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生物製药合约製造市场 - 全球产业规模、份额、趋势、机会和预测,按来源、服务、药物类型、治疗领域、地区和竞争细分,2019-2029FBiopharmaceutical Contract Manufacturing Market - Global Industry Size, Share, Trends, Opportunity & Forecast, Segmented By Source, By Service, By Drug Types, By Therapeutics Area, By Region, & Competition, 2019-2029F |
2023 年全球生物製药合约製造市场估值为382.5 亿美元,预计在预测期内将出现令人印象深刻的成长,到2029 年复合年增长率为11.01%。处于强劲成长轨道,受到推动对生物製品,特别是单株抗体 (mAb)、疫苗和重组蛋白的需求不断增长。这种扩张的关键驱动因素是外包趋势,生物製药公司更加依赖合约製造组织 (CMO) 来优化生产成本、管理波动的产能需求并加快复杂生物疗法的上市时间。这种趋势在疫苗、生物製品和生物相似药的生产中尤其明显,北美在这些领域保持着主导地位。
市场概况 | |
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预测期 | 2025-2029 |
2023 年市场规模 | 382.5亿美元 |
2029 年市场规模 | 717.4亿美元 |
2024-2029 年复合年增长率 | 11.01% |
成长最快的细分市场 | 哺乳动物来源 |
最大的市场 | 北美洲 |
生物製剂在治疗肿瘤、自体免疫疾病和罕见疾病方面的应用推动了其大幅成长。即将到来的重磅生物製剂的专利到期正在推动生物仿製药的兴起,这种具有成本效益的替代品为合约製造商提供了巨大的收入机会。此外,COVID-19 大流行凸显了 CMO 在大规模疫苗生产中的关键作用,放大了它们在全球医疗保健供应链中的重要性。
随着市场参与者面临日益激烈的竞争,人们明显转向需要高度专业化生产设施的生物疗法,例如基因疗法和个人化医疗。随着生物加工领域的新兴技术(例如一次性系统),合约製造商正在适应这些更复杂的生产需求,同时降低营运成本。这种对创新治疗方式的适应,加上全球对外包和灵活製造的日益关注,为 BCM 市场的长期成长奠定了基础。
对生物製剂和生物相似药的需求不断增长
成本效率和产能弹性
生物加工技术进步
监理复杂性和合规风险
产能限制及生产瓶颈
更重视个人化医疗和先进疗法
转向持续製造和流程优化
来源洞察
区域洞察
Global Biopharmaceutical Contract Manufacturing Market was valued at USD 38.25 Billion in 2023 and is anticipated to project impressive growth in the forecast period with a CAGR of 11.01% through 2029. The Global Biopharmaceutical Contract Manufacturing (BCM) Market is on a strong growth trajectory, fueled by the increasing demand for biologic products, particularly monoclonal antibodies (mAbs), vaccines, and recombinant proteins. A key driver of this expansion is the outsourcing trend, where biopharmaceutical companies rely more heavily on contract manufacturing organizations (CMOs) to optimize production costs, manage fluctuating capacity needs, and speed up time-to-market for complex biologic therapies. This trend is particularly noticeable in the production of vaccines, biologics, and biosimilars, sectors where North America maintains a dominant position.
Market Overview | |
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Forecast Period | 2025-2029 |
Market Size 2023 | USD 38.25 Billion |
Market Size 2029 | USD 71.74 Billion |
CAGR 2024-2029 | 11.01% |
Fastest Growing Segment | Mammalian Source |
Largest Market | North America |
Biologics have seen substantial growth, driven by their application in treating oncology, autoimmune diseases, and rare disorders. The imminent patent expirations of blockbuster biologics are fueling the rise of biosimilars-cost-effective alternatives that present significant revenue opportunities for contract manufacturers. Furthermore, the COVID-19 pandemic underscored the pivotal role of CMOs in large-scale vaccine production, amplifying their importance in global healthcare supply chains.
As market players face increasing competition, there is a clear shift toward biologic therapies that require highly specialized production facilities, such as gene therapies and personalized medicine. With emerging technologies in bioprocessing-such as single-use systems-contract manufacturers are adapting to meet these more complex production demands while also reducing operational costs. This adaptation to innovative therapeutic modalities, alongside the increased global focus on outsourcing and flexible manufacturing, positions the BCM market for long-term growth.
Key Market Drivers
Rising Demand for Biologics and Biosimilars
The rising demand for biologics and biosimilars is a significant catalyst for the growth of the Global Biopharmaceutical Contract Manufacturing (BCM) Market, driving the need for flexible, scalable, and cost-effective production solutions. Biologics-complex, protein-based drugs-have become the cornerstone of treatments for many chronic and serious diseases, including cancer, autoimmune disorders, and rare diseases. The demand for these therapies is escalating due to their effectiveness in addressing conditions that were previously difficult to treat. Simultaneously, the expiration of patents for many blockbuster biologics has led to an increase in biosimilars, offering affordable alternatives to original biologics.
The production of biologics is inherently complex due to the need for specialized facilities, expertise, and high-quality control measures. As demand for biologics continues to rise, particularly in oncology, autoimmune disorders, and rare conditions, biopharma companies are outsourcing to CMOs to ensure high-capacity production without the burden of building or maintaining expensive in-house manufacturing facilities. CMOs have the specialized infrastructure to produce complex biologics at scale, enabling biopharma companies to meet market demands efficiently and cost-effectively. Patent expirations for major biologic drugs have triggered a significant increase in the biosimilars market, which offers a more affordable alternative to brand-name biologics. The development of biosimilars requires similar levels of manufacturing expertise and regulatory adherence as their originator counterparts. CMOs have stepped in to provide the manufacturing capacity and technical capabilities needed to produce these high-quality alternatives at scale. As the biosimilar market expands, particularly in key therapeutic areas like oncology and autoimmune diseases, CMOs are becoming essential partners in ensuring a steady supply of these cost-effective biologic treatments. Biopharmaceutical companies are under constant pressure to reduce costs, and manufacturing is a significant component of the overall cost structure. By outsourcing to CMOs, companies can avoid the high capital investment required to build and maintain state-of-the-art biologic manufacturing facilities. Furthermore, CMOs offer operational efficiencies through economies of scale, enabling companies to reduce per-unit production costs while maintaining the quality and compliance required for biologics. This cost-effectiveness is particularly crucial in the competitive biosimilars market, where reducing manufacturing costs is key to offering competitive pricing.
The increasing complexity of biologics, particularly in the areas of gene and cell therapies, requires specialized manufacturing capabilities. Advancements in bioprocessing technologies, such as single-use bioreactor systems and continuous biomanufacturing, allow CMOs to meet the growing demand for biologics and biosimilars. These innovations help streamline production, increase flexibility, and improve cost-efficiency. As a result, CMOs are better positioned to support the evolving needs of the biologics market, which is essential for handling the surge in biologic production driven by both original biologics and biosimilars. The production of biologics is heavily regulated, with stringent requirements set by authorities such as the FDA, EMA, and other global regulatory bodies. The complexity of biologic production-coupled with the need for precise formulation and quality control-makes regulatory compliance a critical factor. CMOs with deep expertise in navigating these regulatory landscapes are sought after by biopharmaceutical companies, which must ensure their products meet global standards. This regulatory expertise is especially important for biosimilars, which must demonstrate near-identical quality and performance to their reference biologic counterparts. Outsourcing to specialized CMOs allows companies to mitigate risks associated with non-compliance and ensures the safe and efficient production of both biologics and biosimilars. Personalized medicine is an emerging trend, particularly in oncology, where treatments are increasingly tailored to the individual genetic makeup of patients. Many of these personalized therapies, including cell and gene therapies, require small-batch production and highly specialized manufacturing processes. The ability of CMOs to provide flexible, small-scale manufacturing capabilities for these niche therapies is driving growth in the BCM market. As demand for such therapies continues to increase, CMOs are becoming an essential partner in delivering innovative treatments to the market. The rising demand for biologics and biosimilars is a primary driver of the biopharmaceutical contract manufacturing market. By offering cost-effective, flexible, and scalable manufacturing solutions, CMOs enable biopharmaceutical companies to meet the growing need for complex biologics and affordable biosimilars, all while maintaining high-quality standards and regulatory compliance. As the biologics market continues to expand, the role of CMOs will be integral to meeting the production needs of an increasingly complex and competitive industry.
Cost Efficiency and Capacity Flexibility
Cost efficiency and capacity flexibility are two pivotal drivers of growth in the Global Biopharmaceutical Contract Manufacturing (BCM) Market. As the biopharmaceutical industry continues to expand, with increasing demand for biologics, vaccines, and biosimilars, companies face significant challenges in managing production costs and scaling operations efficiently. Contract Manufacturing Organizations (CMOs) offer solutions that allow pharmaceutical companies to address these challenges, creating a symbiotic relationship that drives market growth. Building and maintaining in-house manufacturing facilities for biologics and complex drugs is capital-intensive, requiring significant investments in infrastructure, equipment, and skilled personnel. This is especially true for biologics, which require specialized production processes, such as cell culture and protein purification. CMOs provide an attractive alternative by offering already established, state-of-the-art manufacturing facilities, allowing biopharmaceutical companies to avoid the high upfront costs of building or upgrading their own plants. By outsourcing, companies can save on infrastructure, reduce labor costs, and benefit from economies of scale. This financial advantage enables pharmaceutical companies to allocate more resources to R&D, sales, and marketing, ultimately driving growth in the market.
Biopharmaceutical companies must quickly respond to fluctuations in market demand for biologics, biosimilars, and other therapies. The ability to scale production up or down without the constraints of fixed in-house capacity is a major advantage offered by CMOs. These organizations are equipped to handle large-scale production runs during periods of high demand, such as the launch of a new biologic or the approval of a biosimilar. On the other hand, CMOs can also adjust production to meet smaller, more personalized production requirements, such as those needed for gene therapies or orphan drugs, where batch sizes are smaller but still require high-quality, specialized manufacturing capabilities. This flexibility is critical for managing the unpredictable nature of demand in the biopharmaceutical industry. CMOs offer the capability to ramp up production quickly in response to market changes, regulatory approvals, or unexpected spikes in demand, such as those seen during health crises (e.g., the COVID-19 pandemic and the subsequent demand for vaccines). For companies focusing on a diverse pipeline of products or navigating shifts in treatment regimens, the ability to scale capacity without investing in long-term fixed assets is invaluable. The biopharmaceutical industry faces intense pressure to bring new products to market as quickly as possible to meet patient needs and capitalize on competitive opportunities. Outsourcing manufacturing to CMOs allows companies to bypass the long lead times required to build or upgrade manufacturing facilities. CMOs can begin production quickly, accelerating the overall time-to-market. This is particularly important for new biologics and biosimilars, where early market entry can have a significant financial impact. By outsourcing production, biopharma companies can focus their internal resources on critical R&D and regulatory approval processes, while leaving the manufacturing complexities to the experts, thus speeding up overall product development timelines.
Biologics and biosimilars are subject to stringent regulatory standards, including compliance with Good Manufacturing Practices (GMP). Ensuring adherence to these complex regulations requires specialized knowledge and capabilities. Developing and maintaining in-house manufacturing facilities capable of meeting these standards is expensive and resource-draining. By outsourcing manufacturing to CMOs that already have GMP-compliant facilities and regulatory expertise, biopharmaceutical companies can ensure that their products meet the necessary regulatory requirements without the need for extensive in-house investments. This cost-effective approach to regulatory compliance reduces the risk of costly delays or fines, while ensuring that manufacturing processes meet both safety and quality standards. Outsourcing manufacturing operations to CMOs allows biopharmaceutical companies to concentrate on their core competencies, particularly in research and development, marketing, and distribution. By leveraging the expertise of CMOs in manufacturing and process optimization, companies can focus their efforts on the innovation and strategic aspects of their business, such as the development of new therapies or expansion into new markets. This allows for greater operational efficiency and a more agile response to market demands. It also enables companies to remain competitive in an increasingly crowded and fast-evolving biopharmaceutical industry. Cost efficiency and capacity flexibility are integral to the sustained growth of the biopharmaceutical contract manufacturing market. By offering scalable production capabilities, reducing operational costs, and enabling quicker time-to-market, CMOs provide biopharmaceutical companies with the agility and financial flexibility required to meet the growing global demand for biologics, biosimilars, and personalized medicines. As the industry continues to evolve, the role of CMOs will remain central to supporting the rapid development and cost-effective production of next-generation therapies.
Technological Advancements in Bioprocessing
Technological advancements in bioprocessing are a key factor driving the growth of the Global Biopharmaceutical Contract Manufacturing (BCM) Market. These innovations are transforming the way biologics and complex therapies are produced, enhancing efficiency, scalability, and cost-effectiveness, which directly benefits both biopharmaceutical companies and their contract manufacturing partners.
One of the most significant technological advancements in bioprocessing is the widespread adoption of single-use systems. These systems allow for disposable equipment (e.g., bioreactors, filters, tubing) rather than traditional stainless-steel vessels, which require cleaning, sterilization, and maintenance after each use. Single-use technologies significantly reduce capital investment, lower operational costs, and streamline production timelines. For CMOs, this advancement has made it easier to scale production for biologics and biosimilars, particularly in response to fluctuating market demands. By eliminating the need for expensive, fixed infrastructure, CMOs can offer biopharma companies more flexible and cost-efficient manufacturing options, particularly for small-scale and high-value biologics. Bioreactors are the heart of the biomanufacturing process, where cells are cultured to produce therapeutic proteins, monoclonal antibodies (mAbs), and other biologics. Recent innovations in bioreactor design have led to improvements in cell culture efficiency, yield, and process consistency. New technologies, such as continuous bioreactors and perfusion systems, offer higher cell densities and better product yields, reducing production costs and cycle times. These advancements help CMOs optimize biologic production, allowing them to meet the growing demand for biologics while maintaining cost competitiveness. Additionally, improvements in cell culture media and processes have enabled higher productivity and more robust manufacturing. CMOs with access to these advanced cell culture systems can provide faster and more efficient production services, which is critical for biopharmaceutical companies looking to shorten development timelines for new drugs.
The integration of automation and digital technologies into biomanufacturing processes is another major trend driving the growth of the BCM market. Automated systems reduce human error, enhance precision, and improve the overall consistency of manufacturing processes. Technologies such as real-time monitoring, advanced sensors, and process control systems allow for continuous data collection and analysis, enabling manufacturers to optimize processes, reduce downtime, and ensure regulatory compliance. Digitalization also facilitates the use of predictive analytics, which can identify potential issues before they arise, further improving efficiency and reducing production risks. For CMOs, these technologies enhance their ability to scale production without compromising on quality. By automating key stages of the production process, such as fermentation and filtration, CMOs can increase throughput while maintaining consistency, which is essential for the production of biologics that require stringent quality controls. Purification is a critical step in the production of biologics, where the desired product is isolated and purified from the cell culture medium. Advancements in filtration and chromatography technologies have led to more efficient and scalable purification processes. New techniques, such as membrane chromatography and improved resin materials, have enabled faster processing times and higher yields. These advancements directly benefit CMOs by reducing the costs and time associated with the purification process, improving overall productivity, and making it easier to scale production for commercial purposes. Traditional biopharmaceutical production relies on batch processes, where large quantities of the product are produced in separate cycles. However, continuous manufacturing-a process where raw materials are continuously fed into the system and product is produced in a steady flow-is gaining traction. This approach has several advantages, including improved efficiency, reduced manufacturing time, and lower costs due to less downtime and more consistent production output. Process intensification, which combines various improvements to increase productivity without adding significant capital investment, is also helping CMOs achieve faster, more cost-effective manufacturing. These techniques allow for better management of resource use, which is especially important as demand for biologics and biosimilars rises.
As the industry shifts toward personalized medicine-where treatments are tailored to individual patients-there is an increasing need for smaller-scale, more flexible production systems. Technological advancements in bioprocessing have enabled the development of manufacturing solutions that can accommodate the production of small batches with high precision and low cost. This is crucial for the production of personalized therapies, such as gene therapies and rare disease treatments, which often require small quantities of biologic products. CMOs that have adopted these technologies are well-positioned to meet the growing demand for personalized medicine, which is driving further growth in the BCM market. Gene and cell therapies are at the forefront of biopharmaceutical innovation, offering potential cures for a range of conditions that were previously untreatable. However, these therapies present unique manufacturing challenges, including the need for precise control over cell and gene editing processes, as well as the need for scalable manufacturing systems that can handle complex and individualized treatments. Technological advancements in gene editing tools, cell expansion technologies, and viral vector production are enabling CMOs to develop specialized manufacturing solutions for these cutting-edge therapies, thus positioning themselves as essential players in the rapidly growing gene and cell therapy space. Technological advancements in bioprocessing are driving the growth of the Global Biopharmaceutical Contract Manufacturing Market by enhancing production efficiency, scalability, and cost-effectiveness. Innovations in single-use technologies, bioreactor design, automation, filtration, and continuous manufacturing are all playing a crucial role in meeting the rising demand for biologics and personalized medicine. As biopharmaceutical companies increasingly rely on CMOs to navigate the complexities of biologic production, these technological advancements ensure that CMOs are equipped to meet both current and future market demands.
Key Market Challenges
Regulatory Complexity and Compliance Risks
The biopharmaceutical industry is highly regulated, with stringent requirements for Good Manufacturing Practices (GMP) imposed by regulatory authorities such as the U.S. Food and Drug Administration (FDA), European Medicines Agency (EMA), and others. These regulations are necessary to ensure the safety, efficacy, and quality of biologics and biosimilars. However, the complexity and diversity of regulatory requirements across different regions create significant challenges for Contract Manufacturing Organizations (CMOs) in terms of ensuring compliance. As biopharma companies increasingly look to outsource production to CMOs, they must ensure that their partners can navigate these complex regulatory landscapes.
Non-compliance or regulatory delays can lead to costly fines, delays in product launches, or even product recalls. For CMOs, maintaining up-to-date certifications and infrastructure that meet the evolving regulatory standards is a continuous challenge. Furthermore, the increased scrutiny on biosimilars-given their complexity and the need to demonstrate similarity to reference products-adds another layer of complexity to compliance efforts, hindering the growth of the BCM market.
Capacity Constraints and Bottlenecks in Production
Although the BCM market is growing rapidly, many CMOs face challenges in scaling production to meet the surging demand for biologics, particularly monoclonal antibodies, vaccines, and biosimilars. While CMOs have invested in advanced manufacturing technologies, the complexity of biologics production-such as the use of mammalian cell cultures, purification, and formulation-often leads to bottlenecks. These production processes are resource-intensive and time-consuming, with the need for precise control over every aspect of manufacturing to ensure product quality.
The demand for large-scale manufacturing capabilities for biologics and biosimilars can sometimes outstrip the available production capacity at CMOs, leading to backlogs and delays. As more biopharma companies outsource production to CMOs to manage capacity limitations, the need for flexible, scalable solutions becomes even more pressing. However, building new capacity or upgrading existing facilities requires substantial capital investment and time, which can be a barrier for smaller or mid-sized CMOs. This imbalance between rising demand and available capacity limits the ability of the BCM market to fully capitalize on growth opportunities.
Key Market Trends
Increased Focus on Personalized Medicine and Advanced Therapies
The rise of personalized medicine, particularly in the form of gene therapies, cell therapies, and other biologic treatments tailored to individual patients, is transforming the biopharmaceutical landscape. This shift toward highly specialized therapies is one of the most impactful trends influencing the BCM market. Personalized medicine involves treatments that are developed and produced specifically for the genetic makeup, lifestyle, or disease profile of a patient or group of patients.
For CMOs, this trend is driving the demand for more flexible, scalable, and precise manufacturing capabilities. Unlike traditional biologics, personalized medicine often requires smaller batch sizes, more frequent production runs, and faster turnarounds, which presents both a challenge and an opportunity. Contract manufacturers that can offer specialized services for gene and cell therapies, such as viral vector production, cell banking, and custom formulations, are in a strong position to capitalize on this growth. The increasing use of advanced therapies in oncology, rare diseases, and chronic conditions is expected to significantly boost demand for contract manufacturing services tailored to these complex treatments.
Shift Toward Continuous Manufacturing and Process Optimization
Continuous manufacturing (CM), as opposed to traditional batch processing, is gaining significant traction in the biopharmaceutical industry. Continuous manufacturing involves the uninterrupted flow of raw materials through the production process, allowing for real-time monitoring and adjustments. This trend is gaining popularity because it offers several advantages over traditional batch processes, such as enhanced production efficiency, reduced cycle times, better product quality consistency, and lower operational costs.
For CMOs, adopting continuous manufacturing technologies provides the ability to scale up production more effectively, particularly for biologics and biosimilars. This transition is particularly relevant for high-demand products like monoclonal antibodies and vaccines, where speed and cost-efficiency are critical. The growing emphasis on process optimization, including innovations in automation, digitalization, and real-time data analytics, is also making continuous manufacturing more viable and cost-effective for CMOs. As a result, companies that invest in continuous manufacturing technologies will be better positioned to meet the increasing demand for biologics while maintaining competitive pricing and high quality.
Segmental Insights
Source Insights
Based on the category of Source, the Mammalian Source segment emerged as the dominant in the global market for Biopharmaceutical Contract Manufacturing in 2023. One of the main reasons mammalian cell lines dominate is their ability to produce proteins that closely resemble human proteins in structure and functionality. Unlike bacterial or yeast systems, mammalian cells can perform intricate post-translational modifications (PTMs), such as glycosylation, phosphorylation, and correct protein folding, which are essential for the biological activity and therapeutic efficacy of many biologics. This is particularly critical for therapeutic monoclonal antibodies and fusion proteins, which require precise PTMs to bind to their target receptors effectively. The ability of mammalian cells to produce high-quality proteins has made them the preferred choice to produce a wide range of biologics, including cancer therapies and autoimmune drugs. This demand has been further fueled by advancements in CHO cell culture systems, which now offer high yields and consistent performance.
The monoclonal antibody (mAb) market has been one of the most influential drivers of the dominance of mammalian systems in the biopharmaceutical sector. mAbs are critical for the treatment of diseases such as cancer, autoimmune disorders, and infections, and their demand continues to grow globally. As the primary production method for mAbs involves mammalian cell lines, the increasing global prevalence of chronic diseases and cancer, along with the approval of new monoclonal antibody therapies, has contributed to the expanding need for mammalian-based production platforms. According to market reports, mAb-based therapies represent a significant portion of the biologics market, and the increasing focus on oncology and immunology treatments further strengthens the reliance on mammalian cells for large-scale, high-quality production. Another key factor contributing to the dominance of mammalian sources in the BCM market is the scalability and yield efficiency of mammalian cell culture systems. While mammalian cell culture systems historically faced challenges such as high costs and longer production timelines, advancements in bioreactor technology, media optimization, and process automation have significantly improved the scalability and cost-effectiveness of these systems. Modern mammalian cell systems now provide a high yield of the desired product with consistent batch-to-batch performance, reducing the risk of contamination and ensuring regulatory compliance. As biopharma companies seek to increase production volumes to meet global demand, especially for blockbuster biologics, mammalian-based systems are increasingly seen as the best option for large-scale manufacturing. These factors collectively contribute to the growth of this segment.
Regional Insights
North America emerged as the dominant in the global Biopharmaceutical Contract Manufacturing market in 2023, holding the largest market share in terms of value. North America, particularly the United States, is home to many of the world's largest and most influential biopharmaceutical companies, including Pfizer, Merck, Johnson & Johnson, Amgen, and Eli Lilly. These companies have historically led the development and commercialization of biologics, monoclonal antibodies, vaccines, and gene therapies. This creates a strong demand for high-quality contract manufacturing services to support the large-scale production of these complex products.
North America hosts several world-class CMOs that provide end-to-end services, from process development to commercial-scale manufacturing. These CMOs, such as Lonza, WuXi AppTec, and Samsung Biologics, are at the forefront of the biopharmaceutical contract manufacturing industry, offering advanced production platforms, including mammalian cell culture systems and innovative technologies for biologics manufacturing. Their capabilities to support the demand for biologics across multiple therapeutic areas further solidify North America's dominance in the BCM market. North America invests heavily in biopharmaceutical R&D, accounting for a significant portion of global biopharma spending. The United States alone is one of the largest investors in pharmaceutical and biotechnology research, with substantial government funding through initiatives like the National Institutes of Health (NIH) and Biomedical Advanced Research and Development Authority (BARDA). This focus on innovation drives the continuous demand for specialized manufacturing capabilities to bring groundbreaking therapies to market. The R&D-driven environment necessitates cutting-edge manufacturing services, particularly for emerging biologics such as gene therapies and cell therapies, which require complex, customized production processes. As a result, the North American BCM market benefits from a robust pipeline of novel drugs and biologics that require highly sophisticated manufacturing solutions.
In this report, the Global Biopharmaceutical Contract Manufacturing Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
Company Profiles: Detailed analysis of the major companies present in the Global Biopharmaceutical Contract Manufacturing Market.
Global Biopharmaceutical Contract Manufacturing market report with the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report: