Life Science Instrumentation Market Region, Type, Cost, Application, Size, Trends, Competitive Market Share and Forecast to 2025

The global life science instrumentation market size is projected to reach USD 79.9 billion by 2025 from USD 60.0 billion in 2020, at a CAGR of 5.9%. The growth of the market is attributed to increasing spending on pharmaceutical R&D, growing food safety concerns, technological advancements in analytical instruments, and the availability of funding for life science research. Moreover, the growing proteomics market, rising environmental safety concerns, increasing demand for analytical instruments in several industries, and high demand in emerging nations offer lucrative opportunities for the market players. However, the dearth of skilled professionals and the high cost of technologically advanced instruments are the major factors that are expected to restrain the growth of this market during the forecast period.

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The major players in the market include Agilent Technologies (US), Becton, Dickinson and Company (US), Bio-Rad Laboratories, Inc. (US), Bruker Corporation (US), Danaher Corporation (US), Eppendorf AG (Germany), GE Healthcare (US), Hitachi High-Technologies Corporation (Japan), Horiba (Japan), Merck KGaA (Germany), PerkinElmer, Inc.. (US), Qiagen N.V. (Netherlands), Shimadzu Corporation (Japan), Thermo Fisher Scientific, Inc. (US), and Waters Corporation (US)., among others.

“The spectroscopy segment is expected to account for the largest market share during the forecast period.”

Based on technology, the market is segmented into spectroscopy, chromatography, PCR, immuno assays, lyophilization, liquid handling, clinical chemistry analyzers, microscopy, flow cytometry, next-generation sequencing (NGS), centrifuges, electrophores is, cell counting, and other technologies.The spectroscopy accounted for the largest share of this market in 2019,driven by increased spending on R&D in pharmaceutical companies, government regulations on drug safety, and growing focus on the quality of food products.

“The molecular spectroscopy segment to hold a major share of the life science instrumentation market during the forecast period.”

Based on type, the spectrometry market is segmented into three major types—mass spectrometers, molecular spectrometers, and atomic spectrometers.The wide application of this technology and the presence of stringent regulatory guidelines for drug development and safety are driving the growth of the molecular spectrometry segment.

“Europe to account for the second-largest share of the global market in 2019”

The life science instrumentation market is segmented into five major regions, namely, North America, Europe, the Asia Pacific, Latin America, and the Middle East & Africa. Europe accounted for the second-largest share of the global life science instrumentation market in 2019. Direct&indirect financial investments in analytical instruments,rising healthcare expenditure,an increase in research activity &academia-industry partnerships,and conferences & symposia related to analytical technologies are the key factors driving market growth in the region. Moreover, the rising incidence of infectious diseases and favorable government initiatives are playing a vital role.

A breakdown of the primary participants referred to for this report is provided below:

  • By Company Type: Tier 1–45%, Tier 2–34%, and Tier 3– 21%
  • By Designation: C-level–47%, Director-level–33%, and Others–20%
  • By Region: North America–35%, Europe–32%, Asia Pacific–25%, Latin America–6%, and the Middle East & Africa–2%

Research Coverage

This report studies the life science instrumentation market based on technology, application, end user,and region. The report also studies factors (such as drivers, restraints, opportunities, and challenges) affecting the market growth. It analyzes the opportunities and challenges in the market and provides details of the competitive landscape for market leaders. Furthermore, the report analyzes micro markets with respect to their individual growth trends and forecasts the revenue of the market segments with respect to five main regions(and the respective countries in these regions).

Reasons to Buy the Report

The report will enable established firms as well as entrants/smaller firms to gauge the pulse of the market, which, in turn, would help them to garner a larger market share. Firms purchasing the report could use one or a combination of the below-mentioned strategies for strengthening their market presence.

This report provides insights on the following pointers:

  • Market Penetration: Comprehensive information on the product portfolios offered by the top players in the life science instrumentation market
  • Product Development/Innovation: Detailed insights on the upcoming trends, R&D activities, and product launches in the life science instrumentation market
  • Market Development: Comprehensive information on lucrative emerging regions
  • Market Diversification: Exhaustive information about new products, growing geographies, and recent developments in the life science instrumentation market
  • Competitive Assessment: In-depth assessment of market segments, growth strategies, revenue analysis, and products of the leading market players.

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Table of Contents

1 Introduction
1.1 Objectives Of The Study
1.2 Market Definition
1.2.1 Markets Covered
1.2.2 Years Considered For The Study
1.3 Currency
1.4 Limitations
1.5 Stakeholders

2 Research Methodology
2.1 Research Data
2.1.1 Secondary Data Key Data From Secondary Sources
2.1.2 Primary Data Key Data From Primary Sources Breakdown Of Primaries
2.2 Market Size Estimation
2.2.1 Product-Based Market Estimation
2.2.2 Application-Based Market Size Estimation
2.2.3 Primary Research Validation
2.3 Market Data Validation And Triangulation
2.4 Research Limitations & Assumptions
2.4.1 Limitations
2.5 Assumptions For The Study

3 Executive Summary

4 Premium Insights
4.1 Life Science Instrumentation: Market Overview
4.2 Life Science Instrumentation Market, By Technology, 2019 Vs 2025
4.3 Life Science Instrumentation Market, By End User, 2019 Vs 2025
4.4 Geographical Snapshot Of The Life Science Instrumentation Market, 2019

5 Market Overview
5.1 Introduction
5.2 Market Dynamics
5.2.1 Drivers Increasing Investments In Pharmaceutical R&D Growing Food Safety Concerns Increasing Public–Private Investments In Life Science Research Rising Incidence Of Target Infectious Diseases And Genetic Disorders Advancements In Ngs Platforms Declining Costs Of Genome Sequencing Growing Use Of Capillary Electrophoresis With Mass Spectroscopy Growing Adoption Of Flow Cytometry Techniques In Research And Academia Rising Incidence Of Hospital-Acquired Infections Increasing Outsourcing Of Sterilization Services
5.2.2 Restraints High Cost Of Instruments Dearth Of Skilled Professionals Technical Limitations Associated With Qpcr And Dpcr Techniques High Cost Of Advanced Microscopes
5.2.3 Opportunities Growth Opportunities In Emerging Countries Growing Demand For Analytical Instruments And Focus Of Key Market Players On Emerging Countries Growth Of The Pharmaceutical And Biotechnology Industries Application Of Ngs In Precision Medicine And Molecular Diagnostics Widening Application Scope Of Analytical Instruments Increased Demand For Personalized Medicine
5.2.4 Challenges Inadequate Infrastructure For Research In Emerging Countries Ethical Issues Regarding The Privacy Of Generated Data From Instrument Software Pricing Pressure Faced By Prominent Players In Emerging Markets
5.3 Industry Trends
5.3.1 Rising Focus On Ngs Instrument Miniaturization
5.3.2 Increasing Adoption Of Hyphenated Technologies
5.3.3 Tie-Ups Between Analytical Instrument Manufacturers And Research Laboratories/Academic Institutions
5.3.4 Market Consolidation

6 Life Science Instrumentation Market, By Technology
6.1 Introduction
6.2 Spectroscopy
6.2.1 Mass Spectrometers Mass Spectrometers Are Increasingly Being Used For Analytical Applications In Laboratories
6.2.2 Molecular Spectrometers Wide Application Scope Of Molecular Spectrometers To Drive The Market Growth
6.2.3 Atomic Spectrometers Presence Of Stringent Safety Regulations Has Increased Use Of Atomic Spectroscopy Technologies
6.3 Chromatography
6.3.1 Liquid Chromatography (Lc) Systems Liquid Chromatography Is The Most Widely Used Analytical Tool In The Pharmaceuticals Industry Due To Its Flexibility In Separation Of Many Compounds
6.3.2 Gas Chromatography (Gc) Systems High Requirements For Running Gc Systems Are Limiting Their Adoption
6.3.3 Supercritical Fluid Chromatography (Sfc) Systems Sfc System Exhibits Properties Such As Low Viscosity And High Diffusivity And Is Ideal For Use As A Mobile Phase In Chromatography
6.3.4 Thin-Layer Chromatography (Tlc) Systems Ability Of Tlc To Separate Several Samples Concurrently Within A Relatively Short Analytical Run Provides It An Edge Over Other Chromatography Techniques
6.4 Pcr
6.4.1 Qpcr Growing Adoption Of Qpcr Among Researchers And Healthcare Professionals Is Expected To Boost The Growth Of Qpcr Market
6.4.2 Dpcr Ongoing Technological Developments In The Field And Significant Adoption Rate Of Dpcr Products Among Key End Users Will Impact The Market Growth
6.5 Immunoassays
6.5.1 High Sensitivity And Specificity Of Immunoassay Tests Provide Accurate And Faster Results
6.6 Lyophilization
6.6.1 Tray-Style Freeze Dryers Increasing Use Of Contract Manufacturing & Contract Lyophilization Services In The Pharmaceutical Industry And Growing Commercialization Of Labile Drugs
6.6.2 Manifold Freeze Dryers Increase In Government Funding For Academic Research And Surge In Research Activities In The Field Of Lyophilization
6.6.3 Shell (Rotary) Freeze Dryers Increasing Research For The Development Of Food Ingredients And Biologic Molecules Is Expected To Boost Their Demand
6.7 Liquid Handling
6.7.1 Electronic Handling Systems Market High Accuracy And Reproducibility Of Electronic Handling Systems Promote Its Use In The Pharmaceutical And Biotechnology Industries
6.7.2 Automated Handling Systems Market High Cost Of Automated Handling Systems And Time-Consuming Set-Up May Hinder The Adoption Of These Systems
6.7.3 Manual Handling Systems Market These Devices Are Mostly Used To Manually Dispense A Selected Quantity Of Reagents, Samples, Or Other Liquids To A Designated Container
6.8 Clinical Chemistry Analyzers
6.8.1 Large Operational Cycles Of The Device May Reduce Demand As Frequent Purchases Are Not Possible
6.9 Microscopy
6.9.1 Optical Microscopes Market Low Costs, Ease Of Use, And Low Maintenance Costs Are The Major Factors Driving The Growth Of The Segment
6.9.2 Electron Microscopes Market Increasing R&D And Easy Availability Of Funds To Support Adoption Of Electron Microscopes
6.9.3 Scanning Probe Microscopy Market High Growth In The Atomic Force Microscopes Segment To Aid Market Growth For Scanning Probe Microscopy
6.9.4 Other Microscopes Market
6.1 Flow Cytometry
6.10.1 Cell Analyzers Market Technological Advancements In Cell Analyzers Resulting In New Product Launches
6.10.2 Cell Sorters The Development Cost Effective Cell Sorters Can Enhance Its Use Outside Of The Core Laboratories
6.11 Next-Generation Sequencing (Ngs)
6.11.1 The Increasing Availability Of Cheaper Sequencing Platforms Will Drive The Market Growth
6.12 Centrifuges
6.12.1 Microcentrifuges Market Increasing Prevalence Of Diseases Such As Diabetes Has Increased The Use Of Microcentrifuges
6.12.2 Multipurpose Centrifuges Market Increasing Research On Cell Cultures Due To The Growing Prevalence Of Diseases Will Fuel The Growth Of The Market
6.12.3 Minicentrifuges Market Small Size And Smooth Operation Are Factors Increasing Their Adoption
6.12.4 Ultracentrifuges Market Risks Associated With The Use Of Ultracentrifuges May Hamper The Growth In The Segment
6.13 Electrophoresis
6.13.1 Gel Electrophoresis Systems Market Increasing Demand For Gel Electrophoresis In Proteomics Research And Personalized Medicine To Fuel The Growth Of The Segment
6.13.2 Capillary Electrophoresis (Ce) Systems Market Numerous Analytical Benefits Offered By Ce Systems Is The Key Factor Driving The Market Growth
6.14 Cell Counting
6.14.1 Automated Cell Counters Market Growing Focus On Research Related To Life-Threatening Diseases Is Expected To Be The Major Growth Driver
6.14.2 Hemocytometers And Manual Cell Counters Market Manual Cell Counters Are Rapidly Being Replaced By Advanced Automated Cell Counting Instruments
6.15 Other Technologies
6.15.1 Laboratory Freezers Freezers Refrigerators Blood Bank Refrigerators Chromatography Refrigerators Explosion-Proof Refrigerators Flammable Material Refrigerators Laboratory Refrigerators Pharmacy Refrigerators Cryopreservation Systems
6.15.2 Heat Sterilization Moist Heat/Steam Sterilization Instruments Dry Heat Sterilization Instrumentation
6.15.3 Microplate Systems Microplate Readers Microplate Dispensers Microplate Washers
6.15.4 Laboratory Balances
6.15.5 Colorimeters
6.15.6 Incubators
6.15.7 Fume Hoods
6.15.8 Robotic Systems Robotic Arms Track Robot Systems
6.15.9 Ph Meters
6.15.10 Conductivity And Resistivity Meters
6.15.11 Dissolved Co2 And O2 Meters
6.15.12 Titrators
6.15.13 Gas Analyzers
6.15.14 Toc Analyzers
6.15.15 Thermal Analyzers
6.15.16 Shakers/Rotators And Stirrers

7 Life Science Instrumentation Market, By Application
7.1 Introduction
7.2 Research Applications
7.2.1 Increasing Research On Genomics And For Drug Development Is Expected To Drive The Market Growth
7.3 Clinical & Diagnostic Applications
7.3.1 Increasing Prevalence Of Infectious Diseases Across The Globe Will Lead To Increase In The Number Of Diagnostic Tests Performed
7.4 Other Applications
7.4.1 High Accuracy And Efficiency Have Increased The Use Of Analytical Technologies In Several Industries/Sectors

8 Life Science Instrumentation Market, By End User
8.1 Introduction
8.2 Hospitals And Diagnostic Laboratories
8.2.1 Growing Adoption Of Molecular Diagnostics Is One Of The Important Factors Responsible For Increasing Use Of Life Science Technologies In Hospitals And Diagnostic Labs
8.3 Pharmaceutical And Biotechnology Companies
8.3.1 Increasing Focus Of Pharma & Biotech Companies On Extending Their Product Pipeline Will Boost The Market Growth
8.4 Academic And Research Institutes
8.4.1 Emphasis On Practical Applications Rather Than Theoretical Knowledge Has Increased The Use Of High-End Instruments In Academic Institutions
8.5 Agriculture & Food Industries
8.5.1 Analysis Of Food Products For Maintaining Quality & Safety, Defining Standards, And Authenticity Will Increase The Adoption Of Life Science Instruments
8.6 Environmental Testing Labs
8.6.1 Concerns Regarding Environmental Pollution And Imposition Of Regulations By Government Bodies Will Increase Adoption Of Analytical Tools In This Segment
8.7 Clinical Research Organizations
8.7.1 Increasing Funding For R&D To Cros Will Fuel Market Growth
8.8 Other End Users
8.8.1 Laboratory Automation & Technological Integration By Various End Users Will Drive The Market Growth

9 Life Science Instrumentation Market, By Region
9.1 Introduction
9.2 North America
9.2.1 Us Large Presence Of Major Pharmaceutical And Biotechnology Companies In The Country Will Be Key Factor For Country-Level Market Growth
9.2.2 Canada Increasing Funding For Genomic And Clinical Research Is Expected To Increase Adoption Of Life Science Instrumentation Technologies In The Country
9.3 Europe
9.3.1 Germany Favorable Reimbursement And Insurance Scenario In The Country For Various Diagnostic Tests Is Supporting The Market Growth
9.3.2 Uk Rising Number Of Research Activities And Academia–Industry Partnerships Will Drive Growth Of The Uk Market
9.3.3 France Increasing Investments In Infrastructure Development Pertaining To Life Science R&D Is Expected To Increase The Adoption Of New Life Science Instrumentation Technologies In The Country 175
9.3.4 Spain Growing Focus On Cancer Research And Advanced R&D Structure Will Support The Growth Of The Country-Level Market
9.3.5 Italy Advancements In Biotechnology And Increasing R&D Investments By Pharmaceutical Companies Are Expected To Fuel The Demand For Mass Spectrometry Instruments In Italy
9.3.6 Rest Of Europe (Roe) Increasing Demand For Life Science Instrumentation Technologies In The Eastern European Region Is Expected To Fuel The Market Growth
9.4 Asia Pacific
9.4.1 Japan Growing Adoption Of Technologically Advanced Products Will Increase Adoption Of Life Science Instruments
9.4.2 China Increasing Production And Export Of Pharmaceuticals Will Favor The Growth Of The Market For Life Science Instruments
9.4.3 India Increasing Healthcare Expenditure In The Country Is Expected To Drive The Market
9.4.4 Australia Personalized Medical Care, Cancer Diagnostics, And Agricultural Research Are Driving The Growth Of The Country-Level Market
9.4.5 South Korea Growing Awareness As Well As Broad Applications Of Life Science Technologies In The Country Are Expected To Boost Market Growth
9.4.6 Rest Of Asia Pacific (Roapac) Growing Healthcare Spending, Developing Healthcare Infrastructure, And Growing Middle-Class Population In These Countries Will Increase Adoption Of Life Science Instrumentation
9.5 Latin America
9.5.1 Brazil Increasing Research Activities And Minimal Trade Barriers For Laboratory Equipment And Medical Devices Is Expected To Drive The Market
9.5.2 Mexico Presence Of Favorable Business Environment For Market Players Is Expected To Attract Investment From Major Market Players In The Country
9.5.3 Rest Of Latin America (Rola) Focus Of Market Players On Regional Expansion, Government Initiatives To Increase R&D, And Rising Incidence Of Cancer And Hiv/Aids In The Region Will Boost The Market
9.6 Middle East & Africa

10 Competitive Landscape
10.1 Overview
10.2 Market Rank Analysis, 2018
10.3 Competitive Scenario
10.3.1 Product Launches And Approvals
10.3.2 Acquisitions
10.3.3 Partnerships, Collaborations, And Agreements
10.4 Competitive Leadership Mapping (Overall Market)
10.5 Competitive Leadership Mapping: Major Market Players (2018)
10.5.1 Visionary Leaders
10.5.2 Innovators
10.5.3 Dynamic Differentiators
10.5.4 Emerging Companies

11 Company Profiles

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