Use of Liquid Handling in High-throughput Screening to Drive Global Liquid Handling Market Growth Through 2028

The use of Liquid Handling Technology in Drug Screening is expected to drive Global Liquid Handling Market in the forecast period, 2024-2028.

According to TechSci Research report, “Liquid Handling Market- Global Industry Size, Share, Trends, Competition, Opportunities and Forecast, 2018-2028F”, the Global Liquid Handling Market is anticipated to grow at a steady rate in the forecast period, 2024-2028 because of the current issues in the field of liquid handling are being addressed by technological advancements, which are enabling applications in microfluidics, high-resolution analytical separations, multipurpose implementation, and other developing fields.

Early technological barriers in the field have been successfully surmounted by new liquid handling and pipetting platforms, which successfully address problems with evaporation control, challenges of liquids with diverse rheological properties, evaluation, calibration, clogging detection, and air bubble dissolution.

High throughput technologies frequently involve liquid handling systems. Typically, a robotic arm is used to dispense a predetermined amount of reagent, samples, or other liquid into a predetermined container. Dispensing a predetermined amount of liquid from a motorized pipette or syringe is the basic purpose of liquid handling system. However, the liquid handling system is also capable of performing complex tasks, including managing plates. There are numerous commercial robotic arms in the market. The quantity and dispensing volumes show how much throughput liquid handling system is capable of.

The ability of laboratories to adapt to the use of liquid handling is growing due to technological advancements in the field. Many small laboratories are also switching into using liquid handling systems inside their facilities. The autoload option, improved disposable tip technology, autonomous probe positioning, monitored air displacement, and other technological advancements broaden the application of liquid handling system by enhancing process functionality and stability. There is a significant reduction or elimination of some faults present in the existing lab automation, such as tip attachment failure and silent aspiration failure which is now helping the liquid handling system in producing more reliable analytical results as a result of increased process reliability.

Currently, reliability, displacement strategies, and integration with other automated devices are the primary concerns with liquid handling systems. The integration has received the most attention among these issues. Liquid Handling System integration entails connecting it to other relevant automated equipment for biochemical experimentation, such as a shaker, incubator, and centrifuge. The benefit of integration is that it allows the automated system to carry out experiment processes other than liquid handling, thus preventing human errors.

Liquid handling systems is an example of an automated device that typically includes software for controlling and monitoring the unit. Therefore, by integrating the connection between the liquid handling and the automated equipment, the liquid handling use can be performed and controlled by AI without any human supervision.

Browse over XX market data Figures and XX market data Tables spread through XX Pages and an in-depth TOC on "Global Liquid Handling Market.”

The Global Liquid Handling Market segmentation is based on Type, Product, Application, End User, Competitional Landscape, and Regional Distribution.

Based on the type, the market is split into Manual Liquid Handling, Automated Liquid Handling, and Semi-Automated Liquid Handling. The development of novel genetic techniques like CRISPR and Next-Generation Sequencing have increased the amount of ongoing genetic research projects, which has increased the demand for automated platforms.

There are already many automated and semi-automated workstations in the market that may be used in small to big research labs for a variety of sample handling needs. For varied workflows including PCR reactions, serial dilutions, plate replications, and plate reformatting, these workstations can be employed in a variety of liquid handling phases.

The adoption of semi-automated systems is also anticipated to be influenced by the expensive cost of fully automated systems and the growing demand for liquid handling solutions to speed up research workflow.  The increasing use of liquid handling due to its demand in repetitive steps like sampling and liquid dispending is expected to bolster the growth of semi-automated liquid handling systems.

Based on the End User, the market is divided among Pharmaceutical and Biotechnology Industry, Contract Research Organization, Academic Institutes, and Others. In the life science sector, the use of automated technologies has increased the reproducibility and quality of research projects. The building and growth of academic institutions and research facilities for genetic and stem cell studies are reportedly the main priorities for emerging economies like China and India. Furthermore, the state and federal governments provide money to these economies. Due to the sizeable number of current PCR and microarray-based research activities at universities and research institutes, large universities and research institutes are acknowledged as the important drivers for the growth of the academic & research institutes segment. Additionally, it has been seen that many biotech and pharmaceutical companies have automated their multiple operations.

The fastest growth in the Academic Institutes is anticipated as a result of the increased penetration of outsourcing of medication production processes.

Also, the increase in innovation and development taking place in the academic institutes and replacing the manual work in laboratories by liquid handling to make the students better equipped and expertise on the system are some of the various factors which is going to boost the academic institution segment as the dominant end-user in the liquid handling system.

Some of the major companies operating in the Global Liquid Handling Market include:

• Agilent Technologies
• Aurora Biomed, Inc.
• AUTOGEN, INC.
• Danaher Corporation
• BioTek Instruments, Inc.
• Analytik Jena AG  
• Corning Incorporated 
• Eppendorf AG     
• Formulatrix, Inc.   
• Gilson, Inc.

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“Sample preparation activities carried out in laboratories is frequently regarded as the bottleneck of DNA sequencing as it is time-consuming, monotonous, and repetitive. In PCR testing labs, liquid handling systems are especially crucial since they enable technicians to automate some activities and speed up the testing process with minimizing the chance of human error. Due to their simplicity of use and vast range of applications in molecular biology, biotechnology, chemistry, and other fields, manual liquid handling technologies, particularly pipettes, remain the standard in all laboratories throughout the world which has escalated the demand of liquid handling in recent years.

Liquid handling systems are widely used in the pharmaceutical and biotechnology industries. The Liquid Handling industry is particular driven by increasing investments in R&D for development of novel therapeutics primarily by the large and medium-sized businesses which will enhance the growth of Liquid Handling Market in the forecast period.” said Mr. Karan Chechi, Research Director with TechSci Research, a research based Global management consulting firm.

Liquid Handling Market- Global Industry Size, Share, Trends, Competition, Opportunities and Forecast, 2018-2028F, Segmented by Type (Manual Liquid Handling, Automated Liquid Handling, Semi-Automated Liquid Handling), Product (Automated Workstations, Pipettes, Dispensers, Burettes, Others), Application (Drug Discovery, Cancer and Genomics Research, Clinical Diagnostics, Others), End-User (Pharmaceutical and Biotechnology Industry, Contract Research Organization, Academic Institutes, and Others), By Region”, has evaluated the future growth potential of Global Teleradiology and provides statistics & information on market size, structure, and future market growth. The report intends to provide cutting-edge market intelligence and help decision makers take sound investment decisions. Besides, the report also identifies and analyzes the emerging trends along with essential drivers, challenges, and opportunities in Global Liquid Handling Market.

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