[시장보고서]자동 세포 셰이커 시장 보고서 : 동향, 예측, 경쟁 분석(-2031년)

자동 세포 셰이커 시장 보고서 : 동향, 예측, 경쟁 분석(-2031년)

Automated Cell Shaker Market Report: Trends, Forecast and Competitive Analysis to 2031

상품코드 : 1680587

리서치사 : Lucintel

발행일 : 2025년 03월

페이지 정보 : 영문 150 Pages

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한글목차

세계 자동 세포 셰이커 시장의 미래는 거대 제약사, 바이오 제약사, CDMO/CMO, 연구기관, 학술기관, 병원 시장에 기회가 있어 유망한 것으로 평가되고 있습니다. 자동 세포 셰이커 세계 시장은 2025년부터 2031년까지 3.2%의 CAGR로 2031년까지 약 6억 5,120만 달러에 달할 것으로 예상됩니다. 이 시장의 주요 촉진요인은 바이오의약품 생산 시설 및 생명과학 연구소의 자동화 솔루션에 대한 수요 증가, 바이오프로세스, 재생의학 및 의약품 개발에 대한 관심 증가, 생물과학 및 바이오의약품 연구에서의 높은 처리량 솔루션에 대한 수요 증가 등입니다.

Lucintel의 예측에 따르면, 용도별로는 제약 연구에서 자동 셰이커의 중요성 때문에 예측 기간 동안 의약품 개발이 가장 큰 부문을 차지할 것으로 보입니다.
최종 용도별로는 대규모 제조 및 바이오 공정에서 이러한 장비의 중요한 기능으로 인해 대형 제약회사가 가장 큰 부문으로 남을 것으로 예상됩니다.
지역별로는 APAC가 예측 기간 동안 가장 높은 성장세를 보일 것으로 예상됩니다. 이 지역은 생명과학 연구, 특히 의약품 개발 및 줄기세포 연구와 같은 분야에 중점을 두고 있기 때문입니다.

자동 세포 셰이커 시장의 전략적 성장 기회

자동 세포 셰이커 시장은 기술 발전, 효율성 향상, 바이오테크 산업의 확대에 힘입어 큰 성장 기회를 제공하고 있습니다.

바이오의약품 생산 : 성장하는 바이오의약품 시장은 특히 생산 공정의 스케일업에 있어 자동 세포 셰이커에 큰 기회가 될 수 있습니다. 자동화 시스템은 더 높은 생산량을 가져오는 비용 효율적이고 효율적인 세포배양 솔루션을 제공하여 바이오의약품 생산에 필수적인 요소로 자리 잡고 있습니다.
연구 개발 : 자동화된 셀 셰이커는 학술 및 연구 기관에서 점점 더 널리 보급되고 있습니다. 이러한 추세는 제조업체에게 다양한 연구 용도의 고유한 요구에 맞는 특수 장비를 제공할 수 있는 기회를 제공합니다.
연구소의 품질 관리 자동 세포 셰이커는 현탁액 내 세포의 일관되고 적절한 진동이 요구되는 품질 관리 프로세스에서 중요한 역할을 합니다. 연구자들은 정확하고 반복 가능한 결과를 보장하기 위해 이 장비에 의존하고 있으며, 이는 진동 시스템에서 더 많은 혁신의 기회를 창출하고 있습니다.
환경 모니터링 애플리케이션 자동 세포 셰이커를 환경 모니터링 시스템과 함께 사용하면 환경 조건의 변화가 세포의 증식에 어떤 영향을 미치는지에 대한 귀중한 정보를 얻을 수 있습니다. 이 기능을 통해 환경 연구에서의 용도를 넓힐 수 있습니다.
신흥 시장 확대 : 신흥 시장에서의 생명공학 및 제약 산업의 부상은 자동 세포 교반기 제조업체에게 성장 기회를 제공합니다. 이러한 지역의 수요를 충족시키기 위해서는 효율적인 진동 시스템이 필수적입니다.

이러한 기회를 활용함으로써 이해관계자들은 시장 성장을 촉진하고 연구실의 효율성을 높일 수 있습니다.

자동 세포 셰이커 시장 촉진요인 및 과제

자동 세포 셰이커 시장은 시장 촉진요인 및 과제라고 불리는 많은 요인의 상호 작용에 직면해 있으며, 여기에는 기술, 정치 경제, 규제 변수가 포함됩니다. 중요한 역할을 하고 이해관계자의 삶을 변화시킬 수 있는 중요한 요인 중 하나는 해외 시장 진출 전략입니다.

자동 세포 셰이커 시장을 이끄는 요인은 다음과 같습니다:

기술 발전 : 자동화 및 제어 기술 분야의 끊임없는 혁신으로 시장이 성장하고 있으며, IoT 애플리케이션을 탑재한 스마트 셰이커의 등장은 데이터 수집뿐만 아니라 모니터링, 분석 및 운영 측면을 확장하여 실험실에 적합한 시장으로 부상하고 있습니다.
바이오의약품 수요 증가 : 바이오의약품은 지속적으로 증가하고 있으며, 첨단 자동 세포배양 시스템에 대한 수요가 증가하고 있습니다. 공정 개발의 생물학 및 기타 엔지니어링 원리는 공정의 산업화를 돕고 바이오의약품의 사용을 증가시키는 자동 세포 셰이커로 이어집니다.
연구 효율성 중시 : 연구자들은 연구 효율과 실험의 재현성을 향상시키는 솔루션을 요구하고 있습니다. 자동 세포 셰이커는 보다 안정적으로 작동하기 때문에 보다 정확한 실험이 이루어지고 생산량이 증가합니다.
생명공학 연구의 증가 : 생명공학 산업의 성장은 자동 세포 셰이커와 같은 정교한 실험 장비에 대한 수요를 창출하고 있습니다. 연구 활동의 증가에 따라 고처리량 스크린과 효율적인 세포배양 시스템에 대한 수요가 증가할 것으로 예상됩니다.
환경 친화적 노력 : 연구실은 보다 지속가능한 작업으로 전환하고 있으며, 이는 에너지 효율이 높은 자동화 시스템 도입으로 이어지고 있습니다. 이에 따라 제조업체들은 녹색 경제를 지원하는 친환경 솔루션을 설계하게 되었습니다.

자동 세포 셰이커 시장의 과제는 다음과 같습니다:

높은 초기 비용 : 고급 자동 세포 셰이커의 높은 초기 비용은 특히 소규모 실험실의 경우 장벽이 될 수 있습니다. 이러한 경제적 제약은 특히 자원이 부족한 개발도상국에서 채택을 제한할 수 있습니다.
복잡한 기술 : 급속한 기술 발전은 일부 연구자들이 따라가지 못할 수도 있습니다. 많은 사용자들이 고도의 자동화 시스템을 효과적으로 운영하기 위해 광범위한 교육이 필요할 수 있으며, 이는 시장 수용을 지연시킬 수 있습니다.
유지보수 및 지원 : 자동화 시스템이 제대로 작동하려면 정기적인 유지보수 및 기술 지원이 필요합니다. 서비스 가용성에 공백이 생기면 이러한 기술에 의존하는 실험실의 효율성을 저해할 수 있습니다.

이러한 시장 촉진요인과 도전과제의 상호 작용이 자동 세포 셰이커 시장의 미래를 형성할 것입니다. 높은 비용과 전문적 교육의 필요성과 같은 장애물을 극복하는 것이 시장 확대의 열쇠가 될 것으로 보입니다.

거시경제 동향(2019-2024년)과 예측(2025-2031년)
세계의 자동 세포 셰이커 시장 동향(2019-2024년)과 예측(2025-2031년)
제품별 : 세계의 자동 세포 셰이커 시장
- 자동 세포 셰이커
- 오비탈 셰이커
- 앰비언트 셰이커
- 오비탈 더블 데커 셰이커
- 오비탈 트리플 데커 셰이커
- 벤치탑 인큐베이터 셰이커
- 회전 암 탑재 세포 셰이커
- 액세서리
세포배양별 : 세계의 자동 세포 셰이커 시장
- 유한 세포주 배양
- 무한 세포주 배양
용도별 : 세계의 자동 세포 셰이커 시장
- 세포 치료
- 의약품 개발
- 줄기세포 조사
- 재생의료
최종 용도별 : 세계의 자동 세포 셰이커 시장
- 대형 제약회사
- 바이오의약품 기업
- CDMO/CMO
- 조사기관
- 학술기관
- 병원

제4장 2019년부터 2031년까지 지역별 시장 동향과 예측 분석

지역별 : 자동 세포 셰이커 시장
북미의 자동 세포 셰이커 시장
유럽의 자동 세포 셰이커 시장
아시아태평양의 자동 세포 셰이커 시장
기타 지역의 자동 세포 셰이커 시장

제5장 경쟁 분석

제품 포트폴리오 분석
업무 통합
Porter's Five Forces 분석

제6장 성장 기회와 전략 분석

성장 기회 분석
- 제품별 : 세계 자동 세포 셰이커 시장 성장 기회
- 세포배양별 : 세계의 자동 세포 셰이커 시장 성장 기회
- 용도별 : 세계의 자동 세포 셰이커 시장 성장 기회
- 최종 용도별 : 세계의 자동 세포 셰이커 시장 성장 기회
세계의 자동 세포 셰이커 시장 최신 동향
전략 분석
- 신제품 개발
- 세계의 자동 세포 셰이커 시장 능력 확대
- 세계의 자동 세포 셰이커 시장 합병, 인수, 합작투자
- 인증과 라이선싱

제7장 주요 기업 개요

Kuhner Shaker
Infors
Thermo Fisher Scientific
Esco Micro
Corning
Labtron Equipment
Danaher
LabStrong
Bio-Rad Laboratories
Merck

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영문 목차

영문목차

The future of the global automated cell shaker market looks promising with opportunities in the mega pharmaceutical company, biopharmaceutical company, CDMO/CMO, research organization, academic institute, and hospital markets. The global automated cell shaker market is expected to reach an estimated $651.2 million by 2031 with a CAGR of 3.2% from 2025 to 2031. The major drivers for this market are the growing need for automated solutions in biopharmaceutical production facilities and life sciences research laboratories, increasing attention on bioprocessing, regenerative medicine, and drug development, and an increase in the need for high-throughput solutions in the biological sciences and biopharmaceutical research.

Lucintel forecasts that, within the application category, drug development will remain the largest segment over the forecast period due to the automated shakers' crucial significance in pharmaceutical research.
Within the end use category, mega pharmaceutical companies will remain the largest segment due to these devices' essential function in large-scale manufacturing and bioprocessing.
In terms of regions, APAC is expected to witness the highest growth over the forecast period due to the region's growing emphasis on life sciences research, especially in fields like medication development and stem cell studies.

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Emerging Trends in the Automated Cell Shaker Market

The automated cell shaker market is witnessing significant growth due to the increasing demand for efficient and reproducible laboratory processes, especially in biotechnological, pharmaceutical, and microbiological research. These devices, which enable the automatic shaking of cell cultures, are crucial for promoting uniform growth, enhancing productivity, and ensuring consistent results in scientific experiments. As industries shift toward automation for better precision, cost-efficiency, and reduced human error, the market for automated cell shakers is expanding rapidly. Several emerging trends are shaping this market, including technological advancements, integration with artificial intelligence (AI) and the Internet of Things (IoT), and the growing focus on miniaturization and user-friendly designs.

Integration of Artificial Intelligence (AI) and Machine Learning (ML): AI and ML are being integrated into automated cell shaker systems to optimize shaking conditions based on real-time feedback. These technologies allow for adaptive process control, enabling precise adjustments to shaking speed, duration, and other environmental factors, which enhance cell growth and productivity.
Internet of Things (IoT) Connectivity: With the rise of IoT, automated cell shakers are becoming more connected, enabling remote monitoring and control via smartphones, tablets, or computers. IoT-enabled shakers can send alerts, log data, and provide detailed performance analytics, which help improve workflow efficiency and ease troubleshooting.
Miniaturization and Compact Systems: The trend towards miniaturization is leading to the development of smaller, more compact automated cell shakers. These devices maintain high levels of performance while occupying less space in laboratories, making them ideal for environments with limited space or for high-throughput applications where large numbers of cultures need to be shaken simultaneously.
Increased Customization and User-Friendliness: Manufacturers are focusing on developing systems that offer greater flexibility, such as customizable shaking modes, adjustable parameters, and improved ease of use. This trend is aimed at reducing the learning curve for new users and making these systems more adaptable to different research needs.
Sustainability and Energy Efficiency: There is growing interest in creating energy-efficient, eco-friendly automated cell shakers that consume less power and have a smaller environmental footprint. These systems are designed with energy-saving features, contributing to cost savings and supporting the broader movement towards sustainable laboratory practices.
Integration with Bioreactors and Other Lab Equipment: Automated cell shakers are increasingly being integrated with other laboratory systems, such as bioreactors, for more seamless workflows in industrial bioprocessing and research. These systems enable researchers to streamline cell culture processes and improve overall productivity in cell-based manufacturing.

The automated cell shaker market is evolving rapidly with advancements in technology, connectivity, and customization. Trends such as AI integration, IoT connectivity, and miniaturization are revolutionizing laboratory practices by improving efficiency, precision, and scalability. As the demand for more sophisticated and user-friendly laboratory equipment grows, the automated cell shaker market will continue to expand, supporting a wide range of industries in research and biomanufacturing. Manufacturers are responding by developing smarter, more energy-efficient, and environmentally sustainable solutions to meet the future needs of the scientific community.

Recent Developments in the Automated Cell Shaker Market

The automated cell shaker market, which had previously stagnated due to a lack of innovation, has recently seen significant advancements. These changes are driven by technological improvements and evolving user demands, which aim to enhance performance, accuracy, and environmental sustainability in laboratories.

Launch of Smart Shakers: The introduction of smart automated cell shakers, equipped with IoT capabilities, is revolutionizing laboratory work. These devices allow researchers to adjust rocking parameters remotely, ensuring optimal conditions for experiments regardless of their location.
New Programmable Features: Manufacturers are offering programmable automated shakers for specific applications. These shakers enable researchers to tailor shaking profiles for different cell types, ensuring optimal growth conditions and consistent experimental results.
Energy-Efficient Developments: A key focus of recent innovations is reducing energy consumption. Companies are developing automated shakers that are not only more energy-efficient but also made from environmentally friendly materials, helping reduce the environmental impact of laboratory activities.
Laboratory Automation Integration: Automated cell shakers are increasingly being incorporated into larger laboratory automation systems. This integration streamlines workflows, facilitates data and process integration, and minimizes human error, all of which contribute to greater efficiency.
Compact, Portable Designs: The demand for compact, space-saving automated cell shakers is growing, especially among smaller laboratories with space constraints. These portable models are ideal for labs with limited room, expanding their capability for various experiments.

These developments are making automated cell shakers more effective, user-friendly, and environmentally sustainable. As technology continues to advance, these systems will further optimize laboratory organization and workflow.

Strategic Growth Opportunities for Automated Cell Shaker Market

The automated cell shaker market offers significant growth opportunities, driven by technological advancements, the need for increased efficiency, and the expansion of the biotechnology industry.

Biopharmaceutical Production: The growing biopharmaceutical market presents significant opportunities for automated cell shakers, particularly in scaling up production processes. Automated systems offer cost-effective and efficient cell culture solutions that yield higher output, making them essential in biopharmaceutical manufacturing.
Research and Development: Automated cell shakers are becoming increasingly prevalent in academic and research institutions. This trend opens up opportunities for manufacturers to provide specialized equipment tailored to the unique needs of different research applications.
Quality Control in Laboratories: Automated cell shakers play a crucial role in quality control processes, where consistent and moderate shaking of cells in suspension is required. Researchers rely on these devices to ensure precise and reproducible results, creating opportunities for further innovation in shaking systems.
Environmental Monitoring Applications: Automated cell shakers, when used in conjunction with environmental monitoring systems, offer valuable insights into how changes in environmental conditions affect cellular growth. This capability expands their use in environmental research.
Emerging Market Expansion: The rise of biotechnology and pharmaceutical industries in emerging markets presents growth opportunities for automated cell shaker manufacturers. Efficient shaking systems will be critical for meeting the demand in these regions.

By leveraging these opportunities, stakeholders can drive market growth and enhance laboratory efficiency.

Automated Cell Shaker Market Driver and Challenges

The automated cell shaker market faces an interplay of a number of factors that could be referred to as drivers and challenges: These include technology, political economy, and regulation variables. One of the key factors that play a significant role and can change the lives of stakeholders is foreign market entry strategies.

The factors responsible for driving the automated cell shaker market include:

Technological Advancements: The market is witnessing growth owing to persistent innovations in the area of automation and control Technologies. Rising number of smart shakers, with IoT applications, is not limited to data collection, but expands monitoring and analytics as well as operational aspects and thus is well marketed to the Labs.
Increasing Demand for Biopharmaceuticals: Biopharmaceuticals products are increasing and therefore there is a need for sophisticated automated cell culturing systems. Biology and other engineering principles in development of the processes leads to automatic cell shakers which will aid in industrialization of the processes thereby increasing their use in biopharmaceuticals.
Emphasize on Research Efficiency: Some solutions are requested by researchers that can improve research efficiency and reproducibility in carrying out the experiments. Automated cell shakers work more consistently, and therefore, more accurate tests are performed which increases output.
Increase in Biotechnology Research: The growth of biotechnology industry is creating demand for sophisticated laboratory instruments such as the automated cell shakers. With increased research activities, there will be a higher demand for high-throughput screens and efficient cell culture systems.
Green Initiatives: There is a shift in the practices within laboratories towards more sustainable ones and this leads to the uptake of energy efficient automated systems. This has led to manufacturers designing green solutions in support of green economy.

Challenges in the automated cell shaker market are:

High Initial Costs: The high upfront costs of advanced automated cell shakers can be a barrier, especially for small laboratories. This financial constraint may limit adoption, particularly in developing countries where resources are limited.
Complex Technology: Rapid technological advancements can make it difficult for some researchers to keep up. Many users may require extensive training to operate advanced automated systems effectively, which could slow down market acceptance.
Maintenance and Support: Automated systems require regular maintenance and technical support to function properly. Any gaps in service availability can hinder the efficiency of laboratories that rely on these technologies.

The interaction between these drivers and challenges will shape the future of the automated cell shaker market. Overcoming obstacles such as high costs and the need for specialized training will be key to further market expansion.

List of Automated Cell Shaker Companies

Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. Through these strategies automated cell shaker companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the automated cell shaker companies profiled in this report include-

Kuhner Shaker
Infors
Thermo Fisher Scientific
Esco Micro
Corning
Labtron Equipment
Danaher
LabStrong
Bio-Rad Laboratories
Merck

Automated Cell Shaker by Segment

The study includes a forecast for the global automated cell shaker market by product, cell culture, application, end use, and region.

Automated Cell Shaker Market by Product [Analysis by Value from 2019 to 2031]:

Automated Cell Shakers
Orbital Shakers
Ambient Shakers
Orbital Double Decker Shakers
Orbital Triple Decker Shakers
Benchtop Incubator Shakers
Cell Shaker with Rotatory Arms
Accessories

Automated Cell Shaker Market by Cell Culture [Analysis by Value from 2019 to 2031]:

Finite Cell Line Cultures
Infinite Cell Line Cultures

Automated Cell Shaker Market by Application [Analysis by Value from 2019 to 2031]:

Cell Therapy
Drug Development
Stem Cell Research
Regenerative Medicine

Automated Cell Shaker Market by End Use [Analysis by Value from 2019 to 2031]:

Mega Pharmaceutical Companies
Biopharmaceutical Companies
CDMO/CMO
Research Organizations
Academic Institutes
Hospitals

Automated Cell Shaker Market by Region [Analysis by Value from 2019 to 2031]:

North America
Europe
Asia Pacific
The Rest of the World

Country Wise Outlook for the Automated Cell Shaker Market

The global automated cell shaker market is witnessing growth driven by increasing demand for high-throughput screening, biopharmaceutical production, and efficient cell culture applications. Key markets like the United States, China, Germany, India, and Japan are showing strong development due to trends in health, laboratory technology, and process innovation.

United States: The U.S. market is seeing advancements in smart automated cell shakers, which are equipped with IoT and AI technologies for remote control and real-time adjustments. Researchers are increasingly favoring compact, energy-efficient devices that offer greater flexibility and ease of use. The demand for automation in biotechnological and pharmaceutical labs is also driving market growth.
China: China's growing biotechnology sector and increased investment in R&D have spurred the demand for automated cell shakers. Companies are localizing production to lower costs and meet domestic demand while ensuring that their products adhere to international quality standards.
Germany: Germany continues to be a leader in precision and quality in the automated cell shaker market. Manufacturers are focusing on creating advanced systems that can handle different shaking profiles based on the cell type. Strategic collaborations between industry and research organizations are driving innovation in bioprocessing and drug development.
India: In India, the automated cell shaker market is growing rapidly due to the expanding biopharmaceutical industry and increased research activity in academic institutions. Manufacturers are developing low-cost, compact models to meet the needs of small laboratories while supporting government-driven initiatives in biotechnology.
Japan: Japan's automated cell shaker market is characterized by advanced technology and high-quality manufacturing. New developments include systems that integrate seamlessly into larger laboratory automation setups. Research in Japan is increasingly focused on portable, multifunctional shakers that support both cell culture and bioprocessing applications.

Features of the Global Automated Cell Shaker Market

Market Size Estimates: Automated cell shaker market size estimation in terms of value ($M).

Trend and Forecast Analysis: Market trends (2019 to 2024) and forecasts (2025 to 2031) by various segments and regions.

Segmentation Analysis: Automated cell shaker market size by various segments, such as by product, cell culture, application, end use, and region in terms of value ($M).

Regional Analysis: Automated cell shaker market breakdown by North America, Europe, Asia Pacific, and Rest of the World.

Growth Opportunities: Analysis of growth opportunities in different product, cell culture, application, end use, and regions for the automated cell shaker market.

Strategic Analysis: This includes M&A, new product development, and competitive landscape of the automated cell shaker market.

Analysis of competitive intensity of the industry based on Porter's Five Forces model.

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This report answers following 11 key questions:

Q.1. What are some of the most promising, high-growth opportunities for the automated cell shaker market by product (automated cell shakers, orbital shakers, ambient shakers, orbital double decker shakers, orbital triple decker shakers, benchtop incubator shakers, cell shaker with rotatory arms, and accessories), cell culture (finite cell line cultures and infinite cell line cultures), application (cell therapy, drug development, stem cell research, and regenerative medicine), end use (mega pharmaceutical companies, biopharmaceutical companies, CDMO/CMO, research organizations, academic institutes, and hospitals), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
Q.2. Which segments will grow at a faster pace and why?
Q.3. Which region will grow at a faster pace and why?
Q.4. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
Q.5. What are the business risks and competitive threats in this market?
Q.6. What are the emerging trends in this market and the reasons behind them?
Q.7. What are some of the changing demands of customers in the market?
Q.8. What are the new developments in the market? Which companies are leading these developments?
Q.9. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
Q.11. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?

1. Executive Summary

2. Global Automated Cell Shaker Market : Market Dynamics

2.1: Introduction, Background, and Classifications
2.2: Supply Chain
2.3: Industry Drivers and Challenges

3. Market Trends and Forecast Analysis from 2019 to 2031

3.1. Macroeconomic Trends (2019-2024) and Forecast (2025-2031)
3.2. Global Automated Cell Shaker Market Trends (2019-2024) and Forecast (2025-2031)
3.3: Global Automated Cell Shaker Market by Product
- 3.3.1: Automated Cell Shakers
- 3.3.2: Orbital Shakers
- 3.3.3: Ambient Shakers
- 3.3.4: Orbital Double Decker Shakers
- 3.3.5: Orbital Triple Decker Shakers
- 3.3.6: Benchtop Incubator Shakers
- 3.3.7: Cell Shaker with Rotatory Arms
- 3.3.8: Accessories
3.4: Global Automated Cell Shaker Market by Cell Culture
- 3.4.1: Finite Cell Line Cultures
- 3.4.2: Infinite Cell Line Cultures
3.5: Global Automated Cell Shaker Market by Application
- 3.5.1: Cell Therapy
- 3.5.2: Drug Development
- 3.5.3: Stem Cell Research
- 3.5.4: Regenerative Medicine
3.6: Global Automated Cell Shaker Market by End Use
- 3.6.1: Mega Pharmaceutical Companies
- 3.6.2: Biopharmaceutical Companies
- 3.6.3: CDMO/CMO
- 3.6.4: Research Organizations
- 3.6.5: Academic Institutes
- 3.6.6: Hospitals

4. Market Trends and Forecast Analysis by Region from 2019 to 2031

4.1: Global Automated Cell Shaker Market by Region
4.2: North American Automated Cell Shaker Market
- 4.2.1: North American Market by Application: Cell Therapy, Drug Development, Stem Cell Research, and Regenerative Medicine
- 4.2.2: North American Market by End Use: Mega Pharmaceutical Companies, Biopharmaceutical Companies, CDMO/CMO, Research Organizations, Academic Institutes, and Hospitals
4.3: European Automated Cell Shaker Market
- 4.3.1: European Market by Application: Cell Therapy, Drug Development, Stem Cell Research, and Regenerative Medicine
- 4.3.2: European Market by End Use: Mega Pharmaceutical Companies, Biopharmaceutical Companies, CDMO/CMO, Research Organizations, Academic Institutes, and Hospitals
4.4: APAC Automated Cell Shaker Market
- 4.4.1: APAC Market by Application: Cell Therapy, Drug Development, Stem Cell Research, and Regenerative Medicine
- 4.4.2: APAC Market by End Use: Mega Pharmaceutical Companies, Biopharmaceutical Companies, CDMO/CMO, Research Organizations, Academic Institutes, and Hospitals
4.5: ROW Automated Cell Shaker Market
- 4.5.1: ROW Market by Application: Cell Therapy, Drug Development, Stem Cell Research, and Regenerative Medicine
- 4.5.2: ROW Market by End Use: Mega Pharmaceutical Companies, Biopharmaceutical Companies, CDMO/CMO, Research Organizations, Academic Institutes, and Hospitals

5. Competitor Analysis

5.1: Product Portfolio Analysis
5.2: Operational Integration
5.3: Porter's Five Forces Analysis

6. Growth Opportunities and Strategic Analysis

6.1: Growth Opportunity Analysis
- 6.1.1: Growth Opportunities for the Global Automated Cell Shaker Market by Product
- 6.1.2: Growth Opportunities for the Global Automated Cell Shaker Market by Cell Culture
- 6.1.3: Growth Opportunities for the Global Automated Cell Shaker Market by Application
- 6.1.4: Growth Opportunities for the Global Automated Cell Shaker Market by End Use
- 6.1.5: Growth Opportunities for the Global Automated Cell Shaker Market by Region
6.2: Emerging Trends in the Global Automated Cell Shaker Market
6.3: Strategic Analysis
- 6.3.1: New Product Development
- 6.3.2: Capacity Expansion of the Global Automated Cell Shaker Market
- 6.3.3: Mergers, Acquisitions, and Joint Ventures in the Global Automated Cell Shaker Market
- 6.3.4: Certification and Licensing

7. Company Profiles of Leading Players

7.1: Kuhner Shaker
7.2: Infors
7.3: Thermo Fisher Scientific
7.4: Esco Micro
7.5: Corning
7.6: Labtron Equipment
7.7: Danaher
7.8: LabStrong
7.9: Bio-Rad Laboratories
7.10: Merck