1. Preface
1.1. Market Definition and Scope
1.2. Market Segmentation
1.3. Key Research Objectives
1.4. Research Highlights
2. Assumptions and Research Methodology
3. Executive Summary: Global Cell Therapy Technologies Market
4. Market Overview
4.1. Introduction
4.1.1. Market Definition
4.1.2. Industry Evolution / Developments
4.2. Overview
4.3. Market Dynamics
4.3.1. Drivers
4.3.2. Restraints
4.3.3. Opportunities
4.4. Global Cell Therapy Technologies Market Analysis and Forecast, 2017-2031
4.4.1. Market Revenue Projections (US$ Mn)
5. Key Insights
5.1. Technological Advancements
5.2. Overview of Cell Therapy Product Manufacturing Technologies
5.3. List of Instruments and Consumables Used For Each of the Technologies
5.4. Key Mergers & Acquisitions
5.5. Top 3 Players Operating in the Market Space
6. Global Cell Therapy Technologies Market Analysis and Forecast, by Cell Type
6.1. Introduction & Definition
6.2. Key Findings / Developments
6.3. Market Value Forecast, by Cell Type, 2017-2031
6.3.1. Allogeneic
6.3.1.1. Blood Cells
6.3.1.2. Others
6.3.2. Autologous
6.3.2.1. Human Embryonic Stem Cells
6.3.2.2. Hematopoietic Stem Cells
6.3.2.3. Mesenchymal Stem Cells
6.3.2.4. Others
6.4. Market Attractiveness Analysis, by Cell Type
7. Global Cell Therapy Technologies Market Analysis and Forecast, by Product
7.1. Introduction & Definition
7.2. Key Findings / Developments
7.3. Market Value Forecast, by Product, 2017-2031
7.3.1. Tissue Digestion
7.3.1.1. Instrumentation
7.3.1.2. Consumables & Reagents
7.3.2. Cell Selection/ Cell Isolation
7.3.2.1. Instrumentation
7.3.2.2. Consumables & Reagents
7.3.3. Cell Viability Testing
7.3.3.1. Instrumentation
7.3.3.2. Consumables & Reagents
7.3.4. Cell Transduction / Transfection
7.3.4.1. Instrumentation
7.3.4.2. Consumables & Reagents
7.3.5. Cell Expansion
7.3.5.1. Instrumentation
7.3.5.2. Consumables & Reagents
7.3.6. Quality Control Testing
7.3.6.1. Instrumentation
7.3.6.2. Consumables & Reagents
7.4. Market Attractiveness Analysis, by Product
8. Global Cell Therapy Technologies Market Analysis and Forecast, by Technology/Method
8.1. Introduction & Definition
8.2. Key Findings / Developments
8.3. Market Value Forecast, by Technology/Method, 2017-2031
8.3.1. Tissue Digestion
8.3.2. Cell Selection/Cell Isolation
8.3.2.1. Immunomagnetic Cell separation (IMS)
8.3.2.2. Fluorescence-activated Cell Sorting(FACS)
8.3.2.3. Density Gradient Centrifugation
8.3.2.4. Microfluidic Cell Separation (MCS)
8.3.2.5. Others
8.3.3. Cell Viability Testing
8.3.3.1. Tetrazolium Reduction Assay
8.3.3.2. Protease Viability Marker Assay
8.3.3.3. ATP Assay
8.3.3.4. Real-Time Assay
8.3.3.5. Others
8.3.4. Cell Transduction/Transfection
8.3.4.1. Cationic-lipid Mediated Transfection
8.3.4.2. Calcium Phosphate Transfection
8.3.4.3. Viral Transfection
8.3.4.4. Electroporation
8.3.4.5. Others
8.3.5. Cell Expansion
8.3.5.1. 3D Cell Culture
8.3.5.2. Roller Bottle Culture
8.3.5.3. Cell Culture Scale-up Systems
8.3.5.4. Spinner Flask Culture
8.3.5.5. Others
8.3.6. Quality Control Testing
8.3.6.1. Endotoxin
8.3.6.2. Mycoplasma
8.3.6.3. Others
8.4. Market Attractiveness Analysis, by Technology/Method
9. Global Cell Therapy Technologies Market Analysis and Forecast, by Application
9.1. Introduction & Definition
9.2. Key Findings / Developments
9.3. Market Value Forecast, by Application, 2017-2031
9.3.1. Cancer
9.3.2. Autoimmune Diseases
9.3.3. Cardiovascular Disorders
9.3.4. Orthopedic Disorders
9.3.5. Others
9.4. Market Attractiveness Analysis, by Application
10. Global Cell Therapy Technologies Market Analysis and Forecast, by Region
10.1. Key Findings
10.2. Market Value Forecast, by Region
10.2.1. North America
10.2.2. Europe
10.2.3. Asia Pacific
10.2.4. Latin America
10.2.5. Middle East & Africa
10.3. Market Attractiveness Analysis, by Region
11. North America Cell Therapy Technologies Market Analysis and Forecast
11.1. Introduction
11.1.1. Key Findings
11.2. Market Value Forecast, by Cell Type, 2017-2031
11.2.1. Allogeneic
11.2.1.1. Blood Cells
11.2.1.2. Others
11.2.2. Autologous
11.2.2.1. Human Embryonic Stem Cells
11.2.2.2. Hematopoietic Stem Cells
11.2.2.3. Mesenchymal Stem Cells
11.2.2.4. Others
11.3. Market Value Forecast, by Product, 2017-2031
11.3.1. Tissue Digestion
11.3.1.1. Instrumentation
11.3.1.2. Consumables & Reagents
11.3.2. Cell Selection/ Cell Isolation
11.3.2.1. Instrumentation
11.3.2.2. Consumables & Reagents
11.3.3. Cell Viability Testing
11.3.3.1. Instrumentation
11.3.3.2. Consumables & Reagents
11.3.4. Cell Transduction / Transfection
11.3.4.1. Instrumentation
11.3.4.2. Consumables & Reagents
11.3.5. Cell Expansion
11.3.5.1. Instrumentation
11.3.5.2. Consumables & Reagents
11.3.6. Quality Control Testing
11.3.6.1. Instrumentation
11.3.6.2. Consumables & Reagents
11.4. Market Value Forecast, by Technology/Method, 2017-2031
11.4.1. Tissue Digestion
11.4.2. Cell Selection/Cell Isolation
11.4.2.1. Immunomagnetic Cell separation (IMS)
11.4.2.2. Fluorescence-activated Cell Sorting(FACS)
11.4.2.3. Density Gradient Centrifugation
11.4.2.4. Microfluidic Cell Separation (MCS)
11.4.2.5. Others
11.4.3. Cell Viability Testing
11.4.3.1. Tetrazolium Reduction Assay
11.4.3.2. Protease Viability Marker Assay
11.4.3.3. ATP Assay
11.4.3.4. Real-Time Assay
11.4.3.5. Others
11.4.4. Cell Transduction/Transfection
11.4.4.1. Cationic-lipid Mediated Transfection
11.4.4.2. Calcium Phosphate Transfection
11.4.4.3. Viral Transfection
11.4.4.4. Electroporation
11.4.4.5. Others
11.4.5. Cell Expansion
11.4.5.1. 3D Cell Culture
11.4.5.2. Roller Bottle Culture
11.4.5.3. Cell Culture Scale-up Systems
11.4.5.4. Spinner Flask Culture
11.4.5.5. Others
11.4.6. Quality Control Testing
11.4.6.1. Endotoxin
11.4.6.2. Mycoplasma
11.4.6.3. Others
11.5. Market Value Forecast, by Application, 2017-2031
11.5.1. Cancer
11.5.2. Autoimmune Diseases
11.5.3. Cardiovascular Disorders
11.5.4. Orthopedic Disorders
11.5.5. Others
11.6. Market Value Forecast, by Country, 2017-2031
11.6.1. U.S.
11.6.2. Canada
11.7. Market Attractiveness Analysis
11.7.1. By Cell Type
11.7.2. By Product
11.7.3. By Technology/Method
11.7.4. By Application
11.7.5. By Country
12. Europe Cell Therapy Technologies Market Analysis and Forecast
12.1. Introduction
12.1.1. Key Findings
12.2. Market Value Forecast, by Cell Type, 2017-2031
12.2.1. Allogeneic
12.2.1.1. Blood Cells
12.2.1.2. Others
12.2.2. Autologous
12.2.2.1. Human Embryonic Stem Cells
12.2.2.2. Hematopoietic Stem Cells
12.2.2.3. Mesenchymal Stem Cells
12.2.2.4. Others
12.3. Market Value Forecast, by Product, 2017-2031
12.3.1. Tissue Digestion
12.3.1.1. Instrumentation
12.3.1.2. Consumables & Reagents
12.3.2. Cell Selection/ Cell Isolation
12.3.2.1. Instrumentation
12.3.2.2. Consumables & Reagents
12.3.3. Cell Viability Testing
12.3.3.1. Instrumentation
12.3.3.2. Consumables & Reagents
12.3.4. Cell Transduction / Transfection
12.3.4.1. Instrumentation
12.3.4.2. Consumables & Reagents
12.3.5. Cell Expansion
12.3.5.1. Instrumentation
12.3.5.2. Consumables & Reagents
12.3.6. Quality Control Testing
12.3.6.1. Instrumentation
12.3.6.2. Consumables & Reagents
12.4. Market Value Forecast, by Technology/Method, 2017-2031
12.4.1. Cell Selection/Cell Isolation
12.4.1.1. Immunomagnetic Cell separation (IMS)
12.4.1.2. Fluorescence-activated Cell Sorting(FACS)
12.4.1.3. Density Gradient Centrifugation
12.4.1.4. Microfluidic Cell Separation (MCS)
12.4.1.5. Others
12.4.2. Cell Viability Testing
12.4.2.1. Tetrazolium Reduction Assay
12.4.2.2. Protease Viability Marker Assay
12.4.2.3. ATP Assay
12.4.2.4. Real-Time Assay
12.4.2.5. Others
12.4.3. Cell Transduction/Transfection
12.4.3.1. Cationic-lipid Mediated Transfection
12.4.3.2. Calcium Phosphate Transfection
12.4.3.3. Viral Transfection
12.4.3.4. Electroporation
12.4.3.5. Others
12.4.4. Cell Expansion
12.4.4.1. 3D Cell Culture
12.4.4.2. Roller Bottle Culture
12.4.4.3. Cell Culture Scale-up Systems
12.4.4.4. Spinner Flask Culture
12.4.4.5. Others
12.4.5. Quality Control Testing
12.4.5.1. Endotoxin
12.4.5.2. Mycoplasma
12.4.5.3. Others
12.5. Market Value Forecast, by Application, 2017-2031
12.5.1. Cancer
12.5.2. Autoimmune Diseases
12.5.3. Cardiovascular Disorders
12.5.4. Orthopedic Disorders
12.5.5. Others
12.6. Market Value Forecast, by Country/Sub-region, 2017-2031
12.6.1. Germany
12.6.2. U.K.
12.6.3. France
12.6.4. Spain
12.6.5. Italy
12.6.6. Rest of Europe
12.7. Market Attractiveness Analysis
12.7.1. By Cell Type
12.7.2. By Product
12.7.3. By Technology/Method
12.7.4. By Application
12.7.5. By Country/Sub-region
13. Asia Pacific Cell Therapy Technologies Market Analysis and Forecast
13.1. Introduction
13.1.1. Key Findings
13.2. Market Value Forecast, by Cell Type, 2017-2031
13.2.1. Allogeneic
13.2.1.1. Blood Cells
13.2.1.2. Others
13.2.2. Autologous
13.2.2.1. Human Embryonic Stem Cells
13.2.2.2. Hematopoietic Stem Cells
13.2.2.3. Mesenchymal Stem Cells
13.2.2.4. Others
13.3. Market Value Forecast, by Product, 2017-2031
13.3.1. Tissue Digestion
13.3.1.1. Instrumentation
13.3.1.2. Consumables & Reagents
13.3.2. Cell Selection/ Cell Isolation
13.3.2.1. Instrumentation
13.3.2.2. Consumables & Reagents
13.3.3. Cell Viability Testing
13.3.3.1. Instrumentation
13.3.3.2. Consumables & Reagents
13.3.4. Cell Transduction / Transfection
13.3.4.1. Instrumentation
13.3.4.2. Consumables & Reagents
13.3.5. Cell Expansion
13.3.5.1. Instrumentation
13.3.5.2. Consumables & Reagents
13.3.6. Quality Control Testing
13.3.6.1. Instrumentation
13.3.6.2. Consumables & Reagents
13.4. Market Value Forecast, by Technology/Method, 2017-2031
13.4.1. Tissue Digestion
13.4.2. Cell Selection/Cell Isolation
13.4.2.1. Immunomagnetic Cell separation (IMS)
13.4.2.2. Fluorescence-activated Cell Sorting(FACS)
13.4.2.3. Density Gradient Centrifugation
13.4.2.4. Microfluidic Cell Separation (MCS)
13.4.2.5. Others
13.4.3. Cell Viability Testing
13.4.3.1. Tetrazolium Reduction Assay
13.4.3.2. Protease Viability Marker Assay
13.4.3.3. ATP Assay
13.4.3.4. Real-Time Assay
13.4.3.5. Others
13.4.4. Cell Transduction/Transfection
13.4.4.1. Cationic-lipid Mediated Transfection
13.4.4.2. Calcium Phosphate Transfection
13.4.4.3. Viral Transfection
13.4.4.4. Electroporation
13.4.4.5. Others
13.4.5. Cell Expansion
13.4.5.1. 3D Cell Culture
13.4.5.2. Roller Bottle Culture
13.4.5.3. Cell Culture Scale-up Systems
13.4.5.4. Spinner Flask Culture
13.4.5.5. Others
13.4.6. Quality Control Testing
13.4.6.1. Endotoxin
13.4.6.2. Mycoplasma
13.4.6.3. Others
13.5. Market Value Forecast, by Application, 2017-2031
13.5.1. Cancer
13.5.2. Autoimmune Diseases
13.5.3. Cardiovascular Disorders
13.5.4. Orthopedic Disorders
13.5.5. Others
13.6. Market Value Forecast, by Country/Sub-region, 2017-2031
13.6.1. China
13.6.2. Japan
13.6.3. India
13.6.4. Australia & New Zealand
13.6.5. Rest of Asia Pacific
13.7. Market Attractiveness Analysis
13.7.1. By Cell Type
13.7.2. By Product
13.7.3. By Technology/Method
13.7.4. By Application
13.7.5. By Country/Sub-region
14. Latin America Cell Therapy Technologies Market Analysis and Forecast
14.1. Introduction
14.1.1. Key Findings
14.2. Market Value Forecast, by Cell Type, 2017-2031
14.2.1. Allogeneic
14.2.1.1. Blood Cells
14.2.1.2. Others
14.2.2. Autologous
14.2.2.1. Human Embryonic Stem Cells
14.2.2.2. Hematopoietic Stem Cells
14.2.2.3. Mesenchymal Stem Cells
14.2.2.4. Others
14.3. Market Value Forecast, by Product, 2017-2031
14.3.1. Tissue Digestion
14.3.1.1. Instrumentation
14.3.1.2. Consumables & Reagents
14.3.2. Cell Selection/ Cell Isolation
14.3.2.1. Instrumentation
14.3.2.2. Consumables & Reagents
14.3.3. Cell Viability Testing
14.3.3.1. Instrumentation
14.3.3.2. Consumables & Reagents
14.3.4. Cell Transduction / Transfection
14.3.4.1. Instrumentation
14.3.4.2. Consumables & Reagents
14.3.5. Cell Expansion
14.3.5.1. Instrumentation
14.3.5.2. Consumables & Reagents
14.3.6. Quality Control Testing
14.3.6.1. Instrumentation
14.3.6.2. Consumables & Reagents
14.4. Market Value Forecast, by Technology/Method, 2017-2031
14.4.1. Tissue Digestion
14.4.2. Cell Selection/Cell Isolation
14.4.2.1. Immunomagnetic Cell separation (IMS)
14.4.2.2. Fluorescence-activated Cell Sorting(FACS)
14.4.2.3. Density Gradient Centrifugation
14.4.2.4. Microfluidic Cell Separation (MCS)
14.4.2.5. Others
14.4.3. Cell Viability Testing
14.4.3.1. Tetrazolium Reduction Assay
14.4.3.2. Protease Viability Marker Assay
14.4.3.3. ATP Assay
14.4.3.4. Real-Time Assay
14.4.3.5. Others
14.4.4. Cell Transduction/Transfection
14.4.4.1. Cationic-lipid Mediated Transfection
14.4.4.2. Calcium Phosphate Transfection
14.4.4.3. Viral Transfection
14.4.4.4. Electroporation
14.4.4.5. Others
14.4.5. Cell Expansion
14.4.5.1. 3D Cell Culture
14.4.5.2. Roller Bottle Culture
14.4.5.3. Cell Culture Scale-up Systems
14.4.5.4. Spinner Flask Culture
14.4.5.5. Others
14.4.6. Quality Control Testing
14.4.6.1. Endotoxin
14.4.6.2. Mycoplasma
14.4.6.3. Others
14.5. Market Value Forecast, by Application, 2017-2031
14.5.1. Cancer
14.5.2. Autoimmune Diseases
14.5.3. Cardiovascular Disorders
14.5.4. Orthopedic Disorders
14.5.5. Others
14.6. Market Value Forecast, by Country/Sub-region, 2017-2031
14.6.1. Brazil
14.6.2. Mexico
14.6.3. Rest of Latin America
14.7. Market Attractiveness Analysis
14.7.1. By Cell Type
14.7.2. By Product
14.7.3. By Technology/Method
14.7.4. By Application
14.7.5. By Country/Sub-region
15. Middle East & Africa Cell Therapy Technologies Market Analysis and Forecast
15.1. Introduction
15.1.1. Key Findings
15.2. Market Value Forecast, by Cell Type, 2017-2031
15.2.1. Allogeneic
15.2.1.1. Blood Cells
15.2.1.2. Others
15.2.2. Autologous
15.2.2.1. Human Embryonic Stem Cells
15.2.2.2. Hematopoietic Stem Cells
15.2.2.3. Mesenchymal Stem Cells
15.2.2.4. Others
15.3. Market Value Forecast, by Product, 2017-2031
15.3.1. Tissue Digestion
15.3.1.1. Instrumentation
15.3.1.2. Consumables & Reagents
15.3.2. Cell Selection/ Cell Isolation
15.3.2.1. Instrumentation
15.3.2.2. Consumables & Reagents
15.3.3. Cell Viability Testing
15.3.3.1. Instrumentation
15.3.3.2. Consumables & Reagents
15.3.4. Cell Transduction / Transfection
15.3.4.1. Instrumentation
15.3.4.2. Consumables & Reagents
15.3.5. Cell Expansion
15.3.5.1. Instrumentation
15.3.5.2. Consumables & Reagents
15.3.6. Quality Control Testing
15.3.6.1. Instrumentation
15.3.6.2. Consumables & Reagents
15.4. Market Value Forecast, by Technology/Method, 2017-2031
15.4.1. Tissue Digestion
15.4.2. Cell Selection/Cell Isolation
15.4.2.1. Immunomagnetic Cell separation (IMS)
15.4.2.2. Fluorescence-activated Cell Sorting(FACS)
15.4.2.3. Density Gradient Centrifugation
15.4.2.4. Microfluidic Cell Separation (MCS)
15.4.2.5. Others
15.4.3. Cell Viability Testing
15.4.3.1. Tetrazolium Reduction Assay
15.4.3.2. Protease Viability Marker Assay
15.4.3.3. ATP Assay
15.4.3.4. Real-Time Assay
15.4.3.5. Others
15.4.4. Cell Transduction/Transfection
15.4.4.1. Cationic-lipid Mediated Transfection
15.4.4.2. Calcium Phosphate Transfection
15.4.4.3. Viral Transfection
15.4.4.4. Electroporation
15.4.4.5. Others
15.4.5. Cell Expansion
15.4.5.1. 3D Cell Culture
15.4.5.2. Roller Bottle Culture
15.4.5.3. Cell Culture Scale-up Systems
15.4.5.4. Spinner Flask Culture
15.4.5.5. Others
15.4.6. Quality Control Testing
15.4.6.1. Endotoxin
15.4.6.2. Mycoplasma
15.4.6.3. Others
15.5. Market Value Forecast, by Application, 2017-2031
15.5.1. Cancer
15.5.2. Autoimmune Diseases
15.5.3. Cardiovascular Disorders
15.5.4. Orthopedic Disorders
15.5.5. Others
15.6. Market Value Forecast, by Country/Sub-region, 2017-2031
15.6.1. GCC Countries
15.6.2. South Africa
15.6.3. Rest of Middle East & Africa
15.7. Market Attractiveness Analysis
15.7.1. By Cell Type
15.7.2. By Product
15.7.3. By Technology/Method
15.7.4. By Application
15.7.5. By Country/Sub-region
16. Competition Landscape
16.1. Market Share Analysis, by Company, 2022
16.2. Company Profiles
16.2.1. Agilent Technologies
16.2.1.1. Company Overview
16.2.1.2. Financial Overview
16.2.1.3. Product Portfolio
16.2.1.4. Business Strategies
16.2.1.5. Recent Developments
16.2.2. Merck KGaA
16.2.2.1. Company Overview
16.2.2.2. Financial Overview
16.2.2.3. Product Portfolio
16.2.2.4. Business Strategies
16.2.2.5. Recent Developments
16.2.3. Thermo Fisher Scientific, Inc.
16.2.3.1. Company Overview
16.2.3.2. Financial Overview
16.2.3.3. Product Portfolio
16.2.3.4. Business Strategies
16.2.3.5. Recent Developments
16.2.4. Miltenyi Biotech
16.2.4.1. Company Overview
16.2.4.2. Financial Overview
16.2.4.3. Product Portfolio
16.2.4.4. Business Strategies
16.2.4.5. Recent Developments
16.2.5. GE Healthcare (General Electric Company)
16.2.5.1. Company Overview
16.2.5.2. Financial Overview
16.2.5.3. Product Portfolio
16.2.5.4. Business Strategies
16.2.5.5. Recent Developments
16.2.6. Beckman Coulter, Inc. (Danaher)
16.2.6.1. Company Overview
16.2.6.2. Financial Overview
16.2.6.3. Product Portfolio
16.2.6.4. Business Strategies
16.2.6.5. Recent Developments
16.2.7. Sartorius AG
16.2.7.1. Company Overview
16.2.7.2. Financial Overview
16.2.7.3. Product Portfolio
16.2.7.4. Business Strategies
16.2.7.5. Recent Developments
16.2.8. Lonza Group
16.2.8.1. Company Overview
16.2.8.2. Financial Overview
16.2.8.3. Product Portfolio
16.2.8.4. Business Strategies
16.2.8.5. Recent Developments
16.2.9. Terumo Corporation
16.2.9.1. Company Overview
16.2.9.2. Financial Overview
16.2.9.3. Product Portfolio
16.2.9.4. Business Strategies
16.2.9.5. Recent Developments
16.2.10. Curate Biosciences
16.2.10.1. Company Overview
16.2.10.2. Financial Overview
16.2.10.3. Product Portfolio
16.2.10.4. Business Strategies
16.2.10.5. Recent Developments
世界の細胞治療技術市場2022-2031:細胞種類別(同種、自家)、用途別(がん、自己免疫疾患、心血管疾患、整形外科疾患、その他) |
| 【英語タイトル】Cell Therapy Technologies Market (Cell Type: Allogeneic and Autologous; Application: Cancer, Autoimmune Diseases, Cardiovascular Disorders, Orthopedic Disorder, and Others) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2022-2031 | |
 | ・商品コード:TMR23AUG056 ・発行会社(調査会社):Transparency Market Research ・発行日:2023年6月 ・ページ数:210 ・レポート言語:英語 ・レポート形式:PDF ・納品方法:Eメール(受注後24時間以内) ・調査対象地域:北米、ヨーロッパ、アジア太平洋、中南米、中東・アフリカ、その他地域 ・産業分野:医療 |
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| 細胞治療技術市場 - レポートの範囲TMRの調査レポート「細胞治療技術の世界市場」は、2023年から2031年までの予測期間中に市場の指標に関する貴重な洞察を得るために、過去だけでなく現在の成長動向と機会についても調査しています。当レポートでは、2023年を基準年、2031年を予測年として、2017年から2031年までの世界の細胞治療技術市場の収益を提供します。また、2023年から2031年までの世界の細胞治療技術市場の複合年間成長率(CAGR %)も掲載しています。 本レポートは広範な調査を経て作成されました。主要オピニオンリーダー、業界リーダー、オピニオンメーカーへのインタビューを実施しました。二次調査では、細胞治療技術市場を理解するために、主要企業の製品資料、年次報告書、プレスリリース、関連文書を参照しました。 二次調査には、インターネット情報源、政府機関の統計データ、ウェブサイト、業界団体なども含まれます。アナリストはトップダウンアプローチとボトムアップアプローチを組み合わせて、世界の細胞治療技術市場の様々な属性を調査しました。 本レポートには、調査範囲に含まれる様々なセグメントの成長動向のスナップショットとともに、詳細なエグゼクティブサマリーが含まれています。さらに、世界の細胞治療技術市場における競争ダイナミクスの変化にも光を当てています。これらは、既存の市場プレイヤーだけでなく、世界の細胞治療技術市場への参入に関心のある企業にとっても貴重なツールとなります。 当レポートでは、世界の細胞治療技術市場の競争環境について調査しています。世界の細胞治療技術市場で事業を展開する主要企業が特定され、各企業が様々な属性でプロファイリングされています。会社概要、財務状況、最近の動向、SWOTは、本レポートで紹介している世界の細胞治療技術市場のプレイヤーの項目です。 細胞治療技術の世界市場レポートが回答した主要な内容 - 予測期間中の全地域における細胞治療技術の売上高/収益 - 細胞治療技術の世界市場におけるビジネスチャンス - 市場の主な促進要因、阻害要因、機会、脅威 - 予測期間中に最も速いCAGRで拡大する地域市場 - 2031年に世界で最も高い収益を上げると予測されるセグメント - 予測期間中に最も高いCAGRで拡大すると予測されるセグメント - 世界市場で事業を展開する各企業の市場ポジション 細胞治療技術市場 - 調査目的と調査アプローチ 細胞治療技術の世界市場に関する包括的なレポートは、概要から始まり、調査範囲と目的が続きます。本レポートでは、本調査の目的、市場で事業を展開する主要ベンダーや流通業者、製品の承認に関する規制シナリオについて詳しく解説しています。 本レポートは、読みやすさを考慮し、各セクションを章ごとに分割したレイアウトになっています。本レポートは、グラフと表を適切に配置した網羅的なコレクションで構成されています。主要セグメントの実績値と予測値を図式化することで、読者に視覚的に訴えかけます。また、過去と予測期間末の主要セグメントの市場シェアの比較も可能です。 当レポートでは、世界の細胞治療技術市場を製品、エンドユーザー、地域の観点から分析しています。各基準の主要セグメントを詳細に調査し、2031年末時点の各セグメントにおける市場シェアを掲載しています。このような貴重な洞察により、市場関係者は世界の細胞治療技術への投資について、十分な情報に基づいたビジネス上の意思決定を行うことができます。 |
1. 序論
2. 仮定・調査手法
3. エグゼクティブサマリー
4. 市場概要
5. キーインサイト
6. 細胞治療技術の世界市場分析&予測:細胞タイプ別
7. 細胞治療技術の世界市場分析&予測:製品別
8. 細胞治療技術の世界市場分析&予測:技術・手法別
9. 細胞治療技術の世界市場分析&予測:用途別
10. 細胞治療技術の世界市場分析&予測:地域別
11. 北米の細胞治療技術市場分析&予測
12. ヨーロッパの細胞治療技術市場分析&予測
13. アジア太平洋地域の細胞治療技術市場分析&予測
14. 中南米の細胞治療技術市場分析&予測
15. 中東・アフリカの細胞治療技術市場分析&予測
16. 競争状況
❖ レポートの目次 ❖
| ★調査レポート[世界の細胞治療技術市場2022-2031:細胞種類別(同種、自家)、用途別(がん、自己免疫疾患、心血管疾患、整形外科疾患、その他)] (コード:TMR23AUG056)販売に関する免責事項を必ずご確認ください。 |
| ★調査レポート[世界の細胞治療技術市場2022-2031:細胞種類別(同種、自家)、用途別(がん、自己免疫疾患、心血管疾患、整形外科疾患、その他)]についてメールでお問い合わせ |
