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Global Laboratory Automation (Instruments, Reagents, And Consumables) Market - Forecasts from 2019 to 2024

  • ID: 4756703
  • Report
  • Region: Global
  • 112 pages
  • Knowledge Sourcing Intelligence LLP
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  • Cerner Corporation
  • F. Hoffmann- La Roche AG
  • HighRes Biosolutions®
  • Horiba, Ltd.
  • Hudson Robotics
  • MORE
The global laboratory automation market is projected to grow at a CAGR of 5.87% to reach US$18.191 billion by 2024, from US$12.922 billion in 2018. Growing awareness regarding the advantages of laboratory automation coupled with technological advancement being made in the field is some of the major factors driving the demand for these automation solutions. In addition, growing funds by government and private funding to make advancement in the field of biotechnology and drug discovery will further boost the demand for these solutions. However, the slow adoption of this equipment in among SMEs will hinder the growing demand for these automation solutions. Developing regions such as the Asia Pacific and South America presents a novel business opportunity for this market over the forecast period.

This research study examines the current market trends related to the demand, supply, and sales, in addition to the recent developments. Major drivers, restraints, and opportunities have been covered to provide an exhaustive picture of the market. The analysis presents in-depth information regarding the development, trends, and industry policies and regulations implemented in each of the geographical regions. Further, the overall regulatory framework of the market has been exhaustively covered to offer stakeholders a better understanding of the key factors affecting the overall market environment.

Identification of key industry players in the industry and their revenue contribution to the overall business or relevant segment aligned to the study have been covered as a part of competitive intelligence done through extensive secondary research. Various studies and data published by industry associations, analyst reports, investor presentations, press releases and journals among others have been taken into consideration while conducting the secondary research. Both bottom-up and top down approaches have been utilized to determine the market size of the overall market and key segments. The values obtained are correlated with the primary inputs of the key stakeholders in the global laboratory automation value chain. The last step involves complete market engineering which includes analyzing the data from different sources and existing proprietary datasets while using various data triangulation methods for market breakdown and forecasting.

Market intelligence is presented in the form of analysis, charts, and graphics to help the clients in gaining a faster and efficient understanding of the global laboratory automation market.

Major industry players profiled as part of the report are Synchron Laboratory automation, Hudson Robotics, F. Hoffmann- La Roche AG, Scienion AG, Tecan Trading AG, Thermo Fisher Scientific, and COPAN ITALIA spa among others.


The global laboratory automation market has been analyzed through the following segments:
By Component
Reagents and Consumables

By Application
Molecular Diagnostics
Clinical Chemistry

By End User
Research and Academic Institutes
Biotechnology and Pharmaceutical Companies
Hospitals and Diagnostic Laboratories

By Geography
North America

South America

United Kingdom

Middle East and Africa
Saudi Arabia

Asia Pacific
South Korea
Note: Product cover images may vary from those shown
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  • Cerner Corporation
  • F. Hoffmann- La Roche AG
  • HighRes Biosolutions®
  • Horiba, Ltd.
  • Hudson Robotics
  • MORE
1. Introduction
1.1. Market Overview
1.2. Market Definition
1.3. Scope of the Study
1.4. Currency
1.5. Assumptions
1.6. Base and Forecast Years Timeline

2. Research Methodology
2.1. Research Design
2.2. Secondary Sources

3. Executive Summary

4. Market Dynamics
4.1. Market Segmentation
4.2. Market Drivers
4.3. Market Restraints
4.4. Market Opportunities
4.5. Porter's Five Force Analysis
4.5.1. Bargaining Power of Suppliers
4.5.2. Bargaining Power of Buyers
4.5.3. Threat of New Entrants
4.5.4. Threat of Substitutes
4.5.5. Competitive Rivalry In the Industry
4.6. Life Cycle Analysis - Regional Snapshot
4.7. Market Attractiveness

5. Global Laboratory Automation Market by Component
5.1. Instruments
5.1.1. Hardware
5.1.2. Software
5.2. Reagents and Consumables
5.3. Services

6. Global Laboratory Automation Market by Application
6.1. Immunodiagnostics
6.2. Molecular Diagnostics
6.3. Clinical Chemistry
6.4. Hematology
6.5. Others

7. Global Laboratory Automation Market by End User
7.1. Research and Academic Institutions
7.2. Biotechnology and Pharmaceutical Companies
7.3. Hospitals and Diagnostic Laboratories

8. Global Laboratory Automation Market by Geography
8.1. North America
8.1.1. USA
8.1.2. Canada
8.1.3. Mexico
8.1.4. Others
8.2. South America
8.2.1. Brazil
8.2.2. Argentina
8.2.3. Others
8.3. Europe
8.3.1. Germany
8.3.2. France
8.3.3. United Kingdom
8.3.4. Spain
8.3.5. Others
8.4. Middle East and Africa
8.4.1. Saudi Arabia
8.4.2. Israel
8.4.3. Others
8.5. Asia Pacific
8.5.1. China
8.5.2. Japan
8.5.3. South Korea
8.5.4. India
8.5.5. Others

9. Competitive Intelligence
9.1. Market Share of Key Players
9.2. Recent Investment and Deals
9.3. Strategies of Key Players

10. Company Profiles
10.1. Synchron Laboratory Automation
10.2. Hudson Robotics
10.3. F. Hoffmann- La Roche Ag
10.4. Scienion Ag
10.5. Tecan Trading Ag
10.6. Thermo Fisher Scientific
10.7. Copan Italia Spa
10.8. Horiba, Ltd.
10.9. Cerner Corporation
10.10. Highres Biosolutions®

List of Figures
List of Tables
Note: Product cover images may vary from those shown
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  • Synchron Laboratory automation
  • Hudson Robotics
  • F. Hoffmann- La Roche AG
  • Scienion AG
  • Tecan Trading AG
  • Thermo Fisher Scientific
  • Horiba, Ltd.
  • Cerner Corporation
  • HighRes Biosolutions®
Note: Product cover images may vary from those shown
5 of 4

The research study is based on the publisher's proprietary research model. The process involves sourcing of information from various industry experts, key professionals, decision-makers and various other stakeholders along with the validation of the responses received from the vast in-house database and premium paid databases. Publicly available sources were also taken into consideration for the final market estimates and forecast for the segments and sub-segments.

The first phase of the research process is the identification of key industry leaders, experts, decision-makers and C-level executives and then conducting interviews and surveys to gain vital insights about the market. Simultaneously, extensive secondary research is done, and key secondary data is collected as part of this process. This secondary data is collected from various databases, industry journals, whitepapers, company annual reports, research publications, and other paid data sources and relevant literature. Company profiles which include strategies, new product developments, recent investments, major products and services, financials and business plans are sourced from the annual reports, SEC filings, industry associations to preserve the quality of the information being displayed. The findings from both the primary and the secondary research process combined go under further processing for market breakdown and forecasting.

The last phase is providing intelligence in the form of presentation, charts, graphics and other different formats helping the clients in a faster and efficient understanding of the market. Under this phase complete market engineering is involved which includes analyzing the collected data from different sources and existing proprietary datasets while using various data triangulation methods for market breakdown and forecasting. The publisher has developed their market forecasting methodology that, in addition to the main market values, also takes into account other macroeconomic factors (global or local) that might have some bearing on the market under study. Taking all the necessary data, a robust forecast is developed using an algorithm that involves both static (multivariate) as well as dynamic (time-series) regression analysis. Special care is taken to make sure their algorithm passes the necessary statistical tests, and the mean prediction for future years obtained is reliable with a very high confidence level. Following data validation, the analysts begin to write the report presenting insights with the help of charts, graphs, and tables.