Single Use Downstream Bioprocessing Market SIZE AND SHARE ANALYSIS - GROWTH TRENDS AND FORECASTS (2024 - 2031)

Single Use Downstream Bioprocessing Market is Segmented By Type of Product (Single-use Chromatography Systems, Single-use Filtration Systems, Single-u....

Single Use Downstream Bioprocessing Market Size

Market Size in USD Bn

CAGR15.1%

Study Period2024 - 2031
Base Year of Estimation2023
CAGR15.1%
Market ConcentrationHigh
Major Players3M, Agilitech, CPC (Colder Products Company), Cytiva Lifesciences, Pall Corporation and Among Others.
*Disclaimer: Major players are listed in no particular order.
*Source: Coherent Market Insights
setting-icon
Want to purchase customized report?
please let us know !

Single Use Downstream Bioprocessing Market Analysis

The single use downstream bioprocessing market is estimated to be valued at USD 1.51 Bn in 2024 and is expected to reach USD 4.05 Bn by 2031, growing at a compound annual growth rate (CAGR) of 15.1% from 2024 to 2031.

The market is driven by growing demand for flexibility and lower capital costs by biopharmaceutical manufacturers. Single-use technologies allow for smaller batch sizes and quick turnarounds, making them attractive for development and clinical trials.

Single Use Downstream Bioprocessing Market Trends

Market Driver - Increasing adoption of single-use technology in biopharmaceutical manufacturing

The biopharmaceutical industry has seen considerable growth in the last decade with the development and commercialization of many novel biologics and biotherapeutics. This has put tremendous pressure on manufacturers to ramp up production capacities to meet rising demands. At the same time, regulatory expectations around process validation and safety have also increased substantially. Traditional stainless steel-based manufacturing infrastructure is complex and capital intensive to expand. It also requires considerable lead time for designing, installing and validating new production lines.

On the other hand, single-use technologies provide a flexible and scalable approach to biomanufacturing. Systems incorporating disposable bags, tubing, mixers, filters and other components allow for modular production capacity that can be expanded faster by adding more production trains. Since the components are pre-sterilized and disposable, there are minimal cleaning and sterilization validations required, unlike stainless steel systems. This helps speed up implementation of capacity changes. For biopharma companies developing new molecules, single-use systems offer an attractive option to rapidly produce clinical trial materials with flexible production volumes.

Adoption is also driven by the fact that single-use systems reduce the risk of product cross-contamination. Since each production campaign utilizes a new sterile consumable set, there is no risk of carry-over from previous product runs. This makes single-use more suitable for facilities producing multiple drug substances in a given manufacturing suite. Overall equipment and facility footprints are compact compared to traditional processes. Single-use systems are also gaining preference for continuous manufacturing due to the ease of assembling fluid transfer connections.

Market Driver - Reduction in CO2 emissions and project lead time with single-use systems

Sustainability and environmental protection are becoming major considerations for both biopharma companies and their consumers. The industry recognizes the importance of minimizing manufacturing footprints and reducing carbon emissions to lessen environmental impact. Single-use bioprocessing technologies provide a clear edge over traditional stainless steel-based systems from this standpoint. Since disposable systems eliminate the need for large cylindrical steel tanks, mix-use skids and complex pipe work arrangements, overall equipment footprints are significantly smaller. Compact facilities translate to reduced energy consumption for plant operations and lower greenhouse gas emissions over the life cycle of the manufacturing plant.

In addition, project lead times for capacity additions using single-use are considerably shorter. With pre-assembled and pre-qualified disposable components, production lines can be rapidly configured on demand. There is no extensive plant equipment fabrication or lengthy on-site qualification phases. Installation and commissioning times are optimized through modular approaches. Also, since single-use systems avoid cross-contamination issues, changeover times between product batches and campaign configurations are minimal. This efficient implementation and flexibility allow manufacturers to quickly respond to changing market demands or re-purpose facilities. The reduced project cycle times in turn reduce CO2 emissions from construction activities at the site.

Single Use Downstream Bioprocessing Market Key Factors

Market Challenge - High cost of single-use systems

One of the major challenges for the single use downstream bioprocessing market is the high costs associated with single-use systems. While single-use technologies offer advantages such as decreased risk of cross-contamination, faster setup times and reduced validation requirements, the per-run costs of single-use systems are still significantly higher than the costs of conventional stainless steel-based systems. This is majorly due to the high material costs involved in producing single-use components which are intended for a single-use. Despite efforts of major players to develop more economically viable single-use solutions through innovations in material choices, joint ventures and economies of scale of production, the costs associated with single-use manufacturing infrastructure like bags, tubing, connectors, single-use sensors etc. continue to remain higher than conventional systems. This high-cost challenge acts as a deterrent for biopharmaceutical manufacturers, especially those producing biosimilars and generic drugs, to switch to single-use technologies from conventional systems. Overcoming this cost challenge through further technological advancements and economies of scale is critical for the wider adoption of single-use systems and future growth of this market.

Market Opportunity - Technological advancements in single-use systems

One of the major opportunities for the single use downstream bioprocessing market lies in ongoing technological advancements in the field of single-use systems. Continuous efforts from major players are bringing about innovations that enhance the efficiency, versatility and functionality of single-use technologies. Advancements like multi-product single-use platforms, modular and customizable systems, integrated sensor technologies and connectivity solutions have increased the capabilities of single-use systems. Meanwhile, adoption of improvements like membrane adsorbers, affinity chromatography materials and continuous bioprocessing technologies in single-use formats improves process economics.

Such technological upgrades enable single-use systems to take on more complex manufacturing tasks like purification of multiple products. This expanding scope of application increases the appeal of single-use systems even for large-scale manufacturing facilities. Further innovations can be expected in areas like integrated automation, data analytics solutions and smart single-use technologies in coming years. These advancements will help boost the adoption of versatile and competitive single-use technologies for various bioprocessing needs.

Key winning strategies adopted by key players of Single Use Downstream Bioprocessing Market

Ge Healthcare was one of the early adopters of single-use technologies in the bioprocessing space in the early 2000s. They introduced flexible single-use biocontainers and assembled systems for concentration/diafiltration that helped customers transition from stainless steel to flexible film bags. This early mover advantage helped GE capture a significant market share.

In 2015, Danaher acquired Pall Corporation, a leading provider of filtration, separation and purification solutions, for $13.8 billion. This made Danaher a dominant player in bioprocessing by strengthening its position across the purification value chain from upstream to downstream processing using single-use technologies.

In 2017, Sartorius launched its single-use bioprocessing platform called Stedim Biotech FlexFactory. It offers modular, workflow-oriented platforms that combine upstream and downstream single-use equipment like bioreactors, mixer, filtration and storage solutions. The integrated platforms helped streamline processes and significantly reduced operational costs.

In 2018, Thermo Fisher added 440,000 square feet to its single-use production facility in New Castle, Delaware to meet the growing demand. The expanded capacity allowed Thermo Fisher to reliably deliver large volumes of single-use products to support customer needs from clinical to commercial stages.

In 2020, Merck KGaA partnered with Cytiva (formerly GE Healthcare Life Sciences) to develop single-use solutions optimized for Merck's processes. Through early collaboration, Cytiva could tailor its platforms as emerging customer needs evolve. Such strategic partnerships help companies gain product development insights.

Segmental Analysis of Single Use Downstream Bioprocessing Market

Insights, By Type of Product: Advantages of flexibility and cost-effectiveness drive growth of single-use chromatography systems

Single-use chromatography systems sub-segment have emerged as the dominant product type with a  market share of 35.6% in the single use downstream bioprocessing market owing to their flexibility and lower costs compared to traditional stainless-steel systems. These single-use systems allow biopharmaceutical manufacturers to rapidly configure chromatography steps during process development and drug production without the need for costly capital equipment investment or cleaning validation requirements between product changeovers.

The disposable, pre-assembled nature of single-use chromatography columns, cartridges, and other components enable fast and easy setup that minimizes process interruptions. This flexibility is invaluable during clinical trials when frequent process changes or adjustments are common. It facilitates rapid scale-up to meet increasing commercial drug demands through modular additions of single-use equipment without lengthy equipment purchases, installations, and validations. The flexibility also supports multi-product facilities by reducing carry-over risks and changeover times between different biologics.

In addition to flexibility advantages, single-use chromatography aids in cost savings through elimination of validation, cleaning, and cleaning agent costs typically associated with stainless steel systems. Single-use products are disposed after one-time use, negating the need for cleaning and re-qualification of expensive durable equipment for each new product. This saves considerably on operational expenses related to cleaning validation and reduces process water, utility, and cleaning solution consumption. Overall, the flexibility and total cost of ownership benefits have made single-use chromatography an invaluable technology for biomanufacturers across various scales of operation.

Single Use Downstream Bioprocessing Market By Segmentation

Insights, By Scale of Operation: Preclinical/clinical trials drive dominant share of preclinical/clinical scale operations

The preclinical/clinical sub-segment commands the largest share of 52.7% in the single use downstream bioprocessing market for scale of operation. During drug development phases, processes are dynamically optimized, and sample volumes are relatively small. Thus, the flexibility and disposable nature of single-use systems allow for faster design-build-test-learn cycles that are critical to advancing candidate molecules through preclinical and clinical testing.

For preclinical and early-phase clinical studies, single-use systems facilitate rapid screening of multiple lead candidates and formulation variations before selecting molecules for further development. Their modular, customizable design enables scaling processes up or down quickly as understanding of a drug's properties evolve. This permit testing smaller biomolecule batches without major capital investment until a candidate shows sufficient promise to justify scaled-up manufacturing.

Additionally, single-use technologies meet stringent purity standards for products intended for first-in-human studies through their disposable nature. This mitigates risks of residues, leachable, extractables or cross-contamination issues associated with traditional stainless-steel equipment during safety-critical early development phases. Overall, the adaptability, cleanliness and compact design of single-use downstream systems have made them indispensable for optimizing bioprocessing workflows during preclinical and clinical drug development.

Additional Insights of Single Use Downstream Bioprocessing Market

  • The adoption of single-use technologies in bioprocessing has grown due to their benefits, such as reduced contamination risks and increased productivity. These technologies are pivotal in addressing the growing demand for biologics, driven by the increasing number of FDA-approved biologics and ongoing clinical trials. Companies are focusing on developing and automating single-use systems to enhance efficiency, which is expected to drive market growth significantly in the coming years.

Competitive overview of Single Use Downstream Bioprocessing Market

The major players operating in the single use downstream bioprocessing market include 3M, Agilitech, CPC (Colder Products Company), Cytiva Lifesciences, Pall Corporation, Pneumatic Scale Angelus, and Thermo Fisher Scientific.

Single Use Downstream Bioprocessing Market Leaders

  • 3M
  • Agilitech
  • CPC (Colder Products Company)
  • Cytiva Lifesciences
  • Pall Corporation
*Disclaimer: Major players are listed in no particular order.

Single Use Downstream Bioprocessing Market - Competitive Rivalry, 2024

Market Concentration Graph

Single Use Downstream Bioprocessing Market

Market Consolidated
(Dominated by major players)
Market Fragmented
(Highly competitive with lots of players.)
*Source: Coherent Market Insights

Recent Developments in Single Use Downstream Bioprocessing Market

  • In June 2023, Waters expanded collaboration with Sartorius to deliver comprehensive bioanalytics for downstream biomanufacturing.
  • In June 2023, Cytiva added Culture Bio’s 250 mL bioreactor vessel to its portfolio to tackle scaling bottlenecks.

Single Use Downstream Bioprocessing Market

  1. RESEARCH OBJECTIVES AND ASSUMPTIONS
    • Research Objectives
    • Assumptions
    • Abbreviations
  2. MARKET PURVIEW
    • Report Description
      • Market Definition and Scope
    • Executive Summary
      • Single Use Downstream Bioprocessing Market, By Type of Product
      • Single Use Downstream Bioprocessing Market, By Scale of Operation
      • Coherent Opportunity Map (COM)
  3. MARKET DYNAMICS, REGULATIONS, AND TRENDS ANALYSIS
    • Market Dynamics
    • Impact Analysis
    • Key Highlights
    • Regulatory Scenario
    • Product Launches/Approvals
    • PEST Analysis
    • PORTER’s Analysis
    • Merger and Acquisition Scenario
  4. Global Single Use Downstream Bioprocessing Market, By Type of Product, 2024-2031, (USD Bn)
    • Introduction
      • Market Share Analysis, 2024 and 2031 (%)
      • Y-o-Y Growth Analysis, 2019 - 2031
      • Segment Trends
    • Single-use Chromatography Systems
      • Introduction
      • Market Size and Forecast, and Y-o-Y Growth, 2019-2031, (USD Bn)
    • Single-use Filtration Systems
      • Introduction
      • Market Size and Forecast, and Y-o-Y Growth, 2019-2031, (USD Bn)
    • Single-use Sampling Systems
      • Introduction
      • Market Size and Forecast, and Y-o-Y Growth, 2019-2031, (USD Bn)
    • Single-use Connectors
      • Introduction
      • Market Size and Forecast, and Y-o-Y Growth, 2019-2031, (USD Bn)
  5. Global Single Use Downstream Bioprocessing Market, By Scale of Operation, 2024-2031, (USD Bn)
    • Introduction
      • Market Share Analysis, 2024 and 2031 (%)
      • Y-o-Y Growth Analysis, 2019 - 2031
      • Segment Trends
    • Preclinical / Clinical
      • Introduction
      • Market Size and Forecast, and Y-o-Y Growth, 2019-2031, (USD Bn)
    • Commercial
      • Introduction
      • Market Size and Forecast, and Y-o-Y Growth, 2019-2031, (USD Bn)
  6. Global Single Use Downstream Bioprocessing Market, By Region, 2019 - 2031, Value (USD Bn)
    • Introduction
      • Market Share (%) Analysis, 2024,2027 & 2031, Value (USD Bn)
      • Market Y-o-Y Growth Analysis (%), 2019 - 2031, Value (USD Bn)
      • Regional Trends
    • North America
      • Introduction
      • Market Size and Forecast, By Type of Product , 2019 - 2031, Value (USD Bn)
      • Market Size and Forecast, By Scale of Operation , 2019 - 2031, Value (USD Bn)
        • U.S.
        • Canada
    • Latin America
      • Introduction
      • Market Size and Forecast, By Type of Product , 2019 - 2031, Value (USD Bn)
      • Market Size and Forecast, By Scale of Operation , 2019 - 2031, Value (USD Bn)
        • Brazil
        • Argentina
        • Mexico
        • Rest of Latin America
    • Europe
      • Introduction
      • Market Size and Forecast, By Type of Product , 2019 - 2031, Value (USD Bn)
      • Market Size and Forecast, By Scale of Operation , 2019 - 2031, Value (USD Bn)
        • Germany
        • U.K.
        • Spain
        • France
        • Italy
        • Russia
        • Rest of Europe
    • Asia Pacific
      • Introduction
      • Market Size and Forecast, By Type of Product , 2019 - 2031, Value (USD Bn)
      • Market Size and Forecast, By Scale of Operation , 2019 - 2031, Value (USD Bn)
        • China
        • India
        • Japan
        • Australia
        • South Korea
        • ASEAN
        • Rest of Asia Pacific
    • Middle East
      • Introduction
      • Market Size and Forecast, By Type of Product , 2019 - 2031, Value (USD Bn)
      • Market Size and Forecast, By Scale of Operation , 2019 - 2031, Value (USD Bn)
        • GCC Countries
        • Israel
        • Rest of Middle East
    • Africa
      • Introduction
      • Market Size and Forecast, By Type of Product , 2019 - 2031, Value (USD Bn)
      • Market Size and Forecast, By Scale of Operation , 2019 - 2031, Value (USD Bn)
        • South Africa
        • North Africa
        • Central Africa
  7. COMPETITIVE LANDSCAPE
    • 3M
      • Company Highlights
      • Product Portfolio
      • Key Developments
      • Financial Performance
      • Strategies
    • Agilitech
      • Company Highlights
      • Product Portfolio
      • Key Developments
      • Financial Performance
      • Strategies
    • CPC (Colder Products Company)
      • Company Highlights
      • Product Portfolio
      • Key Developments
      • Financial Performance
      • Strategies
    • Cytiva Lifesciences
      • Company Highlights
      • Product Portfolio
      • Key Developments
      • Financial Performance
      • Strategies
    • Pall Corporation
      • Company Highlights
      • Product Portfolio
      • Key Developments
      • Financial Performance
      • Strategies
    • Pneumatic Scale Angelus
      • Company Highlights
      • Product Portfolio
      • Key Developments
      • Financial Performance
      • Strategies
    • Thermo Fisher Scientific
      • Company Highlights
      • Product Portfolio
      • Key Developments
      • Financial Performance
      • Strategies
  8. Analyst Recommendations
    • Wheel of Fortune
    • Analyst View
    • Coherent Opportunity Map
  9. References and Research Methodology
    • References
    • Research Methodology
    • About us

Single Use Downstream Bioprocessing Market Segmentation

  • By Type of Product
    • Single-use Chromatography Systems
    • Single-use Filtration Systems
    • Single-use Sampling Systems
    • Single-use Connectors
  • By Scale of Operation
    • Preclinical / Clinical
    • Commercial
pie-chart.png

Would you like to explore the option of buying individual sections of this report?

Frequently Asked Questions :

What are the key factors hampering the growth of the single use downstream bioprocessing market?

The high cost of single-use systems and limited capacity for large-scale manufacturing processes are the major factors hampering the growth of the single use downstream bioprocessing market.

What are the major factors driving the single use downstream bioprocessing market growth?

Which is the leading type of product in the single use downstream bioprocessing market?

Which are the major players operating in the single use downstream bioprocessing market?

What will be the CAGR of the single use downstream bioprocessing market?