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フローサイトメトリー市場:コンポーネント別(装置、試薬・消耗品、ソフトウェア、サービス)、技術別(セルベースフローサイトメトリー、ビーズベースフローサイトメトリー)、用途別(学術・臨床用途、診断用途)、エンドユーザー別(病院、医学部・臨床検査機関、商業施設、学術機関、その他)。世界の機会分析および産業予測、2021-2031年


Flow Cytometry Market By Component (Instruments, Reagents and consumables, Software, Services), By Technology (Cell based flow cytometry, Bead based flow cytometry), By Application (Academic and clinical applications, Diagnostic applications), By End User (Hospitals, Medical schools and clinical testing labs, Commercial organizations, Academic institutions, Others): Global Opportunity Analysis and Industry Forecast, 2021-2031

フローサイトメトリー市場は2021年に46億9580万ドル、2031年には104億2160万ドルに達すると予測され、2022年から2031年までのCAGRは8.3%を記録しています。 フローサイトメトリーは、液体中に浮遊する細胞や粒子... もっと見る

 

 

出版社 出版年月 電子版価格 ページ数 言語
Allied Market Research
アライドマーケットリサーチ
2022年6月30日 US$5,769
シングルユーザライセンス
ライセンス・価格情報
注文方法はこちら
279 英語

日本語のページは自動翻訳を利用し作成しています。
実際のレポートは英文のみでご納品いたします。


 

サマリー

フローサイトメトリー市場は2021年に46億9580万ドル、2031年には104億2160万ドルに達すると予測され、2022年から2031年までのCAGRは8.3%を記録しています。
フローサイトメトリーは、液体中に浮遊する細胞や粒子にレーザービームを照射し、その物理的特性を測定・分析する生物物理学的なレーザーベースの分析技術である。フローサイトメトリーは、ELISAなどの従来の分析法と比較して、ほぼ同価格で精密かつ正確な結果を得ることができ、時間消費も少ないという様々な利点がある。フローサイトメトリー技術は、がん、HIV、血液腫瘍などの疾病診断や学術・臨床研究など、さまざまな分野で広く利用されています。HIVや癌の患者数が増加し、病院や診断センターでのフローサイトメトリーの使用が増加したことにより、疾患の効果的な診断やモニタリングにおけるフローサイトメトリーのニーズが高まっています。
フローサイトメトリー市場の成長を促進する主な要因としては、技術的進歩や様々な研究・診断アプリケーションにおける高い採用が挙げられます。また、サイトジェノミクス、プロテオミクス、海洋生物学などの新しい研究アプリケーションにおけるフローサイトメトリー技術の出現は、市場の成長をさらに補うものとなっています。さらに、がんやHIVなどの疾病の増加により、診断アプリケーションにおけるフローサイトメトリー技術の採用が進むと予想されます。しかし、装置や試薬にかかるコストの高さ、潜在的なエンドユーザーの認識不足、技術的専門知識の不足といった要因が、市場成長の妨げになると予想されています。創薬・開発および診断分野でのフローサイトメトリーの利用は、多くの成長機会をもたらすと期待されています。
フローサイトメトリー市場は、コンポーネント、テクノロジー、アプリケーション、エンドユーザー、地域に基づいて区分されます。コンポーネント別では、フローサイトメトリー市場は、インスツルメント、試薬・消耗品、ソフトウェア、サービスに分類されます。インスツルメントセグメントはさらに、プラットフォーム、交換可能なコンポーネント、アクセサリーに分類されます。プラットフォームは、さらにソーターとアナライザーに分類されます。交換可能なコンポーネントの種類としては、フィルター、レーザー、検出器、その他が挙げられます。試薬市場はさらに、抗体、染料、ビーズ、その他に分類されます。技術別では、セルベースフローサイトメトリーとビーズベースフローサイトメトリーに分類されます。アプリケーション別では、学術・臨床アプリケーションと診断アプリケーションに区分されます。学術・臨床応用分野は、さらに細胞周期解析および細胞増殖、アポトーシス、セルソーティング、トランスフェクトイオンおよび細胞生存率、その他に区分されます。診断用途では、さらに臓器移植、血液学的悪性腫瘍、HIV、固形癌、その他に分類される。エンドユーザー別では、病院、医学部および臨床検査研究所、営利団体、学術機関、その他に分類されます。地域別では、北米、欧州、アジア太平洋、LAMEAで分析されています。

ステークホルダーにとっての主なメリット
本レポートは、フローサイトメトリー市場の現在の動向と2022年から2031年までの予測予測について詳細な定量分析を行い、有力な市場機会の特定を支援するものです。
詳細な市場分析には、様々な地域の分析が含まれており、ステークホルダーが地域別の計画を策定できるよう、現在のトレンドの詳細な理解を提供することが期待されます。
フローサイトメトリー市場の成長を促進および抑制する要因の包括的な分析が提供されます。
本レポートにおける予測は、現在のトレンドと2022年から2031年までの将来の市場ポテンシャルを金額で分析することによって行われています。
様々な地域の広範な分析により、企業が戦略的にビジネスの動きを計画することを可能にすると期待される洞察が提供されています。
本レポートでは、市場内の主要なプレーヤーがプロファイリングされ、その戦略が徹底的に分析されており、市場の競争的見通しの理解に役立っています。

主要な市場セグメント
コンポーネント別
インストルメント
試薬および消耗品
ソフトウェア
サービス
テクノロジー別
セルベースフローサイトメトリー
ビーズベースフローサイトメトリー
アプリケーション別
学術・臨床応用
診断アプリケーション

エンドユーザー別
病院
医学部・臨床検査センター
営利団体
学術機関
その他

地域別
北米
米国
カナダ
メキシコ
欧州
ドイツ
フランス
イギリス
イタリア
スペイン
その他の地域
アジア・パシフィック
日本
中国
オーストラリア
インド
韓国
その他のアジア太平洋地域
LAMEA
ブラジル
サウジアラビア
南アフリカ
LAMEAの残りの地域

主な市場関係者
アジレント・テクノロジー株式会社
ベクトン・ディッキンソン アンド カンパニー
バイオメリュー SA
バイオ・ラッド・ラボラトリーズ, Inc.
ダナハーコーポレーション
Danaher Corporation ○ DiaSorin S.p.A.
Miltenyi Biotec, Inc.
サルトリウス社
シスメックス株式会社
サーモフィッシャーサイエンティフィック

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目次

CHAPTER 1:INTRODUCTION
1.1.Report description
1.2.Key market segments
1.3.Key benefits to the stakeholders
1.4.Research Methodology
1.4.1.Secondary research
1.4.2.Primary research
1.4.3.Analyst tools and models
CHAPTER 2:EXECUTIVE SUMMARY
2.1.Key findings of the study
2.2.CXO Perspective
CHAPTER 3:MARKET OVERVIEW
3.1.Market definition and scope
3.2.Key findings
3.2.1.Top investment pockets
3.3.Porter’s five forces analysis
3.4.Top player positioning
3.5.Market dynamics
3.5.1.Drivers
3.5.2.Restraints
3.5.3.Opportunities
3.6.COVID-19 Impact Analysis on the market
CHAPTER 4: FLOW CYTOMETRY MARKET, BY COMPONENT
4.1 Overview
4.1.1 Market size and forecast
4.2 Instruments
4.2.1 Key market trends, growth factors and opportunities
4.2.2 Market size and forecast, by region
4.2.3 Market analysis by country
4.3 Reagents and consumables
4.3.1 Key market trends, growth factors and opportunities
4.3.2 Market size and forecast, by region
4.3.3 Market analysis by country
4.4 Software
4.4.1 Key market trends, growth factors and opportunities
4.4.2 Market size and forecast, by region
4.4.3 Market analysis by country
4.5 Services
4.5.1 Key market trends, growth factors and opportunities
4.5.2 Market size and forecast, by region
4.5.3 Market analysis by country
CHAPTER 5: FLOW CYTOMETRY MARKET, BY TECHNOLOGY
5.1 Overview
5.1.1 Market size and forecast
5.2 Cell based flow cytometry
5.2.1 Key market trends, growth factors and opportunities
5.2.2 Market size and forecast, by region
5.2.3 Market analysis by country
5.3 Bead based flow cytometry
5.3.1 Key market trends, growth factors and opportunities
5.3.2 Market size and forecast, by region
5.3.3 Market analysis by country
CHAPTER 6: FLOW CYTOMETRY MARKET, BY APPLICATION
6.1 Overview
6.1.1 Market size and forecast
6.2 Academic and clinical applications
6.2.1 Key market trends, growth factors and opportunities
6.2.2 Market size and forecast, by region
6.2.3 Market analysis by country
6.3 Diagnostic applications
6.3.1 Key market trends, growth factors and opportunities
6.3.2 Market size and forecast, by region
6.3.3 Market analysis by country
CHAPTER 7: FLOW CYTOMETRY MARKET, BY END USER
7.1 Overview
7.1.1 Market size and forecast
7.2 Hospitals
7.2.1 Key market trends, growth factors and opportunities
7.2.2 Market size and forecast, by region
7.2.3 Market analysis by country
7.3 Medical schools and clinical testing labs
7.3.1 Key market trends, growth factors and opportunities
7.3.2 Market size and forecast, by region
7.3.3 Market analysis by country
7.4 Commercial organizations
7.4.1 Key market trends, growth factors and opportunities
7.4.2 Market size and forecast, by region
7.4.3 Market analysis by country
7.5 Academic institutions
7.5.1 Key market trends, growth factors and opportunities
7.5.2 Market size and forecast, by region
7.5.3 Market analysis by country
7.6 Others
7.6.1 Key market trends, growth factors and opportunities
7.6.2 Market size and forecast, by region
7.6.3 Market analysis by country
CHAPTER 8: FLOW CYTOMETRY MARKET, BY REGION
8.1 Overview
8.1.1 Market size and forecast
8.2 North America
8.2.1 Key trends and opportunities
8.2.2 North America Market size and forecast, by Component
8.2.3 North America Market size and forecast, by Technology
8.2.4 North America Market size and forecast, by Application
8.2.5 North America Market size and forecast, by End User
8.2.6 North America Market size and forecast, by country
8.2.6.1 U.S.
8.2.6.1.1 Market size and forecast, by Component
8.2.6.1.2 Market size and forecast, by Technology
8.2.6.1.3 Market size and forecast, by Application
8.2.6.1.4 Market size and forecast, by End User
8.2.6.2 Canada
8.2.6.2.1 Market size and forecast, by Component
8.2.6.2.2 Market size and forecast, by Technology
8.2.6.2.3 Market size and forecast, by Application
8.2.6.2.4 Market size and forecast, by End User
8.2.6.3 Mexico
8.2.6.3.1 Market size and forecast, by Component
8.2.6.3.2 Market size and forecast, by Technology
8.2.6.3.3 Market size and forecast, by Application
8.2.6.3.4 Market size and forecast, by End User
8.3 Europe
8.3.1 Key trends and opportunities
8.3.2 Europe Market size and forecast, by Component
8.3.3 Europe Market size and forecast, by Technology
8.3.4 Europe Market size and forecast, by Application
8.3.5 Europe Market size and forecast, by End User
8.3.6 Europe Market size and forecast, by country
8.3.6.1 Germany
8.3.6.1.1 Market size and forecast, by Component
8.3.6.1.2 Market size and forecast, by Technology
8.3.6.1.3 Market size and forecast, by Application
8.3.6.1.4 Market size and forecast, by End User
8.3.6.2 France
8.3.6.2.1 Market size and forecast, by Component
8.3.6.2.2 Market size and forecast, by Technology
8.3.6.2.3 Market size and forecast, by Application
8.3.6.2.4 Market size and forecast, by End User
8.3.6.3 U.K.
8.3.6.3.1 Market size and forecast, by Component
8.3.6.3.2 Market size and forecast, by Technology
8.3.6.3.3 Market size and forecast, by Application
8.3.6.3.4 Market size and forecast, by End User
8.3.6.4 Italy
8.3.6.4.1 Market size and forecast, by Component
8.3.6.4.2 Market size and forecast, by Technology
8.3.6.4.3 Market size and forecast, by Application
8.3.6.4.4 Market size and forecast, by End User
8.3.6.5 Spain
8.3.6.5.1 Market size and forecast, by Component
8.3.6.5.2 Market size and forecast, by Technology
8.3.6.5.3 Market size and forecast, by Application
8.3.6.5.4 Market size and forecast, by End User
8.3.6.6 Rest of Europe
8.3.6.6.1 Market size and forecast, by Component
8.3.6.6.2 Market size and forecast, by Technology
8.3.6.6.3 Market size and forecast, by Application
8.3.6.6.4 Market size and forecast, by End User
8.4 Asia-Pacific
8.4.1 Key trends and opportunities
8.4.2 Asia-Pacific Market size and forecast, by Component
8.4.3 Asia-Pacific Market size and forecast, by Technology
8.4.4 Asia-Pacific Market size and forecast, by Application
8.4.5 Asia-Pacific Market size and forecast, by End User
8.4.6 Asia-Pacific Market size and forecast, by country
8.4.6.1 Japan
8.4.6.1.1 Market size and forecast, by Component
8.4.6.1.2 Market size and forecast, by Technology
8.4.6.1.3 Market size and forecast, by Application
8.4.6.1.4 Market size and forecast, by End User
8.4.6.2 China
8.4.6.2.1 Market size and forecast, by Component
8.4.6.2.2 Market size and forecast, by Technology
8.4.6.2.3 Market size and forecast, by Application
8.4.6.2.4 Market size and forecast, by End User
8.4.6.3 Australia
8.4.6.3.1 Market size and forecast, by Component
8.4.6.3.2 Market size and forecast, by Technology
8.4.6.3.3 Market size and forecast, by Application
8.4.6.3.4 Market size and forecast, by End User
8.4.6.4 India
8.4.6.4.1 Market size and forecast, by Component
8.4.6.4.2 Market size and forecast, by Technology
8.4.6.4.3 Market size and forecast, by Application
8.4.6.4.4 Market size and forecast, by End User
8.4.6.5 South Korea
8.4.6.5.1 Market size and forecast, by Component
8.4.6.5.2 Market size and forecast, by Technology
8.4.6.5.3 Market size and forecast, by Application
8.4.6.5.4 Market size and forecast, by End User
8.4.6.6 Rest of Asia-Pacific
8.4.6.6.1 Market size and forecast, by Component
8.4.6.6.2 Market size and forecast, by Technology
8.4.6.6.3 Market size and forecast, by Application
8.4.6.6.4 Market size and forecast, by End User
8.5 LAMEA
8.5.1 Key trends and opportunities
8.5.2 LAMEA Market size and forecast, by Component
8.5.3 LAMEA Market size and forecast, by Technology
8.5.4 LAMEA Market size and forecast, by Application
8.5.5 LAMEA Market size and forecast, by End User
8.5.6 LAMEA Market size and forecast, by country
8.5.6.1 Brazil
8.5.6.1.1 Market size and forecast, by Component
8.5.6.1.2 Market size and forecast, by Technology
8.5.6.1.3 Market size and forecast, by Application
8.5.6.1.4 Market size and forecast, by End User
8.5.6.2 Saudi Arabia
8.5.6.2.1 Market size and forecast, by Component
8.5.6.2.2 Market size and forecast, by Technology
8.5.6.2.3 Market size and forecast, by Application
8.5.6.2.4 Market size and forecast, by End User
8.5.6.3 South Africa
8.5.6.3.1 Market size and forecast, by Component
8.5.6.3.2 Market size and forecast, by Technology
8.5.6.3.3 Market size and forecast, by Application
8.5.6.3.4 Market size and forecast, by End User
8.5.6.4 Rest of LAMEA
8.5.6.4.1 Market size and forecast, by Component
8.5.6.4.2 Market size and forecast, by Technology
8.5.6.4.3 Market size and forecast, by Application
8.5.6.4.4 Market size and forecast, by End User
CHAPTER 9: COMPANY LANDSCAPE
9.1. Introduction
9.2. Top winning strategies
9.3. Product Mapping of Top 10 Player
9.4. Competitive Dashboard
9.5. Competitive Heatmap
9.6. Key developments
CHAPTER 10: COMPANY PROFILES
10.1 Agilent Technologies, Inc.
10.1.1 Company overview
10.1.2 Company snapshot
10.1.3 Operating business segments
10.1.4 Product portfolio
10.1.5 Business performance
10.1.6 Key strategic moves and developments
10.2 Becton Dickinson and Company
10.2.1 Company overview
10.2.2 Company snapshot
10.2.3 Operating business segments
10.2.4 Product portfolio
10.2.5 Business performance
10.2.6 Key strategic moves and developments
10.3 bioMérieux SA
10.3.1 Company overview
10.3.2 Company snapshot
10.3.3 Operating business segments
10.3.4 Product portfolio
10.3.5 Business performance
10.3.6 Key strategic moves and developments
10.4 Bio-Rad Laboratories, Inc.
10.4.1 Company overview
10.4.2 Company snapshot
10.4.3 Operating business segments
10.4.4 Product portfolio
10.4.5 Business performance
10.4.6 Key strategic moves and developments
10.5 Danaher Corporation
10.5.1 Company overview
10.5.2 Company snapshot
10.5.3 Operating business segments
10.5.4 Product portfolio
10.5.5 Business performance
10.5.6 Key strategic moves and developments
10.6 DiaSorin S.p.A.
10.6.1 Company overview
10.6.2 Company snapshot
10.6.3 Operating business segments
10.6.4 Product portfolio
10.6.5 Business performance
10.6.6 Key strategic moves and developments
10.7 Miltenyi Biotec, Inc.
10.7.1 Company overview
10.7.2 Company snapshot
10.7.3 Operating business segments
10.7.4 Product portfolio
10.7.5 Business performance
10.7.6 Key strategic moves and developments
10.8 Sartorius AG
10.8.1 Company overview
10.8.2 Company snapshot
10.8.3 Operating business segments
10.8.4 Product portfolio
10.8.5 Business performance
10.8.6 Key strategic moves and developments
10.9 Sysmex Corporation
10.9.1 Company overview
10.9.2 Company snapshot
10.9.3 Operating business segments
10.9.4 Product portfolio
10.9.5 Business performance
10.9.6 Key strategic moves and developments
10.10 Thermo Fisher Scientific Inc.
10.10.1 Company overview
10.10.2 Company snapshot
10.10.3 Operating business segments
10.10.4 Product portfolio
10.10.5 Business performance
10.10.6 Key strategic moves and developments

 

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Summary

The flow cytometry market was valued at $4,695.8 million in 2021, and is projected to reach $10,421.6 million by 2031, registering a CAGR of 8.3% from 2022 to 2031.
Flow cytometry is a biophysical, laser-based analytical technology that measures and analyzes several physical characteristics of cells or particles suspended in a fluid, when passed through a laser beam. Flow cytometry has various advantages over traditional analytical methods such as ELISA, which has the ability to deliver precise and accurate results and lesser time consumption at approximately the same prices. Flow cytometry technology is widely used in various fields of academic and clinical research, and diagnosis of diseases such as cancer, HIV, and hematological malignancies. Rise in count of patients suffering from HIV and cancer and increase in use of flow cytometry in hospitals & diagnostic centers, which has created an impending need of flow cytometry in effective diagnosis and monitoring of diseases.
Major factors that drive growth of the flow cytometry market include technological advancements and high adoption in various research and diagnostic applications. In addition, advent of flow cytometry technology in novel research applications such as cytogenomics, proteomics, and marine biology further supplement the market growth. Further, rise in incidences of diseases such as cancer and HIV are expected to boost adoption of flow cytometry technology across diagnostic application. However, factors such as high-cost associated with instruments and reagents, lack of awareness among potential end users, and limited availability of technical expertise are expected to hamper the market growth. Preference of flow cytometry in drug discovery & development and diagnostics is expected to provide numerous growth opportunities.
The flow cytometry market is segmented on the basis of component, technology, application, end user, and region. By component, the flow cytometry market is segmented into instruments, reagents & consumables, software and services. The instrument segment is further divided into platforms, replaceable components, and accessories. The platforms segment is further categorized into sorters and analyzers. Filters, lasers, detectors, and others are considered as types of replaceable components. The reagents market is further divided into antibodies, dyes, beads, and others. On the basis of technology, the market is segmented into cell-based flow cytometry and bead-based flow cytometry. On the basis of application, it is segmented into academic & clinical applications and diagnostic applications. The academic & clinical applications segment is further divided into cell cycle analysis & cell proliferation, apoptosis, cell sorting, transfect ion & cell viability, and others. The diagnostic applications segment is further segmented into organ transplantation, hematological malignancies, HIV, solid tumors & cancer, and others. On the basis of end user, the market is categorized into hospitals, medical schools & clinical testing labs, commercial organizations, academic institutions, and others. Region-wise, it is analyzed across North America, Europe, Asia-Pacific, and LAMEA.

KEY BENEFITS FOR STAKEHOLDERS
This report provides a detailed quantitative analysis of the current flow cytometry market trends and forecast estimations from 2022 to 2031, which assists to identify the prevailing market opportunities.
An in-depth market analysis includes analysis of various regions, which is anticipated to provide a detailed understanding of the current trends to enable stakeholders formulate region-specific plans.
A comprehensive analysis of factors that drive and restrain the growth of the flow cytometry market is provided.
The projections in this report are made by analyzing the current trends and future market potential from 2022 to 2031, in terms of value.
An extensive analysis of various regions provides insights that are expected to allow companies to strategically plan their business moves.
Key market players within the market are profiled in this report and their strategies are analyzed thoroughly, which help in understanding competitive outlook of the market

Key Market Segments
By Component
● Instruments
● Reagents and consumables
● Software
● Services
By Technology
● Cell based flow cytometry
● Bead based flow cytometry
By Application
● Academic and clinical applications
● Diagnostic applications

By End User
● Hospitals
● Medical schools and clinical testing labs
● Commercial organizations
● Academic institutions
● Others

By Region
● North America
○ U.S.
○ Canada
○ Mexico
● Europe
○ Germany
○ France
○ U.K.
○ Italy
○ Spain
○ Rest of Europe
● Asia-Pacific
○ Japan
○ China
○ Australia
○ India
○ South Korea
○ Rest of Asia-Pacific
● LAMEA
○ Brazil
○ Saudi Arabia
○ South Africa
○ Rest of LAMEA

● Key Market Players
○ Agilent Technologies, Inc.
○ Becton Dickinson and Company
○ bioMérieux SA
○ Bio-Rad Laboratories, Inc.
○ Danaher Corporation
○ DiaSorin S.p.A.
○ Miltenyi Biotec, Inc.
○ Sartorius AG
○ Sysmex Corporation
○ Thermo Fisher Scientific Inc.



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Table of Contents

CHAPTER 1:INTRODUCTION
1.1.Report description
1.2.Key market segments
1.3.Key benefits to the stakeholders
1.4.Research Methodology
1.4.1.Secondary research
1.4.2.Primary research
1.4.3.Analyst tools and models
CHAPTER 2:EXECUTIVE SUMMARY
2.1.Key findings of the study
2.2.CXO Perspective
CHAPTER 3:MARKET OVERVIEW
3.1.Market definition and scope
3.2.Key findings
3.2.1.Top investment pockets
3.3.Porter’s five forces analysis
3.4.Top player positioning
3.5.Market dynamics
3.5.1.Drivers
3.5.2.Restraints
3.5.3.Opportunities
3.6.COVID-19 Impact Analysis on the market
CHAPTER 4: FLOW CYTOMETRY MARKET, BY COMPONENT
4.1 Overview
4.1.1 Market size and forecast
4.2 Instruments
4.2.1 Key market trends, growth factors and opportunities
4.2.2 Market size and forecast, by region
4.2.3 Market analysis by country
4.3 Reagents and consumables
4.3.1 Key market trends, growth factors and opportunities
4.3.2 Market size and forecast, by region
4.3.3 Market analysis by country
4.4 Software
4.4.1 Key market trends, growth factors and opportunities
4.4.2 Market size and forecast, by region
4.4.3 Market analysis by country
4.5 Services
4.5.1 Key market trends, growth factors and opportunities
4.5.2 Market size and forecast, by region
4.5.3 Market analysis by country
CHAPTER 5: FLOW CYTOMETRY MARKET, BY TECHNOLOGY
5.1 Overview
5.1.1 Market size and forecast
5.2 Cell based flow cytometry
5.2.1 Key market trends, growth factors and opportunities
5.2.2 Market size and forecast, by region
5.2.3 Market analysis by country
5.3 Bead based flow cytometry
5.3.1 Key market trends, growth factors and opportunities
5.3.2 Market size and forecast, by region
5.3.3 Market analysis by country
CHAPTER 6: FLOW CYTOMETRY MARKET, BY APPLICATION
6.1 Overview
6.1.1 Market size and forecast
6.2 Academic and clinical applications
6.2.1 Key market trends, growth factors and opportunities
6.2.2 Market size and forecast, by region
6.2.3 Market analysis by country
6.3 Diagnostic applications
6.3.1 Key market trends, growth factors and opportunities
6.3.2 Market size and forecast, by region
6.3.3 Market analysis by country
CHAPTER 7: FLOW CYTOMETRY MARKET, BY END USER
7.1 Overview
7.1.1 Market size and forecast
7.2 Hospitals
7.2.1 Key market trends, growth factors and opportunities
7.2.2 Market size and forecast, by region
7.2.3 Market analysis by country
7.3 Medical schools and clinical testing labs
7.3.1 Key market trends, growth factors and opportunities
7.3.2 Market size and forecast, by region
7.3.3 Market analysis by country
7.4 Commercial organizations
7.4.1 Key market trends, growth factors and opportunities
7.4.2 Market size and forecast, by region
7.4.3 Market analysis by country
7.5 Academic institutions
7.5.1 Key market trends, growth factors and opportunities
7.5.2 Market size and forecast, by region
7.5.3 Market analysis by country
7.6 Others
7.6.1 Key market trends, growth factors and opportunities
7.6.2 Market size and forecast, by region
7.6.3 Market analysis by country
CHAPTER 8: FLOW CYTOMETRY MARKET, BY REGION
8.1 Overview
8.1.1 Market size and forecast
8.2 North America
8.2.1 Key trends and opportunities
8.2.2 North America Market size and forecast, by Component
8.2.3 North America Market size and forecast, by Technology
8.2.4 North America Market size and forecast, by Application
8.2.5 North America Market size and forecast, by End User
8.2.6 North America Market size and forecast, by country
8.2.6.1 U.S.
8.2.6.1.1 Market size and forecast, by Component
8.2.6.1.2 Market size and forecast, by Technology
8.2.6.1.3 Market size and forecast, by Application
8.2.6.1.4 Market size and forecast, by End User
8.2.6.2 Canada
8.2.6.2.1 Market size and forecast, by Component
8.2.6.2.2 Market size and forecast, by Technology
8.2.6.2.3 Market size and forecast, by Application
8.2.6.2.4 Market size and forecast, by End User
8.2.6.3 Mexico
8.2.6.3.1 Market size and forecast, by Component
8.2.6.3.2 Market size and forecast, by Technology
8.2.6.3.3 Market size and forecast, by Application
8.2.6.3.4 Market size and forecast, by End User
8.3 Europe
8.3.1 Key trends and opportunities
8.3.2 Europe Market size and forecast, by Component
8.3.3 Europe Market size and forecast, by Technology
8.3.4 Europe Market size and forecast, by Application
8.3.5 Europe Market size and forecast, by End User
8.3.6 Europe Market size and forecast, by country
8.3.6.1 Germany
8.3.6.1.1 Market size and forecast, by Component
8.3.6.1.2 Market size and forecast, by Technology
8.3.6.1.3 Market size and forecast, by Application
8.3.6.1.4 Market size and forecast, by End User
8.3.6.2 France
8.3.6.2.1 Market size and forecast, by Component
8.3.6.2.2 Market size and forecast, by Technology
8.3.6.2.3 Market size and forecast, by Application
8.3.6.2.4 Market size and forecast, by End User
8.3.6.3 U.K.
8.3.6.3.1 Market size and forecast, by Component
8.3.6.3.2 Market size and forecast, by Technology
8.3.6.3.3 Market size and forecast, by Application
8.3.6.3.4 Market size and forecast, by End User
8.3.6.4 Italy
8.3.6.4.1 Market size and forecast, by Component
8.3.6.4.2 Market size and forecast, by Technology
8.3.6.4.3 Market size and forecast, by Application
8.3.6.4.4 Market size and forecast, by End User
8.3.6.5 Spain
8.3.6.5.1 Market size and forecast, by Component
8.3.6.5.2 Market size and forecast, by Technology
8.3.6.5.3 Market size and forecast, by Application
8.3.6.5.4 Market size and forecast, by End User
8.3.6.6 Rest of Europe
8.3.6.6.1 Market size and forecast, by Component
8.3.6.6.2 Market size and forecast, by Technology
8.3.6.6.3 Market size and forecast, by Application
8.3.6.6.4 Market size and forecast, by End User
8.4 Asia-Pacific
8.4.1 Key trends and opportunities
8.4.2 Asia-Pacific Market size and forecast, by Component
8.4.3 Asia-Pacific Market size and forecast, by Technology
8.4.4 Asia-Pacific Market size and forecast, by Application
8.4.5 Asia-Pacific Market size and forecast, by End User
8.4.6 Asia-Pacific Market size and forecast, by country
8.4.6.1 Japan
8.4.6.1.1 Market size and forecast, by Component
8.4.6.1.2 Market size and forecast, by Technology
8.4.6.1.3 Market size and forecast, by Application
8.4.6.1.4 Market size and forecast, by End User
8.4.6.2 China
8.4.6.2.1 Market size and forecast, by Component
8.4.6.2.2 Market size and forecast, by Technology
8.4.6.2.3 Market size and forecast, by Application
8.4.6.2.4 Market size and forecast, by End User
8.4.6.3 Australia
8.4.6.3.1 Market size and forecast, by Component
8.4.6.3.2 Market size and forecast, by Technology
8.4.6.3.3 Market size and forecast, by Application
8.4.6.3.4 Market size and forecast, by End User
8.4.6.4 India
8.4.6.4.1 Market size and forecast, by Component
8.4.6.4.2 Market size and forecast, by Technology
8.4.6.4.3 Market size and forecast, by Application
8.4.6.4.4 Market size and forecast, by End User
8.4.6.5 South Korea
8.4.6.5.1 Market size and forecast, by Component
8.4.6.5.2 Market size and forecast, by Technology
8.4.6.5.3 Market size and forecast, by Application
8.4.6.5.4 Market size and forecast, by End User
8.4.6.6 Rest of Asia-Pacific
8.4.6.6.1 Market size and forecast, by Component
8.4.6.6.2 Market size and forecast, by Technology
8.4.6.6.3 Market size and forecast, by Application
8.4.6.6.4 Market size and forecast, by End User
8.5 LAMEA
8.5.1 Key trends and opportunities
8.5.2 LAMEA Market size and forecast, by Component
8.5.3 LAMEA Market size and forecast, by Technology
8.5.4 LAMEA Market size and forecast, by Application
8.5.5 LAMEA Market size and forecast, by End User
8.5.6 LAMEA Market size and forecast, by country
8.5.6.1 Brazil
8.5.6.1.1 Market size and forecast, by Component
8.5.6.1.2 Market size and forecast, by Technology
8.5.6.1.3 Market size and forecast, by Application
8.5.6.1.4 Market size and forecast, by End User
8.5.6.2 Saudi Arabia
8.5.6.2.1 Market size and forecast, by Component
8.5.6.2.2 Market size and forecast, by Technology
8.5.6.2.3 Market size and forecast, by Application
8.5.6.2.4 Market size and forecast, by End User
8.5.6.3 South Africa
8.5.6.3.1 Market size and forecast, by Component
8.5.6.3.2 Market size and forecast, by Technology
8.5.6.3.3 Market size and forecast, by Application
8.5.6.3.4 Market size and forecast, by End User
8.5.6.4 Rest of LAMEA
8.5.6.4.1 Market size and forecast, by Component
8.5.6.4.2 Market size and forecast, by Technology
8.5.6.4.3 Market size and forecast, by Application
8.5.6.4.4 Market size and forecast, by End User
CHAPTER 9: COMPANY LANDSCAPE
9.1. Introduction
9.2. Top winning strategies
9.3. Product Mapping of Top 10 Player
9.4. Competitive Dashboard
9.5. Competitive Heatmap
9.6. Key developments
CHAPTER 10: COMPANY PROFILES
10.1 Agilent Technologies, Inc.
10.1.1 Company overview
10.1.2 Company snapshot
10.1.3 Operating business segments
10.1.4 Product portfolio
10.1.5 Business performance
10.1.6 Key strategic moves and developments
10.2 Becton Dickinson and Company
10.2.1 Company overview
10.2.2 Company snapshot
10.2.3 Operating business segments
10.2.4 Product portfolio
10.2.5 Business performance
10.2.6 Key strategic moves and developments
10.3 bioMérieux SA
10.3.1 Company overview
10.3.2 Company snapshot
10.3.3 Operating business segments
10.3.4 Product portfolio
10.3.5 Business performance
10.3.6 Key strategic moves and developments
10.4 Bio-Rad Laboratories, Inc.
10.4.1 Company overview
10.4.2 Company snapshot
10.4.3 Operating business segments
10.4.4 Product portfolio
10.4.5 Business performance
10.4.6 Key strategic moves and developments
10.5 Danaher Corporation
10.5.1 Company overview
10.5.2 Company snapshot
10.5.3 Operating business segments
10.5.4 Product portfolio
10.5.5 Business performance
10.5.6 Key strategic moves and developments
10.6 DiaSorin S.p.A.
10.6.1 Company overview
10.6.2 Company snapshot
10.6.3 Operating business segments
10.6.4 Product portfolio
10.6.5 Business performance
10.6.6 Key strategic moves and developments
10.7 Miltenyi Biotec, Inc.
10.7.1 Company overview
10.7.2 Company snapshot
10.7.3 Operating business segments
10.7.4 Product portfolio
10.7.5 Business performance
10.7.6 Key strategic moves and developments
10.8 Sartorius AG
10.8.1 Company overview
10.8.2 Company snapshot
10.8.3 Operating business segments
10.8.4 Product portfolio
10.8.5 Business performance
10.8.6 Key strategic moves and developments
10.9 Sysmex Corporation
10.9.1 Company overview
10.9.2 Company snapshot
10.9.3 Operating business segments
10.9.4 Product portfolio
10.9.5 Business performance
10.9.6 Key strategic moves and developments
10.10 Thermo Fisher Scientific Inc.
10.10.1 Company overview
10.10.2 Company snapshot
10.10.3 Operating business segments
10.10.4 Product portfolio
10.10.5 Business performance
10.10.6 Key strategic moves and developments

 

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