.
Advancement in plastic molding technology
Development of smaller automated machines
Need for higher reproducibility and effective management of the vast amounts of data generated.
Initial setup is expensive
Loss of flexibility in process
Interconnecting various platforms across the lab
Market analysis for the global total lab automation market, with region-specific assessments and competition analysis on a global and regional scale.
Market definition along with the identification of key drivers and restraints.
Identification of factors instrumental in changing the market scenario, rising prospective opportunities, and identification of key companies that can influence this market on a global and regional scale.
Extensively researched competitive landscape section with profiles of major companies along with their market share.
Identification and analysis of the macro and micro factors that affect the global total lab automation market on both global and regional scale.
A comprehensive list of key market players along with the analysis of their current strategic interests and key financial information.
A wide-ranging knowledge and insights about the major players in this industry and the key strategies adopted by them to sustain and grow in the studied market.
Insights into the major countries/regions where this industry is growing and also identify the regions that are still untapped.
1.1 Research Methodology
1.1.1 Definition of the Market
1.1.2 Report Description
1.1.3 Executive Summary
2. KEY FINDINGS OF THE STUDY
3. MARKET OVERVIEW
3.1 Market Segmentation
3.3 Industry Value-Chain Analysis
3.4 Industry Attractiveness - Porter's Five Forces Analysis
4. MARKET DYNAMICS
4.2.1 Advancement in Plastic Molding Technology
4.2.2 Development of Smaller Automated Machines.
4.2.3 Need for Higher Reproducibility and Effective Management of the Vast Amounts of Data Generated
4.3.1 Initial Setup is Expensive
4.3.2 Loss of Flexibility in Process
4.3.3 Interconnecting Various Platforms Across the Lab
5. Technology Overview
5.1 Technology Snapshot
5.2 Industry Applications
6. Different Equipment in Lab Automation
6.1 Automated Liquid Handlers
6.2 Automated Plate Handlers
6.3 Robotic Arms
6.4 Automated Storage & Retrieval Systems (ASRS)
7. MARKET ANALYSIS AND FORECAST
7.1 Global Market Segmented by Equipment
7.1.1 Automated Liquid Handlers
7.1.2 Automated Plate Handlers
7.1.3 Robotic Arms
7.1.4 Automated Storage & Retrieval Systems (ASRS)
7.2 Global Software Market
7.2.1 Laboratory Information Management System (LIMS)
7.2.2 Laboratory Information System (LIS)
7.2.3 Chromatography Data System (CDS)
7.2.4 Electronic Lab Notebook (ELN)
7.2.5 Scientific Data Management System (SDMS)
7.3 Global Analyzer Market
7.3.1 Biochemistry Analyzers
7.3.2 Immuno-based Analyzers
7.3.3 Hematology Analyzers
126.96.36.199 Cell Counters
7.4 Global Plate Readers Market - Segmented by Type
7.4.4 Time-resolved Fluorescence
7.4.5 Fluorescence Polarization
7.4.6 Light Scattering
7.5 Global Lab Automation Market - Segmented by Field of Application
7.5.1 Drug Discovery
7.5.4 Protein Engineering
7.5.5 Bio analysis
7.5.6 Analytical Chemistry
7.5.7 Clinical Diagnostics
7.6 Global Market - Segmented By Region
7.6.1 North America
188.8.131.52 United Kingdom
184.108.40.206 South Korea
8. Competitive Landscape
8.1 Mergers & Acquisitions
8.2 Joint Ventures
8.3 New Product Launches
8.4 Five Biggest Companies by Revenue
8.5 Two Most Active Companies in the Past Three Years
9. Company Profiles
9.1 Thermo Scientific
9.1.2 Major Products and Services
9.1.4 Recent Developments
9.2.2 Major Products and Services
9.2.4 Recent Developments
9.3 Hudson Robotics
9.3.2 Major Products and Services
9.3.4 Recent Developments
9.4 Beckton Dickinson
9.4.2 Major Products and Services
9.4.4 Recent Developments
9.5 Synchron Lab
9.5.2 Major Products and Services
9.5.4 Recent Developments
9.6 Agilent Technologies
9.6.2 Major Products and Services
9.6.4 Recent Developments
9.7 Siemens Healthcare
9.7.2 Major Products and Services
9.7.4 Recent Developments
9.8 Tecan Group Ltd
9.8.2 Major Products and Services
9.8.4 Recent Developments
9.9.2 Major Products and Services
9.9.4 Recent Developments
9.10.2 Major Products and Services
9.10.4 Recent Developments
9.11.2 Major Products and Services
9.11.4 Recent Developments
9.12 Roche Holding Ag
9.12.2 Major Products and Services
9.12.4 Recent Developments
9.13 Eppendorf Ag
9.13.2 Major Products and Services
9.13.4 Recent Developments
9.14.2 Major Products and Services
9.14.4 Recent Developments
9.15 Aurora Biomed
9.15.2 Major Products and Services
9.15.4 Recent Developments