Chapter 1. Research Scope
1.1. Research Objectives
1.2. Market Definition
1.3. Analysis Period
1.4. Market Size Breakdown by Segments
1.4.1. Market size breakdown, by product type
1.4.2. Market size breakdown, by type
1.4.3. Market size breakdown, by cell type
1.4.4. Market size breakdown, by molecule type
1.4.5. Market size breakdown, by application
1.4.6. Market size breakdown, by usage type
1.4.7. Market size breakdown, by end user
1.4.8. Market size breakdown, by region
1.4.9. Market size breakdown, by country
1.5. Market Data Reporting Unit
1.5.1. Value
1.6. Key Stakeholders
Chapter 2. Research Methodology
2.1. Secondary Research
2.1.1. Paid
2.1.2. Unpaid
2.1.3. P&S Intelligence database
2.2. Primary Research
2.3. Market Size Estimation
2.4. Data Triangulation
2.5. Currency Conversion Rates
2.6. Assumptions for the Study
2.7. Notes and Caveats
Chapter 3. Executive Summary
Chapter 4. Voice of Industry Experts/KOLs
Chapter 5. Market Indicators
Chapter 6. Industry Outlook
6.1. Market Dynamics
6.1.1. Trends
6.1.2. Drivers
6.1.3. Restraints/challenges
6.1.4. Impact analysis of drivers/restraints
6.2. Impact of COVID-19
6.3. Porter’s Five Forces Analysis
6.3.1. Bargaining power of buyers
6.3.2. Bargaining power of suppliers
6.3.3. Threat of new entrants
6.3.4. Intensity of rivalry
6.3.5. Threat of substitutes
Chapter 7. Global Market
7.1. Overview
7.2. Market Revenue, by Product type (2017–2030)
7.3. Market Revenue, by Type (2017–2030)
7.4. Market Revenue, by Cell type (2017–2030)
7.5. Market Revenue, by Molecule type (2017–2030)
7.6. Market Revenue, by Application (2017–2030)
7.7. Market Revenue, by Usage type (2017–2030)
7.8. Market Revenue, by End user (2017–2030)
7.9. Market Revenue, by Region (2017–2030)
Chapter 8. North America Market
8.1. Overview
8.2. Market Revenue, by Product type (2017–2030)
8.3. Market Revenue, by Type (2017–2030)
8.4. Market Revenue, by Cell type (2017–2030)
8.5. Market Revenue, by Molecule type (2017–2030)
8.6. Market Revenue, by Application (2017–2030)
8.7. Market Revenue, by Usage type (2017–2030)
8.8. Market Revenue, by End user (2017–2030)
8.9. Market Revenue, by Country (2017–2030)
Chapter 9. Europe Market
9.1. Overview
9.2. Market Revenue, by Product type (2017–2030)
9.3. Market Revenue, by Type (2017–2030)
9.4. Market Revenue, by Cell type (2017–2030)
9.5. Market Revenue, by Molecule type (2017–2030)
9.6. Market Revenue, by Application (2017–2030)
9.7. Market Revenue, by Usage type (2017–2030)
9.8. Market Revenue, by End user (2017–2030)
9.9. Market Revenue, by Country (2017–2030)
Chapter 10. APAC Market
10.1. Overview
10.2. Market Revenue, by Product type (2017–2030)
10.3. Market Revenue, by Type (2017–2030)
10.4. Market Revenue, by Cell type (2017–2030)
10.5. Market Revenue, by Molecule type (2017–2030)
10.6. Market Revenue, by Application (2017–2030)
10.7. Market Revenue, by Usage type (2017–2030)
10.8. Market Revenue, by End user (2017–2030)
10.9. Market Revenue, by Country (2017–2030)
Chapter 11. LATAM Market
11.1. Overview
11.2. Market Revenue, by Product type (2017–2030)
11.3. Market Revenue, by Type (2017–2030)
11.4. Market Revenue, by Cell type (2017–2030)
11.5. Market Revenue, by Molecule type (2017–2030)
11.6. Market Revenue, by Application (2017–2030)
11.7. Market Revenue, by Usage type (2017–2030)
11.8. Market Revenue, by End user (2017–2030)
11.9. Market Revenue, by Country (2017–2030)
Chapter 12. MEA Market
12.1. Overview
12.2. Market Revenue, by Product type (2017–2030)
12.3. Market Revenue, by Type (2017–2030)
12.4. Market Revenue, by Cell type (2017–2030)
12.5. Market Revenue, by Molecule type (2017–2030)
12.6. Market Revenue, by Application (2017–2030)
12.7. Market Revenue, by Usage type (2017–2030)
12.8. Market Revenue, by End user (2017–2030)
12.9. Market Revenue, by Country (2017–2030)
Chapter 13. U.S. Market
13.1. Overview
13.2. Market Revenue, by Product type (2017–2030)
13.3. Market Revenue, by Type (2017–2030)
13.4. Market Revenue, by Cell type (2017–2030)
13.5. Market Revenue, by Molecule type (2017–2030)
13.6. Market Revenue, by Application (2017–2030)
13.7. Market Revenue, by Usage type (2017–2030)
13.8. Market Revenue, by End user (2017–2030)
Chapter 14. Canada Market
14.1. Overview
14.2. Market Revenue, by Product type (2017–2030)
14.3. Market Revenue, by Type (2017–2030)
14.4. Market Revenue, by Cell type (2017–2030)
14.5. Market Revenue, by Molecule type (2017–2030)
14.6. Market Revenue, by Application (2017–2030)
14.7. Market Revenue, by Usage type (2017–2030)
14.8. Market Revenue, by End user (2017–2030)
Chapter 15. Germany Market
15.1. Overview
15.2. Market Revenue, by Product type (2017–2030)
15.3. Market Revenue, by Type (2017–2030)
15.4. Market Revenue, by Cell type (2017–2030)
15.5. Market Revenue, by Molecule type (2017–2030)
15.6. Market Revenue, by Application (2017–2030)
15.7. Market Revenue, by Usage type (2017–2030)
15.8. Market Revenue, by End user (2017–2030)
Chapter 16. France Market
16.1. Overview
16.2. Market Revenue, by Product type (2017–2030)
16.3. Market Revenue, by Type (2017–2030)
16.4. Market Revenue, by Cell type (2017–2030)
16.5. Market Revenue, by Molecule type (2017–2030)
16.6. Market Revenue, by Application (2017–2030)
16.7. Market Revenue, by Usage type (2017–2030)
16.8. Market Revenue, by End user (2017–2030)
Chapter 17. U.K. Market
17.1. Overview
17.2. Market Revenue, by Product type (2017–2030)
17.3. Market Revenue, by Type (2017–2030)
17.4. Market Revenue, by Cell type (2017–2030)
17.5. Market Revenue, by Molecule type (2017–2030)
17.6. Market Revenue, by Application (2017–2030)
17.7. Market Revenue, by Usage type (2017–2030)
17.8. Market Revenue, by End user (2017–2030)
Chapter 18. Italy Market
18.1. Overview
18.2. Market Revenue, by Product type (2017–2030)
18.3. Market Revenue, by Type (2017–2030)
18.4. Market Revenue, by Cell type (2017–2030)
18.5. Market Revenue, by Molecule type (2017–2030)
18.6. Market Revenue, by Application (2017–2030)
18.7. Market Revenue, by Usage type (2017–2030)
18.8. Market Revenue, by End user (2017–2030)
Chapter 19. Spain Market
19.1. Overview
19.2. Market Revenue, by Product type (2017–2030)
19.3. Market Revenue, by Type (2017–2030)
19.4. Market Revenue, by Cell type (2017–2030)
19.5. Market Revenue, by Molecule type (2017–2030)
19.6. Market Revenue, by Application (2017–2030)
19.7. Market Revenue, by Usage type (2017–2030)
19.8. Market Revenue, by End user (2017–2030)
Chapter 20. Japan Market
20.1. Overview
20.2. Market Revenue, by Product type (2017–2030)
20.3. Market Revenue, by Type (2017–2030)
20.4. Market Revenue, by Cell type (2017–2030)
20.5. Market Revenue, by Molecule type (2017–2030)
20.6. Market Revenue, by Application (2017–2030)
20.7. Market Revenue, by Usage type (2017–2030)
20.8. Market Revenue, by End user (2017–2030)
Chapter 21. China Market
21.1. Overview
21.2. Market Revenue, by Product type (2017–2030)
21.3. Market Revenue, by Type (2017–2030)
21.4. Market Revenue, by Cell type (2017–2030)
21.5. Market Revenue, by Molecule type (2017–2030)
21.6. Market Revenue, by Application (2017–2030)
21.7. Market Revenue, by Usage type (2017–2030)
21.8. Market Revenue, by End user (2017–2030)
Chapter 22. India Market
22.1. Overview
22.2. Market Revenue, by Product type (2017–2030)
22.3. Market Revenue, by Type (2017–2030)
22.4. Market Revenue, by Cell type (2017–2030)
22.5. Market Revenue, by Molecule type (2017–2030)
22.6. Market Revenue, by Application (2017–2030)
22.7. Market Revenue, by Usage type (2017–2030)
22.8. Market Revenue, by End user (2017–2030)
Chapter 23. Australia Market
23.1. Overview
23.2. Market Revenue, by Product type (2017–2030)
23.3. Market Revenue, by Type (2017–2030)
23.4. Market Revenue, by Cell type (2017–2030)
23.5. Market Revenue, by Molecule type (2017–2030)
23.6. Market Revenue, by Application (2017–2030)
23.7. Market Revenue, by Usage type (2017–2030)
23.8. Market Revenue, by End user (2017–2030)
Chapter 24. South Korea Market
24.1. Overview
24.2. Market Revenue, by Product type (2017–2030)
24.3. Market Revenue, by Type (2017–2030)
24.4. Market Revenue, by Cell type (2017–2030)
24.5. Market Revenue, by Molecule type (2017–2030)
24.6. Market Revenue, by Application (2017–2030)
24.7. Market Revenue, by Usage type (2017–2030)
24.8. Market Revenue, by End user (2017–2030)
Chapter 25. Brazil Market
25.1. Overview
25.2. Market Revenue, by Product type (2017–2030)
25.3. Market Revenue, by Type (2017–2030)
25.4. Market Revenue, by Cell type (2017–2030)
25.5. Market Revenue, by Molecule type (2017–2030)
25.6. Market Revenue, by Application (2017–2030)
25.7. Market Revenue, by Usage type (2017–2030)
25.8. Market Revenue, by End user (2017–2030)
Chapter 26. Mexico Market
26.1. Overview
26.2. Market Revenue, by Product type (2017–2030)
26.3. Market Revenue, by Type (2017–2030)
26.4. Market Revenue, by Cell type (2017–2030)
26.5. Market Revenue, by Molecule type (2017–2030)
26.6. Market Revenue, by Application (2017–2030)
26.7. Market Revenue, by Usage type (2017–2030)
26.8. Market Revenue, by End user (2017–2030)
Chapter 27. Saudi Arabia Market
27.1. Overview
27.2. Market Revenue, by Product type (2017–2030)
27.3. Market Revenue, by Type (2017–2030)
27.4. Market Revenue, by Cell type (2017–2030)
27.5. Market Revenue, by Molecule type (2017–2030)
27.6. Market Revenue, by Application (2017–2030)
27.7. Market Revenue, by Usage type (2017–2030)
27.8. Market Revenue, by End user (2017–2030)
Chapter 28. South Africa Market
28.1. Overview
28.2. Market Revenue, by Product type (2017–2030)
28.3. Market Revenue, by Type (2017–2030)
28.4. Market Revenue, by Cell type (2017–2030)
28.5. Market Revenue, by Molecule type (2017–2030)
28.6. Market Revenue, by Application (2017–2030)
28.7. Market Revenue, by Usage type (2017–2030)
28.8. Market Revenue, by End user (2017–2030)
Chapter 29. U.A.E. Market
29.1. Overview
29.2. Market Revenue, by Product type (2017–2030)
29.3. Market Revenue, by Type (2017–2030)
29.4. Market Revenue, by Cell type (2017–2030)
29.5. Market Revenue, by Molecule type (2017–2030)
29.6. Market Revenue, by Application (2017–2030)
29.7. Market Revenue, by Usage type (2017–2030)
29.8. Market Revenue, by End user (2017–2030)
Chapter 30. Competitive Landscape
30.1. List of Market Players and their Offerings
30.2. Competitive Benchmarking of Key Players
30.3. Product Benchmarking of Key Players
30.4. Recent Strategic Developments
Chapter 31. Company Profiles
31.1. Sartorius AG
31.1.1. Business overview
31.1.2. Product and service offerings
31.1.3. Key financial summary
31.2. Thermo Fisher Scientific Inc
31.2.1. Business overview
31.2.2. Product and service offerings
31.2.3. Key financial summary
31.3. Getinge AB
31.3.1. Business overview
31.3.2. Product and service offerings
31.3.3. Key financial summary
31.4. Merck KGaA
31.4.1. Business overview
31.4.2. Product and service offerings
31.4.3. Key financial summary
31.5. Eppendorf SE
31.5.1. Business overview
31.5.2. Product and service offerings
31.5.3. Key financial summary
31.6. PBS Biotech, Inc
31.6.1. Business overview
31.6.2. Product and service offerings
31.7. Distek, Inc
31.7.1. Business overview
31.7.2. Product and service offerings
31.8. ABEC Inc.
31.8.1. Business overview
31.8.2. Product and service offerings
31.9. G&G Technologies Inc
31.9.1. Business overview
31.9.2. Product and service offerings
31.10. Solida Biotech GmBH
31.10.1. Business overview
31.10.2. Product and service offerings
31.11. Surplus Solutions LLC
31.11.1. Business overview
31.11.2. Product and service offerings
31.12. Esco Micro Pte Ltd
31.12.1. Business overview
31.12.2. Product and service offerings
31.13. Celltainer Biotech BV
31.13.1. Business overview
31.13.2. Product and service offerings
31.14. Stobbe Pharma GmbH
31.14.1. Business overview
31.14.2. Product and service offerings
31.15. SATAKE MultiMix Corporation
31.15.1. Business overview
31.15.2. Product and service offerings
Chapter 32. Appendix
32.1. Abbreviations
32.2. Sources and References
32.3. Related Reports
| ※参考情報 使い捨てバイオリアクターとは、生物学的プロセスを実施するための装置で、特に細胞培養や発酵に用いられる容器です。このバイオリアクターは、使用後に廃棄できるように設計されており、従来の再利用可能なバイオリアクターと比較して多くの利点があります。特に、コンタミネーションのリスクを低減し、操作の簡便さを提供します。 使い捨てバイオリアクターには、主に2つの種類があります。一つは、バイオファーミングやワクチン製造に利用される高流動性のエアロビック(好気的)バイオリアクターです。これらは通常フィルム状の材料で作られ、気体の交換や溶存酸素の管理が容易に行えます。もう一つは、静的な条件下で使用されるアニマルセル(動物細胞)用のバイオリアクターです。こちらは、特に遺伝子治療や抗体の生産に使われることが多いです。 用途としては、製薬業界が最も顕著です。ワクチン、抗体、遺伝子治療製品などの製造において、専用の使い捨てバイオリアクターは、製品の一貫性を保ちながら迅速にスケールアップが可能です。また、研究開発の分野でも、小規模な細胞培養や初期段階のプロセス開発に利用されます。このような使い捨ての性質から、研究者はさらなる実験を続けることが容易になります。 関連技術として、センサー技術や自動化技術が挙げられます。近年の技術進歩により、リアルタイムでのモニタリングが可能となり、培養状態や栄養素の消費、廃棄物の生成などを正確に把握できるようになっています。また、これにより効率的なプロセス管理が実現します。自動化技術も進化しており、ロボットアームを使ってバイオリアクターを操作することが一般化しています。これにより、人為的なミスが減り、作業の効率が向上します。 さらに、使い捨てバイオリアクターは環境への負荷を軽減するための技術としても注目されています。従来のバイオリアクターは洗浄や滅菌が必要ですが、使い捨てタイプはそのプロセスを省略できるため、水やエネルギーの節約につながります。また、廃棄物処理においても、使い捨てバイオリアクターは特定の廃棄物処理方法を採用生産後の取り扱いが容易です。 課題としては、バイオリアクターのコストが挙げられます。使い捨てタイプは初期投資が高くなる場合があるため、特に大規模な生産施設ではコスト管理が重要です。加えて、品質管理やトレーサビリティの観点でも、バイオリアクターの設計や使用後の廃棄方法に工夫が求められます。 今後の展望として、より環境に優しい新材料を使用した使い捨てバイオリアクターの開発が期待されています。また、デジタルツールやAI技術を活用した培養プロセスの最適化も進むでしょう。これにより、迅速かつ高品質な製品の製造が可能になり、医療やバイオテクノロジーの分野におけるさらなる革新が予想されます。 使い捨てバイオリアクターは、バイオプロセスの中心的な役割を果たす技術として、今後も多くの業界での利用が進むことでしょう。その利便性や効率性から、益々重要性が高まると考えられます。生産工程の見直しや新しい技術の導入によって、持続可能な生産方法へと進化することが求められているのです。 |

