世界各国のリアルタイムなデータ・インテリジェンスで皆様をお手伝い

インサイチュハイブリダイゼーション市場規模、シェア、動向分析レポート:技術別(FISH、CISH)、プローブタイプ別(DNA、RNA)、製品別(装置、消耗品・アクセサリ、ソフトウェア、サービス)、用途別、最終用途別、地域別、およびセグメント別予測、2024年~2030年


In Situ Hybridization Market Size, Share & Trends Analysis Report By Technology (FISH, CISH), By Probe Type (DNA, RNA), By Product (Instrument, Consumables & Accessories, Software, Services), By Application, By End-use, By Region, And Segment Forecasts, 2024 - 2030

インサイチュ・ハイブリダイゼーション市場の成長と動向 Grand View Research, Inc.の最新レポートによると、in situハイブリダイゼーションの世界市場規模は、予測期間中にCAGR 7.2%を記録し、2030年までに2... もっと見る

 

 

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Grand View Research
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2023年12月12日 US$5,950
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サマリー

インサイチュ・ハイブリダイゼーション市場の成長と動向

Grand View Research, Inc.の最新レポートによると、in situハイブリダイゼーションの世界市場規模は、予測期間中にCAGR 7.2%を記録し、2030年までに25億5000万米ドルに達すると予測されている。その場ハイブリダイゼーション(ISH)は、診断の研究および臨床応用に広く利用されている。ISHは、特定の核酸の分布と標的遺伝子タンパク質産物との関係を決定するのに役立つため、研究者の間で人気のあるアプローチである。それゆえ、ISHの応用範囲の拡大は加速しており、さらなる研究につながっている。

ISH技術とその使用法についての認知度の高まりは、研究者が様々な用途にISH技術を採用することを後押ししている。例えば、MultiplexDXのCEOはElsevierとのインタビューで、FISH技術は早期薬剤開発や個別化治療のための画期的な情報に貢献できると述べている。先進国では意識の高まりから個別化治療を選択する人が増えており、市場の需要を押し上げている。

さらに、先進国では保険償還制度が利用できるようになり、この診断に対する需要が増加している。最近の保険適用拡大により、国民の大多数が治療を受けられるようになったため、需要は増加の一途をたどっている。例えば、米国ではメディケアが最大の市場プレイヤーであり、所得や病歴に関係なく65歳以上の高齢者に治療を提供している。

COVID-19の大流行により、様々な研究者がCOVID-19感染細胞にISH技術を採用したため、需要サイドはISH市場に好影響を示した。2020年7月に発表された研究では、COVID-19感染患者の剖検肺8例、腎生検10例、胎盤1例をISHアッセイとRNAプローブで検討した。

COVID-19陽性の結果は、ISHによって8つの肺すべてと胎盤で示されたが、腎臓サンプルでは示されなかった。このアッセイは、組織サンプルからウイルスを検出する高感度で特異的な技術を示すものである。同様に、Advanced Cell Diagnostics, Inc.はCOVID-19研究をサポートするRNAscope技術を導入した。

各社の戦略的イニシアチブの高まりがISH市場の成長を後押しすると予想される。主要企業はポートフォリオを強化するため、市場に新製品を投入している。例えば、2021年3月、F.ホフマン・ラ・ロシュは、in situハイブリダイゼーションと免疫組織化学の多重化機能を拡張するDISCOVERY Green HRP発色検出キットを発売した。

一方、分子診断学は正確で効果的な結果を提供し、診断の分野で不可欠なアプリケーションである。しかし、FISHアッセイの製造コストが高く、FISHイメージングに使用される専門的な組立工場や機器のメンテナンスに多額の資本が必要なため、収益創出が制限される可能性が高い。

インサイチュハイブリダイゼーション市場レポートハイライト

- 技術別では、CISH分野が予測期間中に最も速い成長率で拡大すると予測される。CISHで使用される試薬はより安定しているため、サンプルはより長期間保存でき、複数回の検査が可能である。

- プローブ別では、DNAセグメントが予測期間中に最も速い成長率を示すと予測される。遺伝子異常やがんなど、染色体異常に関連する疾患の発生率が増加しているためである。

- 製品別では、サービス分野が2024年から2030年にかけてCAGRが最も急速に成長すると予測される。品質基準を確実に守り、業務機能を向上させるためのアウトソーシングの増加が、有利な成長に寄与している。

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目次

Table of Contents

Chapter 1. Methodology and Scope
1.1. Market Segmentation
1.1.1. Market Definitions
1.2. Objectives
1.2.1. Objective - 1
1.2.2. Objective - 2
1.2.3. Objective - 3
1.3. Research Methodology
1.4. Information Procurement
1.4.1. Purchased Database
1.4.2. GVR’s Internal Database
1.4.3. Secondary Sources
1.4.4. Primary Research
1.5. Information or Data Analysis
1.5.1. Data Analysis Models
1.6. Market Formulation & Validation
1.7. Model Details
1.7.1. Commodity Flow Analysis
1.8. List of Secondary Sources
1.9. List of Abbreviations
1.10. List of Primary Sources
Chapter 2. Executive Summary
2.1. Market Snapshot
2.2. Segment Snapshot
2.3. Competitive Landscape Snapshot
Chapter 3. Market Variables, Trends, & Scope
3.1. Market Segmentation and Scope
3.2. Market Lineage Outlook
3.2.1. Parent Market Outlook
3.2.2. Related/Ancillary Market Outlook
3.3. Market Trends and Outlook
3.4. Market Dynamics
3.4.1. Rising Prevalence of Target Disorders
3.4.2. Technological Advancement In the Field of In Vitro Diagnostics
3.4.3. Increasing R&D Investments In In Vitro Diagnostics
3.5. Market Restraint Analysis
3.5.1. High Cost of ISH
3.5.2. Presence of An Ambiguous Regulatory Framework
3.6. Penetration and Growth Prospect Mapping 2023
3.7. Business Environment Analysis
3.7.1. SWOT Analysis; By Factor (Political & Legal, Economic And Technological)
3.7.2. Porter’s Five Forces Analysis
Chapter 4. Technology Business Analysis
4.1. In Situ Hybridization Market: Product Type Movement Analysis
4.2. FISH
4.2.1. FISH Market, 2018 - 2030 (USD Million)
4.3. CISH
4.3.1. CISH Market, 2018 - 2030 (USD Million)
Chapter 5. Probe Business Analysis
5.1. In Situ Hybridization Market: Site Movement Analysis
5.2. DNA
5.2.1. DNA Market, 2018 - 2030 (USD Million)
5.3. RNA
5.3.1. RNA Market, 2018 - 2030 (USD Million)
Chapter 6. Product Business Analysis
6.1. In Situ Hybridization Market: Site Movement Analysis
6.2. Instruments
6.2.1. Instruments Market, 2018 - 2030 (USD Million)
6.3. Consumables & Accessories
6.3.1. Consumables & Accessories Market, 2018 - 2030 (USD Million)
6.4. Software
6.4.1. Software Market, 2018 - 2030 (USD Million)
6.5. Services
6.5.1. Services Market, 2018 - 2030 (USD Million)
Chapter 7. Application Business Analysis
7.1. In Situ Hybridization Market: Product Type Movement Analysis
7.2. Cancer
7.2.1. Cancer Market, 2018 - 2030 (USD Million)
7.3. Cytogenetics
7.3.1. Cytogenetics Market, 2018 - 2030 (USD Million)
7.4. Developmental Biology
7.4.1. Developmental Biology Market, 2018 - 2030 (USD Million)
7.5. Infectious Diseases
7.5.1. Infectious Diseases Market, 2018 - 2030 (USD Million)
7.6. Others
7.6.1. Others Market, 2018 - 2030 (USD Million)
Chapter 8. End-use Business Analysis
8.1. In Situ Hybridization Market: End-use Movement Analysis
8.2. Hospitals & Diagnostic Laboratories
8.2.1. Hospitals & Diagnostic Laboratories Market, 2018 - 2030 (USD Million)
8.3. CROs
8.3.1. CROs Market, 2018 - 2030 (USD Million)
8.4. Academic & Research Institutes
8.4.1. Academic & Research Institutes Market, 2018 - 2030 (USD Million)
8.5. Others
8.5.1. Others Market, 2018 - 2030 (USD Million)
Chapter 9. Regional Business Analysis
9.1. In Situ Hybridization Market Share By Region, 2023 & 2030
9.2. North America
9.2.1. SWOT Analysis
9.2.2. North America In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.2.3. U.S.
9.2.3.1. Key Country Dynamics
9.2.3.2. Target Disease Scenario
9.2.3.3. Competitive Scenario
9.2.3.4. Regulatory Framework
9.2.3.5. Reimbursement Scenario
9.2.3.6. U.S. In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.2.4. Canada
9.2.4.1. Key Country Dynamics
9.2.4.2. Target Disease Scenario
9.2.4.3. Competitive Scenario
9.2.4.4. Regulatory Framework
9.2.4.5. Reimbursement Scenario
9.2.4.6. Canada In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3. Europe
9.3.1. SWOT Analysis
9.3.2. Europe In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.3. Germany
9.3.3.1. Key Country Dynamics
9.3.3.2. Target Disease Scenario
9.3.3.3. Competitive Scenario
9.3.3.4. Regulatory Framework
9.3.3.5. Reimbursement Scenario
9.3.3.6. Germany In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.4. UK
9.3.4.1. Key Country Dynamics
9.3.4.2. Target Disease Scenario
9.3.4.3. Competitive Scenario
9.3.4.4. Regulatory Framework
9.3.4.5. Reimbursement Scenario
9.3.4.6. UK In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.5. France
9.3.5.1. Key Country Dynamics
9.3.5.2. Target Disease Scenario
9.3.5.3. Competitive Scenario
9.3.5.4. Regulatory Framework
9.3.5.5. Reimbursement Scenario
9.3.5.6. France In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.6. Italy
9.3.6.1. Key Country Dynamics
9.3.6.2. Target Disease Scenario
9.3.6.3. Competitive Scenario
9.3.6.4. Regulatory Framework
9.3.6.5. Reimbursement Scenario
9.3.6.6. Italy In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.7. Spain
9.3.7.1. Key Country Dynamics
9.3.7.2. Target Disease Scenario
9.3.7.3. Competitive Scenario
9.3.7.4. Regulatory Framework
9.3.7.5. Reimbursement Scenario
9.3.7.6. Spain In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.8. Denmark
9.3.8.1. Key Country Dynamics
9.3.8.2. Target Disease Scenario
9.3.8.3. Competitive Scenario
9.3.8.4. Regulatory Framework
9.3.8.5. Reimbursement Scenario
9.3.8.6. Denmark In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.9. Sweden
9.3.9.1. Key Country Dynamics
9.3.9.2. Target Disease Scenario
9.3.9.3. Competitive Scenario
9.3.9.4. Regulatory Framework
9.3.9.5. Reimbursement Scenario
9.3.9.6. Sweden In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.10. Norway
9.3.10.1. Key Country Dynamics
9.3.10.2. Target Disease Scenario
9.3.10.3. Competitive Scenario
9.3.10.4. Regulatory Framework
9.3.10.5. Reimbursement Scenario
9.3.10.6. Norway In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4. Asia Pacific
9.4.1. SWOT Analysis
9.4.2. Asia Pacific In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.3. Japan
9.4.3.1. Key Country Dynamics
9.4.3.2. Target Disease Scenario
9.4.3.3. Competitive Scenario
9.4.3.4. Regulatory Framework
9.4.3.5. Reimbursement Scenario
9.4.3.6. Japan In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.4. China
9.4.4.1. Key Country Dynamics
9.4.4.2. Target Disease Scenario
9.4.4.3. Competitive Scenario
9.4.4.4. Regulatory Framework
9.4.4.5. Reimbursement Scenario
9.4.4.6. China In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.5. India
9.4.5.1. Key Country Dynamics
9.4.5.2. Target Disease Scenario
9.4.5.3. Competitive Scenario
9.4.5.4. Regulatory Framework
9.4.5.5. Reimbursement Scenario
9.4.5.6. India In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.6. South Korea
9.4.6.1. Key Country Dynamics
9.4.6.2. Target Disease Scenario
9.4.6.3. Competitive Scenario
9.4.6.4. Regulatory Framework
9.4.6.5. Reimbursement Scenario
9.4.6.6. South Korea In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.7. Australia
9.4.7.1. Key Country Dynamics
9.4.7.2. Target Disease Scenario
9.4.7.3. Competitive Scenario
9.4.7.4. Regulatory Framework
9.4.7.5. Reimbursement Scenario
9.4.7.6. Australia In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.8. Thailand
9.4.8.1. Key Country Dynamics
9.4.8.2. Target Disease Scenario
9.4.8.3. Competitive Scenario
9.4.8.4. Regulatory Framework
9.4.8.5. Reimbursement Scenario
9.4.8.6. Thailand In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5. Latin America
9.5.1. SWOT Analysis
9.5.2. Latin America In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5.3. Brazil
9.5.3.1. Key Country Dynamics
9.5.3.2. Target Disease Scenario
9.5.3.3. Competitive Scenario
9.5.3.4. Regulatory Framework
9.5.3.5. Reimbursement Scenario
9.5.3.6. Brazil In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5.4. Mexico
9.5.4.1. Key Country Dynamics
9.5.4.2. Target Disease Scenario
9.5.4.3. Competitive Scenario
9.5.4.4. Regulatory Framework
9.5.4.5. Reimbursement Scenario
9.5.4.6. Mexico In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5.5. Argentina
9.5.5.1. Key Country Dynamics
9.5.5.2. Target Disease Scenario
9.5.5.3. Competitive Scenario
9.5.5.4. Regulatory Framework
9.5.5.5. Reimbursement Scenario
9.5.5.6. Argentina In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6. MEA
9.6.1. SWOT Analysis
9.6.2. MEA In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.3. South Africa
9.6.3.1. Key Country Dynamics
9.6.3.2. Target Disease Scenario
9.6.3.3. Competitive Scenario
9.6.3.4. Regulatory Framework
9.6.3.5. Reimbursement Scenario
9.6.3.6. South Africa In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.4. Saudi Arabia
9.6.4.1. Key Country Dynamics
9.6.4.2. Target Disease Scenario
9.6.4.3. Competitive Scenario
9.6.4.4. Regulatory Framework
9.6.4.5. Reimbursement Scenario
9.6.4.6. Saudi Arabia In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.5. UAE
9.6.5.1. Key Country Dynamics
9.6.5.2. Target Disease Scenario
9.6.5.3. Competitive Scenario
9.6.5.4. Regulatory Framework
9.6.5.5. Reimbursement Scenario
9.6.5.6. UAE In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.6. Kuwait
9.6.6.1. Key Country Dynamics
9.6.6.2. Target Disease Scenario
9.6.6.3. Competitive Scenario
9.6.6.4. Regulatory Framework
9.6.6.5. Reimbursement Scenario
9.6.6.6. Kuwait In Situ Hybridization Market, 2018 - 2030 (USD Million)
Chapter 10. Competitive Landscape
10.1. Company Categorization
10.2. Strategy Mapping
10.2.1. New Product Launch
10.2.2. Partnerships
10.2.3. Acquisition
10.2.4. Collaboration
10.2.5. Funding
10.3. Key Company Market Share Analysis, 2023
10.4. Company Heat Map Analysis
10.5. Company Profiles
10.5.1. . PerkinElmer, Inc.
10.5.1.1. Company Overview
10.5.1.2. Financial Performance
10.5.1.3. Product Benchmarking
10.5.1.4. Strategic Initiatives
10.5.2. Thermo Fisher Scientific, Inc.
10.5.2.1. Company Overview
10.5.2.2. Financial Performance
10.5.2.3. Product Benchmarking
10.5.2.4. Strategic Initiatives
10.5.3. BioView
10.5.3.1. Company Overview
10.5.3.2. Financial Performance
10.5.3.3. Product Benchmarking
10.5.3.4. Strategic Initiatives
10.5.4. Agilent Technologies, Inc.
10.5.4.1. Company Overview
10.5.4.2. Financial Performance
10.5.4.3. Product Benchmarking
10.5.4.4. Strategic Initiatives
10.5.5. Merck KGaA
10.5.5.1. Company Overview
10.5.5.2. Financial Performance
10.5.5.3. Product Benchmarking
10.5.5.4. Strategic Initiatives
10.5.6. Bio-Rad Laboratories, Inc.
10.5.6.1. Company Overview
10.5.6.2. Financial Performance
10.5.6.3. Product Benchmarking
10.5.6.4. Strategic Initiatives
10.5.7. OXFORD GENE TECHNOLOGY IP LIMITED
10.5.7.1. Financial Performance
10.5.7.2. Product Benchmarking
10.5.7.3. Strategic Initiatives
10.5.8. LEICA BIOSYSTEMS NUSSLOCH GMBH (DANAHER CORPORATION)
10.5.8.1. Company Overview
10.5.8.2. Financial Performance
10.5.8.3. Product Benchmarking
10.5.8.4. Strategic Initiatives
10.5.9. NEOGENOMICS LABORATORIES, INC.
10.5.9.1. Financial Performance
10.5.9.2. Product Benchmarking
10.5.9.3. Strategic Initiatives
10.5.10. ADVANCED CELL DIAGNOSTICS, INC.
10.5.10.1. Company Overview
10.5.10.2. Financial Performance
10.5.10.3. Product Benchmarking
10.5.10.4. Strategic Initiatives

 

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Summary

In Situ Hybridization Market Growth & Trends

The global in situ hybridization market size is expected to reach USD 2.55 billion by 2030, registering a CAGR of 7.2% during the forecast period, according to a new report by Grand View Research, Inc. Situ Hybridization (ISH) is extensively utilized for research and clinical applications of diagnostics. ISH is a popular approach among researchers as it aids in determining the relationship between the distribution of specific nucleic acids and the target gene protein products. Hence, expanding the scope of ISH in applications is accelerating and leading to further research.

The increasing awareness about ISH techniques and their usage encourages researchers to employ the techniques for various applications. For instance, the CEO of MultiplexDX stated in an interview with Elsevier that FISH technology can contribute breakthrough information for early drug development and personalized treatment. A growing number of people in developed countries are opting for personalized treatment owing to an increase in awareness, thus boosting market demand.

Furthermore, reimbursement schemes being made available in developed economies have led to an increase in demand for this diagnosis. The demand continues to increase as the majority of the public can now afford it due to the recent expansion through insurance coverage. For instance, Medicare is the largest market player in the U.S., which provides care for those aged 65 years and above, irrespective of their income and medical history.

Owing to the COVID-19 pandemic, the demand side showcased a positive impact on the ISH market as various researchers employed the technique on COVID-19-infected cells. Research published in July 2020, considered 8 autopsy lungs, 10 kidney biopsies, and 1 placenta from COVID-19-infected patients with ISH assay and RNA probes.

COVID-19 positive results showed in all 8 lungs and the placenta by ISH, but not in the kidney samples. The assay showcases a sensitive and specific technique for detecting the virus from tissue samples. Similarly, Advanced Cell Diagnostics, Inc., introduced RNAscope technology to support COVID-19 research.

The growing strategic initiatives by the companies are anticipated to boost the ISH market growth. Key players are introducing novel products in the market to strengthen their portfolios. For instance, in March 2021, F. Hoffmann-La Roche launched DISCOVERY Green HRP chromogen detection kit to expand the multiplexing capability of in situ hybridization and immunohistochemistry.

On the other hand, molecular diagnostics renders accurate & effective results and has indispensable applications in the field of diagnosis. However, the high manufacturing cost of FISH assays and the high amount of capital required for specialized assembly plants & maintenance of instruments used in FISH imaging are likely to limit revenue generation.

In Situ Hybridization Market Report Highlights

• By technology, the CISH segment is projected to expand at the fastest growth rate during the forecast period. Since the reagents used in CISH are more stable, the sample can be stored for a longer duration and can be examined multiple times

• By probe, the DNA segment is anticipated to have the fastest growth rate during the forecast period. Owing to the increasing incidence of diseases associated with chromosomal aberrations, such as genetic abnormalities and cancer

• By product, the services segment is anticipated to have the fastest-growing CAGR between 2024 to 2030. Increasing outsourcing to ensure high adherence to quality standards and improve operational functionalities contributes to the lucrative growth.



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Table of Contents

Table of Contents

Chapter 1. Methodology and Scope
1.1. Market Segmentation
1.1.1. Market Definitions
1.2. Objectives
1.2.1. Objective - 1
1.2.2. Objective - 2
1.2.3. Objective - 3
1.3. Research Methodology
1.4. Information Procurement
1.4.1. Purchased Database
1.4.2. GVR’s Internal Database
1.4.3. Secondary Sources
1.4.4. Primary Research
1.5. Information or Data Analysis
1.5.1. Data Analysis Models
1.6. Market Formulation & Validation
1.7. Model Details
1.7.1. Commodity Flow Analysis
1.8. List of Secondary Sources
1.9. List of Abbreviations
1.10. List of Primary Sources
Chapter 2. Executive Summary
2.1. Market Snapshot
2.2. Segment Snapshot
2.3. Competitive Landscape Snapshot
Chapter 3. Market Variables, Trends, & Scope
3.1. Market Segmentation and Scope
3.2. Market Lineage Outlook
3.2.1. Parent Market Outlook
3.2.2. Related/Ancillary Market Outlook
3.3. Market Trends and Outlook
3.4. Market Dynamics
3.4.1. Rising Prevalence of Target Disorders
3.4.2. Technological Advancement In the Field of In Vitro Diagnostics
3.4.3. Increasing R&D Investments In In Vitro Diagnostics
3.5. Market Restraint Analysis
3.5.1. High Cost of ISH
3.5.2. Presence of An Ambiguous Regulatory Framework
3.6. Penetration and Growth Prospect Mapping 2023
3.7. Business Environment Analysis
3.7.1. SWOT Analysis; By Factor (Political & Legal, Economic And Technological)
3.7.2. Porter’s Five Forces Analysis
Chapter 4. Technology Business Analysis
4.1. In Situ Hybridization Market: Product Type Movement Analysis
4.2. FISH
4.2.1. FISH Market, 2018 - 2030 (USD Million)
4.3. CISH
4.3.1. CISH Market, 2018 - 2030 (USD Million)
Chapter 5. Probe Business Analysis
5.1. In Situ Hybridization Market: Site Movement Analysis
5.2. DNA
5.2.1. DNA Market, 2018 - 2030 (USD Million)
5.3. RNA
5.3.1. RNA Market, 2018 - 2030 (USD Million)
Chapter 6. Product Business Analysis
6.1. In Situ Hybridization Market: Site Movement Analysis
6.2. Instruments
6.2.1. Instruments Market, 2018 - 2030 (USD Million)
6.3. Consumables & Accessories
6.3.1. Consumables & Accessories Market, 2018 - 2030 (USD Million)
6.4. Software
6.4.1. Software Market, 2018 - 2030 (USD Million)
6.5. Services
6.5.1. Services Market, 2018 - 2030 (USD Million)
Chapter 7. Application Business Analysis
7.1. In Situ Hybridization Market: Product Type Movement Analysis
7.2. Cancer
7.2.1. Cancer Market, 2018 - 2030 (USD Million)
7.3. Cytogenetics
7.3.1. Cytogenetics Market, 2018 - 2030 (USD Million)
7.4. Developmental Biology
7.4.1. Developmental Biology Market, 2018 - 2030 (USD Million)
7.5. Infectious Diseases
7.5.1. Infectious Diseases Market, 2018 - 2030 (USD Million)
7.6. Others
7.6.1. Others Market, 2018 - 2030 (USD Million)
Chapter 8. End-use Business Analysis
8.1. In Situ Hybridization Market: End-use Movement Analysis
8.2. Hospitals & Diagnostic Laboratories
8.2.1. Hospitals & Diagnostic Laboratories Market, 2018 - 2030 (USD Million)
8.3. CROs
8.3.1. CROs Market, 2018 - 2030 (USD Million)
8.4. Academic & Research Institutes
8.4.1. Academic & Research Institutes Market, 2018 - 2030 (USD Million)
8.5. Others
8.5.1. Others Market, 2018 - 2030 (USD Million)
Chapter 9. Regional Business Analysis
9.1. In Situ Hybridization Market Share By Region, 2023 & 2030
9.2. North America
9.2.1. SWOT Analysis
9.2.2. North America In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.2.3. U.S.
9.2.3.1. Key Country Dynamics
9.2.3.2. Target Disease Scenario
9.2.3.3. Competitive Scenario
9.2.3.4. Regulatory Framework
9.2.3.5. Reimbursement Scenario
9.2.3.6. U.S. In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.2.4. Canada
9.2.4.1. Key Country Dynamics
9.2.4.2. Target Disease Scenario
9.2.4.3. Competitive Scenario
9.2.4.4. Regulatory Framework
9.2.4.5. Reimbursement Scenario
9.2.4.6. Canada In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3. Europe
9.3.1. SWOT Analysis
9.3.2. Europe In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.3. Germany
9.3.3.1. Key Country Dynamics
9.3.3.2. Target Disease Scenario
9.3.3.3. Competitive Scenario
9.3.3.4. Regulatory Framework
9.3.3.5. Reimbursement Scenario
9.3.3.6. Germany In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.4. UK
9.3.4.1. Key Country Dynamics
9.3.4.2. Target Disease Scenario
9.3.4.3. Competitive Scenario
9.3.4.4. Regulatory Framework
9.3.4.5. Reimbursement Scenario
9.3.4.6. UK In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.5. France
9.3.5.1. Key Country Dynamics
9.3.5.2. Target Disease Scenario
9.3.5.3. Competitive Scenario
9.3.5.4. Regulatory Framework
9.3.5.5. Reimbursement Scenario
9.3.5.6. France In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.6. Italy
9.3.6.1. Key Country Dynamics
9.3.6.2. Target Disease Scenario
9.3.6.3. Competitive Scenario
9.3.6.4. Regulatory Framework
9.3.6.5. Reimbursement Scenario
9.3.6.6. Italy In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.7. Spain
9.3.7.1. Key Country Dynamics
9.3.7.2. Target Disease Scenario
9.3.7.3. Competitive Scenario
9.3.7.4. Regulatory Framework
9.3.7.5. Reimbursement Scenario
9.3.7.6. Spain In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.8. Denmark
9.3.8.1. Key Country Dynamics
9.3.8.2. Target Disease Scenario
9.3.8.3. Competitive Scenario
9.3.8.4. Regulatory Framework
9.3.8.5. Reimbursement Scenario
9.3.8.6. Denmark In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.9. Sweden
9.3.9.1. Key Country Dynamics
9.3.9.2. Target Disease Scenario
9.3.9.3. Competitive Scenario
9.3.9.4. Regulatory Framework
9.3.9.5. Reimbursement Scenario
9.3.9.6. Sweden In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.3.10. Norway
9.3.10.1. Key Country Dynamics
9.3.10.2. Target Disease Scenario
9.3.10.3. Competitive Scenario
9.3.10.4. Regulatory Framework
9.3.10.5. Reimbursement Scenario
9.3.10.6. Norway In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4. Asia Pacific
9.4.1. SWOT Analysis
9.4.2. Asia Pacific In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.3. Japan
9.4.3.1. Key Country Dynamics
9.4.3.2. Target Disease Scenario
9.4.3.3. Competitive Scenario
9.4.3.4. Regulatory Framework
9.4.3.5. Reimbursement Scenario
9.4.3.6. Japan In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.4. China
9.4.4.1. Key Country Dynamics
9.4.4.2. Target Disease Scenario
9.4.4.3. Competitive Scenario
9.4.4.4. Regulatory Framework
9.4.4.5. Reimbursement Scenario
9.4.4.6. China In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.5. India
9.4.5.1. Key Country Dynamics
9.4.5.2. Target Disease Scenario
9.4.5.3. Competitive Scenario
9.4.5.4. Regulatory Framework
9.4.5.5. Reimbursement Scenario
9.4.5.6. India In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.6. South Korea
9.4.6.1. Key Country Dynamics
9.4.6.2. Target Disease Scenario
9.4.6.3. Competitive Scenario
9.4.6.4. Regulatory Framework
9.4.6.5. Reimbursement Scenario
9.4.6.6. South Korea In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.7. Australia
9.4.7.1. Key Country Dynamics
9.4.7.2. Target Disease Scenario
9.4.7.3. Competitive Scenario
9.4.7.4. Regulatory Framework
9.4.7.5. Reimbursement Scenario
9.4.7.6. Australia In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.4.8. Thailand
9.4.8.1. Key Country Dynamics
9.4.8.2. Target Disease Scenario
9.4.8.3. Competitive Scenario
9.4.8.4. Regulatory Framework
9.4.8.5. Reimbursement Scenario
9.4.8.6. Thailand In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5. Latin America
9.5.1. SWOT Analysis
9.5.2. Latin America In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5.3. Brazil
9.5.3.1. Key Country Dynamics
9.5.3.2. Target Disease Scenario
9.5.3.3. Competitive Scenario
9.5.3.4. Regulatory Framework
9.5.3.5. Reimbursement Scenario
9.5.3.6. Brazil In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5.4. Mexico
9.5.4.1. Key Country Dynamics
9.5.4.2. Target Disease Scenario
9.5.4.3. Competitive Scenario
9.5.4.4. Regulatory Framework
9.5.4.5. Reimbursement Scenario
9.5.4.6. Mexico In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.5.5. Argentina
9.5.5.1. Key Country Dynamics
9.5.5.2. Target Disease Scenario
9.5.5.3. Competitive Scenario
9.5.5.4. Regulatory Framework
9.5.5.5. Reimbursement Scenario
9.5.5.6. Argentina In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6. MEA
9.6.1. SWOT Analysis
9.6.2. MEA In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.3. South Africa
9.6.3.1. Key Country Dynamics
9.6.3.2. Target Disease Scenario
9.6.3.3. Competitive Scenario
9.6.3.4. Regulatory Framework
9.6.3.5. Reimbursement Scenario
9.6.3.6. South Africa In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.4. Saudi Arabia
9.6.4.1. Key Country Dynamics
9.6.4.2. Target Disease Scenario
9.6.4.3. Competitive Scenario
9.6.4.4. Regulatory Framework
9.6.4.5. Reimbursement Scenario
9.6.4.6. Saudi Arabia In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.5. UAE
9.6.5.1. Key Country Dynamics
9.6.5.2. Target Disease Scenario
9.6.5.3. Competitive Scenario
9.6.5.4. Regulatory Framework
9.6.5.5. Reimbursement Scenario
9.6.5.6. UAE In Situ Hybridization Market, 2018 - 2030 (USD Million)
9.6.6. Kuwait
9.6.6.1. Key Country Dynamics
9.6.6.2. Target Disease Scenario
9.6.6.3. Competitive Scenario
9.6.6.4. Regulatory Framework
9.6.6.5. Reimbursement Scenario
9.6.6.6. Kuwait In Situ Hybridization Market, 2018 - 2030 (USD Million)
Chapter 10. Competitive Landscape
10.1. Company Categorization
10.2. Strategy Mapping
10.2.1. New Product Launch
10.2.2. Partnerships
10.2.3. Acquisition
10.2.4. Collaboration
10.2.5. Funding
10.3. Key Company Market Share Analysis, 2023
10.4. Company Heat Map Analysis
10.5. Company Profiles
10.5.1. . PerkinElmer, Inc.
10.5.1.1. Company Overview
10.5.1.2. Financial Performance
10.5.1.3. Product Benchmarking
10.5.1.4. Strategic Initiatives
10.5.2. Thermo Fisher Scientific, Inc.
10.5.2.1. Company Overview
10.5.2.2. Financial Performance
10.5.2.3. Product Benchmarking
10.5.2.4. Strategic Initiatives
10.5.3. BioView
10.5.3.1. Company Overview
10.5.3.2. Financial Performance
10.5.3.3. Product Benchmarking
10.5.3.4. Strategic Initiatives
10.5.4. Agilent Technologies, Inc.
10.5.4.1. Company Overview
10.5.4.2. Financial Performance
10.5.4.3. Product Benchmarking
10.5.4.4. Strategic Initiatives
10.5.5. Merck KGaA
10.5.5.1. Company Overview
10.5.5.2. Financial Performance
10.5.5.3. Product Benchmarking
10.5.5.4. Strategic Initiatives
10.5.6. Bio-Rad Laboratories, Inc.
10.5.6.1. Company Overview
10.5.6.2. Financial Performance
10.5.6.3. Product Benchmarking
10.5.6.4. Strategic Initiatives
10.5.7. OXFORD GENE TECHNOLOGY IP LIMITED
10.5.7.1. Financial Performance
10.5.7.2. Product Benchmarking
10.5.7.3. Strategic Initiatives
10.5.8. LEICA BIOSYSTEMS NUSSLOCH GMBH (DANAHER CORPORATION)
10.5.8.1. Company Overview
10.5.8.2. Financial Performance
10.5.8.3. Product Benchmarking
10.5.8.4. Strategic Initiatives
10.5.9. NEOGENOMICS LABORATORIES, INC.
10.5.9.1. Financial Performance
10.5.9.2. Product Benchmarking
10.5.9.3. Strategic Initiatives
10.5.10. ADVANCED CELL DIAGNOSTICS, INC.
10.5.10.1. Company Overview
10.5.10.2. Financial Performance
10.5.10.3. Product Benchmarking
10.5.10.4. Strategic Initiatives

 

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