April 20, 2024
Healthcare

In Situ Hybridization Market Opportunities & Forecast 2021-2030

Rutuja Borkarby Rutuja Borkar

The global In Situ Hybridization market size is expected to be worth around US$ 3.6 billion by 2030, according to a new report by Vision Research Reports.

The global In Situ Hybridization market size was valued at US$ 2,333.5 million in 2020 and is anticipated to grow at a CAGR of 9.9% during forecast period 2021 to 2030.

In Situ Hybridization

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In Situ Hybridization Market Growth Factors

The market is gaining momentum in breast cancer with the FISH test. For instance, Roche offers a comprehensive ISH workflow solution with automated assay and digital pathology for breast cancer. Thus, increasing the scope of application is expected to drive the market to a major extend. In addition, technological advancements in instruments have fueled the market growth.

The COVID-19 is found to have a mixed impact on the market space. Social distancing mandates and lockdown policies have negatively affected the market to a considerable extent. However, the pandemic has opened new opportunities for operating entities by allowing them to deploy ISH methods in the R&D of COVID-19 related programs.

In Situ Hybridization Market Report Coverage
Report Scope Details
Market Size US$ 3.6 billion by 2030
Growth Rate CAGR of 9.9% From 2021 to 2030
Base Year 2021
Forecast Period 2021 to 2030
Segments Covered Technology, Probe type, Application, Product, End-use
Regional Scope North America, Europe, Asia Pacific, Latin America, Middle East & Africa
Companies Mentioned PerkinElmer, Inc.; Thermo Fisher Scientific Inc.; BioView; Agilent Technologies; Merck KGaA; Bio-Rad Laboratories, Inc.; Oxford Gene Technology; Leica BiosystemsNussloch GmbH; NeoGenomics Laboratories; Advanced Cell Diagnostics, Inc.

By Technology Analysis

Based on technology, the FISH segment dominated the market for in situ hybridization and accounted for the largest revenue share of 53.9% in 2020. This can be attributed to the wide range of applications such as diagnosing congenital diseases including Edward’s Syndrome and Down’s Syndrome.

The CISH segment also captured a significant share of in situ hybridization over time as it is a cost-effective, reliable, and practical alternative for FISH. The technology aids in detecting HER-2/neu oncogene copies with conventional peroxidase reaction.

The affordable technological advancements in the ISH market are driving the segment growth. For instance, a group of researchers published their study in May 2021, suggesting that the chromogen-based RNA in situ hybridization approach is an effective method to detect druggable cytokines in atopic dermatitis and psoriasis.

By Probe Analysis

The DNA probe segment dominated the market for in situ hybridization and accounted for the largest revenue share of 51.1% in 2020. However, the RNA probe showcased a better growth rate in the forecasted period, owing to the development of new nucleic acid-based diagnostic assays and tools for analyzing DNA and RNA molecules.

RNA probe is used to detect the presence of complementary nucleic acid sequences by hybridization. The popularity of RNA as a hybridization tool is increasing owing to several advantages, such as the probes are synthesized by in vitro transcription and can be a replacement for DNA probes in almost all applications.  The acceleration in the development of probe-based technology and products is anticipated to boost the growth of the ISH market.

By Product Analysis

The instruments segment dominated the market for in situ hybridization and accounted for the largest revenue share of 36.3% in 2020. The increasing demand for instruments is owing to the raising chains of diagnostic and research laboratories. Bio-Techne Corporation announced to introduce RNAscope technology along with new DNA scope assays in the commercial market.

On the other hand, the services segment is anticipated to witness significant growth in the market for in situ hybridization. Increasing outsourcing to improve operational functionalities and ensure high adherence to quality standards and is contributing toward the lucrative CAGR of this segment.

By Application Analysis

The cancer segment dominated the market for in situ hybridization and accounted for the largest revenue share of 36.4% in 2020. The increase in the incidence rate of cancer cases is anticipated to drive the growth.

Rising unhealthy lifestyle, aging population, health conditions, and environment are leading factors for causing cancers. Various organizations initiate research and promote further development in the treatment of cancers.

By End-use Analysis

The hospitals and diagnostic laboratories segment dominated the market for in situ hybridization and accounted for the largest revenue share of 48.8% in 2020. There are three major end-users in the market, hospitals and diagnostic laboratories, Contract Research Organizations (CROs), and academic and research institutions.

The ongoing pandemic can be the key driver for the laboratories as understanding the pathogen can offer a competitive advantage to the laboratories and assist to lead the industry.

Many organizations outsource their research and clinical trials to research laboratories and factors such as specialized workforce, deduces the cost for companies, and improving the efficiency can motivate companies and other organizations to outsource their research to the laboratories.

By Regional Analysis

North America dominated the In Situ Hybridization (ISH) market and accounted for the largest revenue share of 44.9% in 2020. This growth in the region can be attributed to the presence of a considerable number of market players and incentivized research projects by the regional government.

Asia Pacific, the market is likely to witness the fastest growth over the forecast period. Raising the attention of regional authorities in R&D is expected to be the key market driver over the forecast period. China and India are the fastest-growing markets in the Asia Pacific region.

Read also @ Urometer Market Growth at a CAGR of 7.8% from 2021 to 2030

Major Key Players Covered in The In Situ Hybridization Market Report include
  • Leica Biosystems Nussloch GmbH
  • Merck KGaA
  • Thermo Fisher Scientific
  • Agilent Technologies
  • BIO VIEW
  • PerkinElmer, Inc.
  • NeoGenomics Laboratories, Inc.
  • Bio-Rad Laboratories, Inc.
  • Oxford Gene Technology
  • Advanced Cell Diagnostics, Inc.
In Situ Hybridization Market Segmentation
  • By Technology
    • Fluorescent In Situ Hybridization (FISH)
    • Chromogenic In Situ Hybridization (CISH)
  • By Probe Type
    • DNA
    • RNA
  • By Product
    • Instruments
    • Kits & Probes
    • Software
    • Services
  • By Application
    • Cancer
    • Cytogenetics
    • Developmental Biology
    • Infectious Diseases
    • Others
  • By End-use
    • Hospitals & Diagnostic Laboratories
    • CROs
    • Academic& Research Institutes
    • Others
  • Regional
    • North America
      • U.S.
      • Canada
    • Europe
      • U.K.
      • Germany
      • France
      • Italy
      • Spain
    • Asia Pacific
      • Japan
      • China
      • India
      • South Korea
      • Australia
    • Latin America
      • Brazil
      • Mexico
    • Middle East & Africa
      • South Africa
      • Saudi Arabia

Table of Contents

Chapter 1.  Introduction

1.1.  Research Objective

1.2.  Scope of the Study

1.3.  Definition

Chapter 2.  Research Methodology

2.1.  Research Approach

2.2.  Data Sources

2.3.  Assumptions & Limitations

Chapter 3.  Executive Summary

3.1.  Market Snapshot

Chapter 4.  Market Variables and Scope

4.1.  Introduction

4.2.  Market Classification and Scope

4.3.  Industry Value Chain Analysis

4.3.1.    Raw Material Procurement Analysis

4.3.2.    Sales and Distribution Channel Analysis

4.3.3.    Downstream Buyer Analysis

Chapter 5.  Market Dynamics Analysis and Trends

5.1.  Market Dynamics

5.1.1.    Market Drivers

5.1.2.    Market Restraints

5.1.3.    Market Opportunities

5.2.  Porter’s Five Forces Analysis

5.2.1.    Bargaining power of suppliers

5.2.2.    Bargaining power of buyers

5.2.3.    Threat of substitute

5.2.4.    Threat of new entrants

5.2.5.    Degree of competition

Chapter 6.  Competitive Landscape

6.1.1.    Company Market Share/Positioning Analysis

6.1.2.    Key Strategies Adopted by Players

6.1.3.    Vendor Landscape

6.1.3.1.        List of Suppliers

6.1.3.2.        List of Buyers

Chapter 7.  Global In Situ Hybridization Market, By Technology

7.1.  In Situ Hybridization Market, by Technology, 2021-2030

7.1.1.    Fluorescent In Situ Hybridization (FISH)

7.1.1.1.        Market Revenue and Forecast (2017-2030)

7.1.2.    Chromogenic In Situ Hybridization (CISH)

7.1.2.1.        Market Revenue and Forecast (2017-2030)

Chapter 8.  Global In Situ Hybridization Market, By Probe Type

8.1.  In Situ Hybridization Market, by Probe Type, 2021-2030

8.1.1.    DNA

8.1.1.1.        Market Revenue and Forecast (2017-2030)

8.1.2.    RNA

8.1.2.1.        Market Revenue and Forecast (2017-2030)

Chapter 9.  Global In Situ Hybridization Market, By Product

9.1.  In Situ Hybridization Market, by Product, 2021-2030

9.1.1.    Instruments

9.1.1.1.        Market Revenue and Forecast (2017-2030)

9.1.2.    Kits & Probes

9.1.2.1.        Market Revenue and Forecast (2017-2030)

9.1.3.    Software

9.1.3.1.        Market Revenue and Forecast (2017-2030)

9.1.4.    Services

9.1.4.1.        Market Revenue and Forecast (2017-2030)

Chapter 10.      Global In Situ Hybridization Market, By Application

10.1.        In Situ Hybridization Market, by Application, 2021-2030

10.1.1.  Cancer

10.1.1.1.      Market Revenue and Forecast (2017-2030)

10.1.2.  Cytogenetics

10.1.2.1.      Market Revenue and Forecast (2017-2030)

10.1.3.  Developmental Biology

10.1.3.1.      Market Revenue and Forecast (2017-2030)

10.1.4.  Infectious Diseases

10.1.4.1.      Market Revenue and Forecast (2017-2030)

Chapter 11.      Global In Situ Hybridization Market, By End-use

11.1.        In Situ Hybridization Market, by End-use, 2021-2030

11.1.1.  Hospitals & Diagnostic Laboratories

11.1.1.1.      Market Revenue and Forecast (2017-2030)

11.1.2.  CROs

11.1.2.1.      Market Revenue and Forecast (2017-2030)

11.1.3.  Academic& Research Institutes

11.1.3.1.      Market Revenue and Forecast (2017-2030)

11.1.4.  Others

11.1.4.1.      Market Revenue and Forecast (2017-2030)

Chapter 12.      Global In Situ Hybridization  Market, Regional Estimates and Trend Forecast

12.1.        North America

12.1.1.  Market Revenue and Forecast, by Technology (2017-2030)

12.1.2.  Market Revenue and Forecast, by Probe Type (2017-2030)

12.1.3.  Market Revenue and Forecast, by Product (2017-2030)

12.1.4.  Market Revenue and Forecast, by Application (2017-2030)

12.1.5.  Market Revenue and Forecast, by End-use (2017-2030)

12.1.6.  U.S.

12.1.6.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.1.6.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.1.6.3.      Market Revenue and Forecast, by Product (2017-2030)

12.1.6.4.      Market Revenue and Forecast, by Application (2017-2030)

12.1.6.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.1.7.  Rest of North America

12.1.7.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.1.7.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.1.7.3.      Market Revenue and Forecast, by Product (2017-2030)

12.1.7.4.      Market Revenue and Forecast, by Application (2017-2030)

12.1.7.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.2.        Europe

12.2.1.  Market Revenue and Forecast, by Technology (2017-2030)

12.2.2.  Market Revenue and Forecast, by Probe Type (2017-2030)

12.2.3.  Market Revenue and Forecast, by Product (2017-2030)

12.2.4.  Market Revenue and Forecast, by Application (2017-2030)

12.2.5.  Market Revenue and Forecast, by End-use (2017-2030)

12.2.6.  UK

12.2.6.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.2.6.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.2.6.3.      Market Revenue and Forecast, by Product (2017-2030)

12.2.6.4.      Market Revenue and Forecast, by Application (2017-2030)

12.2.6.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.2.7.  Germany

12.2.7.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.2.7.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.2.7.3.      Market Revenue and Forecast, by Product (2017-2030)

12.2.7.4.      Market Revenue and Forecast, by Application (2017-2030)

12.2.7.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.2.8.  France

12.2.8.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.2.8.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.2.8.3.      Market Revenue and Forecast, by Product (2017-2030)

12.2.8.4.      Market Revenue and Forecast, by Application (2017-2030)

12.2.8.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.2.9.  Rest of Europe

12.2.9.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.2.9.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.2.9.3.      Market Revenue and Forecast, by Product (2017-2030)

12.2.9.4.      Market Revenue and Forecast, by Application (2017-2030)

12.2.9.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.3.        APAC

12.3.1.  Market Revenue and Forecast, by Technology (2017-2030)

12.3.2.  Market Revenue and Forecast, by Probe Type (2017-2030)

12.3.3.  Market Revenue and Forecast, by Product (2017-2030)

12.3.4.  Market Revenue and Forecast, by Application (2017-2030)

12.3.5.  Market Revenue and Forecast, by End-use (2017-2030)

12.3.6.  India

12.3.6.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.3.6.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.3.6.3.      Market Revenue and Forecast, by Product (2017-2030)

12.3.6.4.      Market Revenue and Forecast, by Application (2017-2030)

12.3.6.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.3.7.  China

12.3.7.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.3.7.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.3.7.3.      Market Revenue and Forecast, by Product (2017-2030)

12.3.7.4.      Market Revenue and Forecast, by Application (2017-2030)

12.3.7.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.3.8.  Japan

12.3.8.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.3.8.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.3.8.3.      Market Revenue and Forecast, by Product (2017-2030)

12.3.8.4.      Market Revenue and Forecast, by Application (2017-2030)

12.3.8.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.3.9.  Rest of APAC

12.3.9.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.3.9.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.3.9.3.      Market Revenue and Forecast, by Product (2017-2030)

12.3.9.4.      Market Revenue and Forecast, by Application (2017-2030)

12.3.9.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.4.        MEA

12.4.1.  Market Revenue and Forecast, by Technology (2017-2030)

12.4.2.  Market Revenue and Forecast, by Probe Type (2017-2030)

12.4.3.  Market Revenue and Forecast, by Product (2017-2030)

12.4.4.  Market Revenue and Forecast, by Application (2017-2030)

12.4.5.  Market Revenue and Forecast, by End-use (2017-2030)

12.4.6.  GCC

12.4.6.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.4.6.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.4.6.3.      Market Revenue and Forecast, by Product (2017-2030)

12.4.6.4.      Market Revenue and Forecast, by Application (2017-2030)

12.4.6.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.4.7.  North Africa

12.4.7.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.4.7.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.4.7.3.      Market Revenue and Forecast, by Product (2017-2030)

12.4.7.4.      Market Revenue and Forecast, by Application (2017-2030)

12.4.7.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.4.8.  South Africa

12.4.8.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.4.8.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.4.8.3.      Market Revenue and Forecast, by Product (2017-2030)

12.4.8.4.      Market Revenue and Forecast, by Application (2017-2030)

12.4.8.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.4.9.  Rest of MEA

12.4.9.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.4.9.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.4.9.3.      Market Revenue and Forecast, by Product (2017-2030)

12.4.9.4.      Market Revenue and Forecast, by Application (2017-2030)

12.4.9.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.5.        Latin America

12.5.1.  Market Revenue and Forecast, by Technology (2017-2030)

12.5.2.  Market Revenue and Forecast, by Probe Type (2017-2030)

12.5.3.  Market Revenue and Forecast, by Product (2017-2030)

12.5.4.  Market Revenue and Forecast, by Application (2017-2030)

12.5.5.  Market Revenue and Forecast, by End-use (2017-2030)

12.5.6.  Brazil

12.5.6.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.5.6.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.5.6.3.      Market Revenue and Forecast, by Product (2017-2030)

12.5.6.4.      Market Revenue and Forecast, by Application (2017-2030)

12.5.6.5.      Market Revenue and Forecast, by End-use (2017-2030)

12.5.7.  Rest of LATAM

12.5.7.1.      Market Revenue and Forecast, by Technology (2017-2030)

12.5.7.2.      Market Revenue and Forecast, by Probe Type (2017-2030)

12.5.7.3.      Market Revenue and Forecast, by Product (2017-2030)

12.5.7.4.      Market Revenue and Forecast, by Application (2017-2030)

12.5.7.5.      Market Revenue and Forecast, by End-use (2017-2030)

Chapter 13.  Company Profiles

13.1.              Leica Biosystems Nussloch GmbH

13.1.1.  Company Overview

13.1.2.  Product Offerings

13.1.3.  Financial Performance

13.1.4.  Recent Initiatives

13.2.              Merck KGaA

13.2.1.  Company Overview

13.2.2.  Product Offerings

13.2.3.  Financial Performance

13.2.4.  Recent Initiatives

13.3.              Thermo Fisher Scientific

13.3.1.  Company Overview

13.3.2.  Product Offerings

13.3.3.  Financial Performance

13.3.4.  Recent Initiatives

13.4.              Agilent Technologies

13.4.1.  Company Overview

13.4.2.  Product Offerings

13.4.3.  Financial Performance

13.4.4.  Recent Initiatives

13.5.              BIO VIEW

13.5.1.  Company Overview

13.5.2.  Product Offerings

13.5.3.  Financial Performance

13.5.4.  Recent Initiatives

13.6.              PerkinElmer, Inc.

13.6.1.  Company Overview

13.6.2.  Product Offerings

13.6.3.  Financial Performance

13.6.4.  Recent Initiatives

13.7.              NeoGenomics Laboratories, Inc.

13.7.1.  Company Overview

13.7.2.  Product Offerings

13.7.3.  Financial Performance

13.7.4.  Recent Initiatives

13.8.              Bio-Rad Laboratories, Inc.

13.8.1.  Company Overview

13.8.2.  Product Offerings

13.8.3.  Financial Performance

13.8.4.  Recent Initiatives

13.9.              Oxford Gene Technology

13.9.1.  Company Overview

13.9.2.  Product Offerings

13.9.3.  Financial Performance

13.9.4.  Recent Initiatives

13.10.           Advanced Cell Diagnostics, Inc.

13.10.1.               Company Overview

13.10.2.               Product Offerings

13.10.3.               Financial Performance

13.10.4.               Recent Initiatives

Chapter 14.  Research Methodology

14.1.              Primary Research

14.2.              Secondary Research

14.3.              Assumptions

Chapter 15.  Appendix

15.1.              About Us

15.2.              Glossary of Terms

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Rutuja Borkar

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