The global market for laboratory automation systems and processes should grow from $21.1 billion in 2018 to reach $29.2 billion by 2023 at a compound annual growth rate (CAGR) of 6.8% for the period of 2018-2023.
Report Scope:
Suppliers of laboratory automation will be discussed in terms of market share, product types, and region, where possible. The integration of various product types into various parts of the market will be a focus of the report, given that usage and scale of similar technologies will vary widely among different sectors of the market. Also, regulatory policy will be discussed, as decisions by the Food and Drug Administration (FDA) and other regulatory bodies can drive demand both by approving new uses of technology and by creating market opportunities for companies looking to innovate and reduce laboratory operation costs. Regulatory policies can drive the market penetration of certain products and technologies and, therefore, drive demand.
Specifically excluded from this analysis is the demand for pharmaceuticals, diagnostics, and other laboratory testing outside of the extent to which it generates demand for laboratory automation. Products used in support of laboratory automation, specifically consumables used during laboratory automation, are excluded.
Report Includes:
- 24 tables
- An overview of the global market and technologies for laboratory automation systems and processes
- Analyses of global market trends, with data from 2017, 2018, and projections of CAGRs through 2023
- Coverage of history and current state of laboratory automation, their types and potential applications
- Discussion about more specialized laboratory automation technologies, such as 3D bioprinting and organoids
- Insight into government regulations and technological issues impacting laboratory automation
- Profiles of major players in the industry, including Abbott Laboratories, Inc., Agilent Technologies, Inc., Bio-Rad, Roche and Thermo Fisher Scientific
Summary
The laboratory automation market will grow from REDACTED in 2018 to REDACTED in 2023, with a CAGR of REDACTED. Themarket will be led by the high-throughput screening sector, which will grow from about REDACTED in 2018 to about REDACTED in 2023 with a CAGR of REDACTED. This sector will grow rapidly, as fields such as academic research move towards using automated techniques that were traditionally used in fields such as pharmaceuticals. However, all sectors within this space will have strong growth as laboratory automation changes in its scope with the next generation of equipment.
Growth will be driven by novel technologies, including 3-D bioprinting and organoids, as well as by novel applications of existing technologies such as open-source automation and the evolution of total laboratory automation into new areas such as academic research and environmental laboratories.
These advances will allow laboratories to perform work in innovative ways, making them more productive and useful. The technologies will also change the structure of workforces in biological and chemical laboratories.
The only sector that will see lower growth will be the liquid handling and sample preparation sector.This sector will grow from REDACTED in 2018 to REDACTED in 2023, with a CAGR of REDACTED. The size and relative maturity of this market will slow down growth. In addition, changes in laboratory structure will create headwinds for growth opportunities, as more complex laboratories are limiting the amount of purchases of relatively simple liquid handling equipment. However, even within this sector, there are demand niches that will help drive growth within themarket.
Table of Contents
Chapter 1 Introduction
Study Goals and Objectives
Reasons for Doing this Study
Scope of Report
Information Sources
Methodology
Geographic Breakdown
Analyst's Credentials
BCC Custom Research
Related BCC Research Reports
Chapter 2 Summary and Highlights
Trends
Bigger, Stronger, Faster
Taking it to School
Three-dimensional Lab Objects
The Bazaar of Laboratory Automation
Chapter 3 Market and Technology Background
Overview: Beginnings and Current State of Laboratory Automation
Types of Laboratory Automation
Overview of Laboratories and Typical Types of Tests
Uses of Laboratory Testing
Research
Clinical Diagnostics
Scientific Product Development
Biotechnology
Pharmaceuticals
Food and Agriculture
Quality Control/Quality Assurance
Technologies
Liquid Handling
Laboratory Information Management Systems
3-D Bioprinting and Organoids
Uses
Open-source Automation
Chapter 4 Market Breakdown by Equipment
Research Laboratory Automation
Clinical Laboratory Automation
Biotechnology Laboratory Automation
Pharmaceutical Laboratory Automation
Food and Agriculture Laboratory Automation
Environmental Laboratory Automation
Industrial Quality Control Laboratory Automation
Research Laboratory Automation Equipment
Clinical Laboratory Automation Equipment
Biotechnology Laboratory Automation Equipment
Pharmaceutical Laboratory Automation Equipment
Food and Agriculture Laboratory Automation Equipment
Environmental Laboratory Automation Equipment
Industrial Quality Control Laboratory Automation Equipment
Chapter 5 Market Breakdown by Consumables
Laboratory Automation Consumables
Research Laboratory Automation Consumables
Clinical Laboratory Automation Consumables
Biotechnology Laboratory Automation Consumables
Pharmaceutical Laboratory Automation Consumables
Food and Agriculture Laboratory Automation Consumables
Environmental Laboratory Automation Consumables
Industrial Quality Control Laboratory Automation Consumables
Chapter 6 Patent Review/ New Developments
Intellectual Property
Bioprocess Method and System
Single Cell–derived Organoids
Device and Methods for Printing Biological Tissues and Organs
Methods for Culturing Organoids
Laboratory Sample Distribution System and Laboratory Automation System
System and Method for the Automated Preparation of Biological Sample
Process for Finding a Path in an Automated Handling System, and Handling System with Corresponding Control Module for Finding a Path
Development Issues
The Future of the Laboratory Professional
A Change in Marketing
Evolutionary Steps
Laboratory Automation Research and Development
Chapter 7 Government Regulations
U.S. FDA
Software
European Medicines Agency (EU States)
Software
Swiss Agency for Therapeutic Products
Software
Pharmaceuticals and Medical Device Agency Japan
Software
Therapeutic Goods Administration (Australia)
Software
Therapeutics Products Directorate, Health Canada
Software
OECD and Non-OECD Signatories
Department of Science and Technology (India)
Software
China Food and Drug Administration (China)
Software
Open Channel Automation
Industry Structure
Manufacturers
End Users
OEM Producers
Chapter 8 Company Profiles
ABBOTT LABORATORIES, INC.
AGILENT TECHNOLOGIES, INC.
ANALYTIKJENA AG
ANDREW ALLIANCE SA
APRICOT DESIGNS, INC.
ARTEL
ASTECH PROJECTS LTD.
BECKMAN COULTER
BIOMICROLAB, INC.
BIONEX
BIO-RAD
BIOSERO LLC
BIOTEK INSTRUMENTS, INC.
BRANDTECH SCIENTIFIC, INC.
BROOKS LIFE SCIENCE SYSTEMS
CETAC AUTOMATION
CHEMSPEED TECHNOLOGIES AG
CLTECH
DATA UNLIMITED INTERNATIONAL, INC.
EPPENDORF
GILSON, INC.
HAMILTON CO.
HTI BIO-X GMBH
HUDSON ROBOTICS, INC.
IDBS
INDIGO BIOAUTOMATION
J-KEM SCIENTIFIC
LAB SERVICES BV
LABCYTE, INC.
LABVANTAGE SOLUTIONS, INC.
LEAP TECHNOLOGIES
NANOSCREEN LLC
NOVA BIOSTORAGE PLUS LLC
OPENTRONS
PEAK ROBOTICS, INC.
PRECISE AUTOMATION
PRECISION SYSTEM SCIENCE
QIAGEN
RETISOFT, INC.
ROCHE
SCIGENE
TECAN TRADING AG
THERMO FISHER SCIENTIFIC
TOMTEC
UNCHAINED LABS
VALA SCIENCES, INC.
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