Global Fluorescent In Situ Hybridization (FISH) Probe Market Size Study By Application (Genetic Diseases, and Cancer Research), By RNA Type (miRNA, mRNA, and Others), By End-Use (Clinical, Research, and Companion Diagnostics), and By Regional (North America, Europe, Asia Pacific, Latin America, and Rest of the World) Forecasts, 2018-2025

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Global Fluorescent In Situ Hybridization (FISH) Probe Market valued approximately USD 551.02 million in 2016 is forecasted to grow with a healthy growth rate of more than 6.56% over the forecast period 2018-2025. The major factors speculated to augment the markets are rising requirements for In Vitro Diagnostics (IVD) testing in the diagnosis of various chronic diseases and escalating needs for IVD is attributed towards the high levels of reliability, rapidity, and sensitivity. Fluorescent in situ hybridization is a molecular cytogenetic technique that uses fluorescent probes that bind to only those parts of the chromosome with a high degree of sequence complementarity.

The regional analysis of Global Fluorescent In Situ Hybridization (FISH) Probe Market is considered for the key regions such as Asia Pacific, North America, Europe, Latin America and Rest of the World. North American region is the leading region across the world in terms of market share. Whereas, owing to countries viz. India, Indonesia, China, and Japan, the Asia Pacific region is expected to exhibit higher growth rate / CAGR over the forecast period 2018-2025.

Global Fluorescent In Situ Hybridization (FISH) Probe MarketThe objective of the study is to define market sizes of different segments & countries in recent years and to forecast the values to the coming eight years. The report is designed to incorporate both qualitative and quantitative aspects of the industry within each of the regions and countries involved in the study. Furthermore, the report also caters the detailed information about the crucial aspects such as driving factors & challenges which will define the future growth of the market. Additionally, the report shall also incorporate available opportunities in micro markets for stakeholders to invest along with the detailed analysis of competitive landscape and product offerings of key players. The detailed segments and sub-segment of the market are explained below:

By Application:

  • Genetic diseases
  • Cancer research
    • Lung
    • Breast
    • Other
  • Other

By RNA Type:

  • miRNA
  • mRNA
  • Others

By End-Use:

Clinical

Research

Companion Diagnostics

By Regions:

  • North America
    • U.S.
    • Canada
  • Europe
    • UK
    • Germany
  • Asia Pacific
    • China
    • India
    • Japan
  • Latin America
    • Brazil
    • Mexico
  • Rest of the World

Furthermore, years considered for the study are as follows:

Historical year – 2015, 2016

Base year – 2017

Forecast period – 2018 to 2025

The industry is seeming to be fairly competitive. Some of the leading market players include Genemed Biotechnologies, Inc., Oxford Gene Technologies, Abnova Corporation, Life Science Technologies, AffymetrixPanomics, PerkinElmer Inc., Biosearch Technologies Inc, Horizon Diagnostics, F. Hoffmann-La Roche AG, EXIQON, and so on. The fierce competitiveness has made these players spend in product developments to improve the customer’s requirements.

Target Audience of the Fluorescent In Situ Hybridization (FISH) Probe Market Study:

  • Key Consulting Companies & Advisors
  • Large, medium-sized, and small enterprises
  • Venture capitalists
  • Value-Added Resellers (VARs)
  • Third-party knowledge providers
  • Investment bankers
  • Investors

Chapter 1.           Global Fluorescent In Situ Hybridization (FISH) Probe Market Definition & Scope

1.1.         Research Objective

1.2.         Market Definition

1.3.         Scope of The Study

1.4.         Years Considered for The Study

1.5.         Currency Conversion Rates

1.6.         Report Limitation

Chapter 2.           Research Methodology

2.1.         Research Process

2.1.1.     Data Mining

2.1.2.     Analysis

2.1.3.     Market Estimation

2.1.4.     Validation

2.1.5.     Publishing

2.2.         Research Assumption

Chapter 3.           Executive Summary

3.1.         Global & Segmental Market Estimates & Forecasts, 2015-2025 (USD Billion)

3.2.         Key Trends

Chapter 4.           Global Fluorescent In Situ Hybridization (FISH) Probe Market Dynamics

4.1.         Growth Prospects

4.1.1.     Drivers

4.1.2.     Restraints

4.1.3.     Opportunities

4.2.         Industry Analysis

4.2.1.     Porter’s 5 Force Model

4.2.2.     PEST Analysis

4.2.3.     Value Chain Analysis

4.3.         Analyst Recommendation & Conclusion

Chapter 5.           Global Fluorescent In Situ Hybridization (FISH) Probe Market by Application

5.1.         Market Snapshot

5.2.         Market Performance – Potential Model

5.3.         Fluorescent In Situ Hybridization (FISH) Probe Market, Sub Segment Analysis

5.3.1.     Genetic Diseases

5.3.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

5.3.1.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

5.3.2.     Cancer Research

5.3.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

5.3.2.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

5.3.2.3. Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

5.3.2.3.1.              Breast

5.3.2.3.2.              Lung

5.3.2.3.3.              Other

5.3.3.     Other

5.3.3.1. Market estimates & forecasts, 2015-2025 (USD Billion)

5.3.3.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

Chapter 6.           Global Fluorescent In Situ Hybridization (FISH) Probe Market by RNA Type

6.1.         Market Snapshot

6.2.         Market Performance – Potential Model

6.3.         Fluorescent In Situ Hybridization (FISH) Probe Market, Sub Segment Analysis

6.3.1.     miRNA

6.3.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

6.3.1.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

6.3.2.     mRNA

6.3.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

6.3.2.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

6.3.3.     Others

6.3.3.1. Market estimates & forecasts, 2015-2025 (USD Billion)

6.3.3.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

Chapter 7.           Global Fluorescent In Situ Hybridization (FISH) Probe Market by End-Use

7.1.         Market Snapshot

7.2.         Market Performance – Potential Model

7.3.         Fluorescent In Situ Hybridization (FISH) Probe Market, Sub Segment Analysis

7.3.1.     Financial Services & Banking

7.3.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

7.3.1.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

7.3.2.     Clinical

7.3.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

7.3.2.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

7.3.3.     Research

7.3.3.1. Market estimates & forecasts, 2015-2025 (USD Billion)

7.3.3.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

7.3.4.     Companion Diagnostics

7.3.4.1. Market estimates & forecasts, 2015-2025 (USD Billion)

7.3.4.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

7.3.5.     Others

7.3.5.1. Market estimates & forecasts, 2015-2025 (USD Billion)

7.3.5.2. Regional breakdown estimates & forecasts, 2015-2025 (USD Billion)

Chapter 8.           Global Fluorescent In Situ Hybridization (FISH) Probe Market, Regional Analysis

8.1.         Fluorescent In Situ Hybridization (FISH) Probe Market, Regional Market Snapshot (2015-2025)

8.2.         North America Fluorescent In Situ Hybridization (FISH) Probe Market Snapshot

8.2.1.     U.S.

8.2.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.2.1.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.2.1.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.2.1.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.2.2.     Canada

8.2.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.2.2.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.2.2.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.2.2.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.         Europe Fluorescent In Situ Hybridization (FISH) Probe Market Snapshot

8.3.1.     U.K.

8.3.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.3.1.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.1.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.1.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.2.     Germany

8.3.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.3.2.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.2.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.2.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.3.     France

8.3.3.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.3.3.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.3.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.3.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.4.     Rest of Europe

8.3.4.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.3.4.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.4.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.3.4.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.         Asia Fluorescent In Situ Hybridization (FISH) Probe Market Snapshot

8.4.1.     China Fluorescent In Situ Hybridization (FISH) Probe Market Size Estimates & Forecasts, 2015-2025 (USD Billion)

8.4.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.4.1.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.1.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.1.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.2.     India

8.4.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.4.2.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.2.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.2.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.3.     Japan

8.4.3.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.4.3.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.3.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.3.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.4.     Rest of Asia Pacific

8.4.4.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.4.4.2. Technology breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.4.4.3. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.5.         Latin America Fluorescent In Situ Hybridization (FISH) Probe Market Snapshot

8.5.1.     Brazil

8.5.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.5.1.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.5.1.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.5.1.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.5.2.     Mexico

8.5.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.5.2.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.5.2.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.5.2.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.6.         Rest of The World

8.6.1.     South America

8.6.1.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.6.1.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.6.1.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.6.1.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.6.2.     Middle East and Africa

8.6.2.1. Market estimates & forecasts, 2015-2025 (USD Billion)

8.6.2.2. Application breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.6.2.3. RNA Type breakdown estimates & forecasts, 2015-2025 (USD Billion)

8.6.2.4. End-Use breakdown estimates & forecasts, 2015-2025 (USD Billion)

Chapter 9.           Competitive Intelligence

9.1.         Company Market Share (Subject to Data Availability)

9.2.         Top Market Strategies

9.3.         Company Profiles

9.3.1.     Genemed Biotechnologies, Inc.,

9.3.1.1. Overview

9.3.1.2. Financial (Subject to Data Availability)

9.3.1.3. Product Summary

9.3.1.4. Recent Developments

9.3.2.     Oxford Gene Technologies

9.3.3.     Abnova Corporation,

9.3.4.     Life Science Technologies

9.3.5.     AffymetrixPanomics

9.3.6.     PerkinElmer Inc.

9.3.7.     Biosearch Technologies Inc

9.3.8.     Horizon Diagnostics

9.3.9.     F. Hoffmann-La Roche AG

9.3.10.   EXIQON

The research for Global Fluorescent In Situ Hybridization (FISH) Probe Market focuses deeply on the entire value chain of the market. However, the market size estimates are purely based on the consumer side of the value chain wherein the market sizes have been calculated by analyzing the average demand for Fluorescent In Situ Hybridization (FISH) Probe across various applications.

The revenue for Global Fluorescent In Situ Hybridization (FISH) Probe Market is calculated as sum market sizes of different segments such as application, RNA Type, End-Use, and regions. Further, some other key data points considered to calculate the revenue for Global Fluorescent In Situ Hybridization (FISH) Probe Market includes:

  • Revenues from key companies
  • Key company market share analysis
  • Consumer spending analysis
  • Regional export and import analysis
  • Sales revenue generated by various applications in different geographies

An extensive primary and secondary research has been conducted on key industry people, through questionnaires, telephonic conversations, email conversations, and interviews to verify the market estimations. Various government websites/portals and paid data sources are considered as a key source of secondary research.

We utilize a combination of bottom-up & top-down methodology for market estimations & forecasts. Additionally, we employ data triangulation techniques to verify each of the market estimates and forecasts through primary interviews and feedbacks.

All the estimates are derived from simulation models which is our proprietary technique. Each of these models is different from each other are a combination of correlation, regression and time series analysis. Each of these models is basically divided into two types namely economic and technological. Economical models are used to determine short-term market estimates and technological models are used for long-term estimates & forecasts. 


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