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 .
Automation is used in a wide variety of life science applications ranging from proteomics to systems biology . Automation is a dominant feature in the diagnostics market followed by the discovery and research labs . In clinical diagnostics , where profits are based on the number of samples , high throughput is the core driving factor . Total automation is generally preferred in such labs and manufacturing setups . Research labs and academic institutions are generally opting for modular automation , wherein they reduce the human intervention in tedious and repetitive tasks .
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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 .
This report analyzes the market across various geographies with the key trends in each region . It provides the market share and profiles of the top companies involved in lab automation . The report also provides insights on how the market will vary within the next five years .
DRIVERS : 1 . Advancement in plastic molding technology 2 . Development of smaller automated machines 3 . Need for higher reproducibility and effective management of the vast amounts of data generated
RESTRAINTS : 1 . Initial setup is expensive 2 . Loss of flexibility in process 3 . Interconnecting various platforms across the lab
Key Deliverables in the Study :
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