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市場調査レポート
商品コード
1154871
細胞培養タンパク質表面コーティングの世界市場規模、シェア、産業動向分析レポート:タイプ別、タンパク質ソース別、地域別展望と予測、2022年~2028年Global Cell Culture Protein Surface Coating Market Size, Share & Industry Trends Analysis Report By Type, By Protein Source, By Regional Outlook and Forecast, 2022 - 2028 |
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細胞培養タンパク質表面コーティングの世界市場規模、シェア、産業動向分析レポート:タイプ別、タンパク質ソース別、地域別展望と予測、2022年~2028年 |
出版日: 2022年10月31日
発行: KBV Research
ページ情報: 英文 214 Pages
納期: 即納可能
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細胞培養タンパク質表面コーティングの世界市場規模は、2028年までに19億米ドルに達し、予測期間中にCAGR15.5%で上昇すると予測されています。
細胞培養は組織培養としても知られており、通常、本来の生息地以外の管理された条件下で細胞を増殖させるプロセスです。これらの細胞は、研究、細胞の構造と機能の調査、幹細胞研究、薬剤開発、および遺伝子工学のためのモデルシステムを作成するために使用されます。
COVID-19の影響分析
COVID-19のパンデミックは、世界中のいくつかの経済に大きな損害を与えました。パンデミックの発生により、世界中の多くのビジネスが大きな支障をきたしました。しかし、細胞培養タンパク質表面コーティング市場は、パンデミックの発生によりプラスの影響を受けました。幹細胞は、心不全、変形性関節症、目の病気など、さまざまな症状に対する潜在的な治療法として浮上しており、COVID-19感染の副作用ともなりえます。したがって、細胞培養タンパク質表面コーティング市場の成長は、COVID-19の大流行時に強化されたのです。
市場成長要因
先進的な幹細胞研究アプローチを活用するバイオテクノロジーおよびライフサイエンス企業の注目度が高まっています。
幹細胞研究とは、動物から採取した幹細胞の性質や応用可能性を研究することです。幹細胞はあらゆる身体組織の源であり、その特徴を理解することで、健康な身体と病気の身体の発達と恒常性を容易に理解することができます。幹細胞は、分化と自己再生の間で一定の均衡を保っている細胞です。幹細胞生物学の情報と最新の技術に基づき、幹細胞の培養条件は極めて重要であり、継続的に最適化されなければならないです。
近年、3d細胞培養の導入が加速しています。
創薬や組織工学において、3次元(3D)細胞培養技術への関心が高まっています。これは、より生理学的に適切なデータを得ることができ、in vivo研究においてより予測的な統計学が得られるという明らかな利点があるためです。2次元培養システムとは対照的に、3次元細胞培養システムは、細胞が組織内で生活する実際の環境をより効果的に再現していることを示す研究や調査が増加しています。
市場抑制要因
機器や手順を操作する熟練した専門家の不足
細胞培養タンパク質表面コーティング法は、ヘルスケアおよびライフサイエンス分野において非常に効率的かつ先進的なアプローチです。しかし、装置やプロセスを実行するためのスキルや専門知識が業界内で不足しています。近年の技術革新や製品開発を考慮すると、フローサイトメーターやマルチモードリーダーなどの複雑な機器を操作できる有資格者の不足が業界に影響を与えています。
タイプ別の展望
コーティングタイプに基づき、細胞培養タンパク質表面コーティング市場は、セルフコーティングとプレコーティングに二分化されます。2021年、プレコーティング部門は、細胞培養タンパク質表面コーティング市場で大きな収益シェアを獲得しました。プレコートされた培養グッズは、すぐに使える、時間の節約、安定した品質の提供、分離と培養の強化など、多くの利点を提供します。その結果、プレコートされた培養グッズの魅力は高まっています。
タンパク源別の展望
タンパク質ソース別では、細胞培養タンパク質表面コーティング市場は、動物由来、ヒト由来、合成、植物由来に区分されます。2021年、合成セグメントは、細胞培養タンパク質表面コーティング市場の有望な収益シェアを登録しました。動物を含まない成分に対する需要の高まりは、この市場セグメントの拡大に大きく寄与しています。近年、ビーガンの傾向が現れ、現在、世界中で大きく広がっています。
地域別の展望
地域別では、細胞培養タンパク質表面コーティング市場は、北米、欧州、アジア太平洋、LAMEAで分析されています。2021年、北米は細胞培養タンパク質表面コーティング市場で最も高い収益シェアを占めています。高度に発達したヘルスケアと研究インフラ、およびこの地域が創薬に重点を置いていることが、この地域の細胞培養タンパク質表面コーティング市場の成長を後押ししています。
List of Figures
The Global Cell Culture Protein Surface Coating Market size is expected to reach $1.9 billion by 2028, rising at a market growth of 15.5% CAGR during the forecast period.
Cell culture protein surface coating is a process, which aims to improve the growth and cell adhesion of in vitro cell culture. Protein-coated cell culture tools provide a three-dimensional microenvironment for optimal adhesion and proliferation of cells. The optimization of the cell culture environment permits the growth, function, and survival of cells in a manner that is realistic and representative.
Protein surface coating of cell culture comprises coating the cell culture surface using extracellular matrix and protein components to enhance the proliferation and adherence of cells in vitro. Corning is one of the most traditional approaches for businesses specializing in cell-culture surface technology, with a long history of creating innovative surfaces with enhanced capabilities. 3D cell culture is the technique of cultivating biological cells in a controlled environment where they can interact with neighboring cells in every dimension.
Cell culture is also known as tissue culture and is the process of growing cells under controlled conditions, typically outside their native habitat. These cells are used to create model systems for research, the investigation of cellular structure and function, stem cell research, drug development, and genetic engineering.
COVID-19 Impact Analysis
The COVID-19 pandemic caused major damage to several economies all over the world. A number of businesses all over the world were significantly hampered due to the emergence of the pandemic. However, the cell culture protein surface coating market was positively impacted due to the outbreak. Stem cells have emerged as a potential treatment for a variety of conditions, including heart failure, osteoarthritis, and eye illnesses that can also be a side-effect of the COVID-19 infection. Therefore, the growth of the cell culture protein surface coating market was bolstered during the COVID-19 pandemic.
Market Growth Factor
Increasing Focus of Biotechnology and Life Science Companies to Leverage Advanced Stem Cell Research Approaches
Stem-cell research is the study of the qualities and possible applications of stem cells obtained from animals. Stem cells are the source of all bodily tissues and comprehending their features facilitates comprehension of the development and homeostasis of the healthy and diseased body. These cells maintain a constant equilibrium between differentiation and self-renewal. Complying with the stem cell biology information and the most recent technological advances, stem cell culture conditions are crucial and must be continuously optimized.
An Upsurge in The Adoption Of 3d Cell Culture in Recent Years
In drug discovery and tissue engineering, interest in three-dimensional (3D) cell culture techniques have increased due to their obvious advantages in giving more physiologically relevant data and more predictive statistics for in vivo studies. A rising number of studies and research indicate that in contrast to the 2D culture system, 3D cell culture systems more effectively replicate the actual environment in which cells live in tissues.
Market Restraining Factor
The Dearth of Skilled Professionals to Operate Instruments and Procedures
The cell culture protein surface coating method is a very efficient and advanced approach in the healthcare and life science sector. However, there is a lack of skills and expertise in the industry in order to execute equipment and processes. In consideration of technological breakthroughs and product development in recent years, the industry has been impacted by a lack of qualified personnel to operate complicated equipment, such as flow cytometers or multi-mode readers.
Type Outlook
Based on Coating Type, the Cell Culture Protein Surface Coating Market is bifurcated into Self-coating and Precoating. In 2021, the precoating segment garnered a significant revenue share of the cell culture protein surface coating market. Precoated culture goods offer numerous benefits, such as being ready-to-use, saving time, delivering consistent quality, and enhancing isolation and cultivation. Consequently, the appeal of precoated cultural goods is growing.
Protein Source Outlook
By Protein Source, the Cell Culture Protein Surface Coating Market is segmented into Animal-derived, Human-derived, Synthetic, and Plant-derived. In 2021, the synthetic segment registered a promising revenue share of the cell culture protein surface coating market. The rising demand for animal-free components is a major contributor to the expansion of this market segment. In recent years, the trend of veganism has emerged and is now spreading significantly all over the world.
Regional Outlook
Region-Wise, the Cell Culture Protein Surface Coating Market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. In 2021, North America accounted for the highest revenue share of the cell culture protein surface coating market. The highly developed healthcare and research infrastructure as well as the region's emphasis on drug discovery have propelled the growth of the regional cell culture protein surface coating market.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Thermo Fisher Scientific, Corning, Inc., Merck Millipore (Merck Group), Promega Corp., Sartorius Stedim Biotech S.A. (Sartorius AG), Greiner Bio-One International GmbH, PerkinElmer, Inc., BioVision, Inc., Bio-Techne Corporation and Viogene BioTek Corp.
Market Segments covered in the Report:
By Type
By Protein Source
By Geography
Companies Profiled
Unique Offerings from KBV Research
5.1.3.1.1.1 US Cell Culture Protein Surface Coating Market by Precoating Type
5.1.3.2.1.1 Canada Cell Culture Protein Surface Coating Market by Precoating Type
5.1.3.3.1.1 Mexico Cell Culture Protein Surface Coating Market by Precoating Type
5.1.3.4.1.1 Rest of North America Cell Culture Protein Surface Coating Market by Precoating Type
5.2.3.1.1.1 Germany Cell Culture Protein Surface Coating Market by Precoating Type
5.2.3.2.1.1 UK Cell Culture Protein Surface Coating Market by Precoating Type
5.2.3.3.1.1 France Cell Culture Protein Surface Coating Market by Precoating Type
5.2.3.4.1.1 Russia Cell Culture Protein Surface Coating Market by Precoating Type
5.2.3.5.1.1 Spain Cell Culture Protein Surface Coating Market by Precoating Type
5.2.3.6.1.1 Italy Cell Culture Protein Surface Coating Market by Precoating Type
5.2.3.7.1.1 Rest of Europe Cell Culture Protein Surface Coating Market by Precoating Type
5.3.3.1.1.1 China Cell Culture Protein Surface Coating Market by Precoating Type
5.3.3.2.1.1 Japan Cell Culture Protein Surface Coating Market by Precoating Type
5.3.3.3.1.1 India Cell Culture Protein Surface Coating Market by Precoating Type
5.3.3.4.1.1 South Korea Cell Culture Protein Surface Coating Market by Precoating Type
5.3.3.5.1.1 Singapore Cell Culture Protein Surface Coating Market by Precoating Type
5.3.3.6.1.1 Malaysia Cell Culture Protein Surface Coating Market by Precoating Type
5.3.3.7.1.1 Rest of Asia Pacific Cell Culture Protein Surface Coating Market by Precoating Type
5.4.3.1.1.1 Brazil Cell Culture Protein Surface Coating Market by Precoating Type
5.4.3.2.1.1 Argentina Cell Culture Protein Surface Coating Market by Precoating Type
5.4.3.3.1.1 UAE Cell Culture Protein Surface Coating Market by Precoating Type
5.4.3.4.1.1 Saudi Arabia Cell Culture Protein Surface Coating Market by Precoating Type
5.4.3.5.1.1 South Africa Cell Culture Protein Surface Coating Market by Precoating Type
5.4.3.6.1.1 Nigeria Cell Culture Protein Surface Coating Market by Precoating Type
5.4.3.7.1.1 Rest of LAMEA Cell Culture Protein Surface Coating Market by Precoating Type