2023 Evaluating Biopharma Schedule of Events


SEPTEMBER 21, 2023

SMART(ER) BIOMANUFACTURING: EVALUATING THE RISKS AND OPPORTUNITIES

Advances in manufacturing 4.0 including digitalization, AI, and machine learning offer biopharmaceutical company’s unique opportunities to overhaul antiquated processes to increase productivity, flexibility, and reduced cost. However, as with each great innovation, there are risks, uncertainties, and challenges. Our experts share their individual experiences and insight to help your anticipate challenges and implement better manufacturing strategies to accelerate success.

Case Study #1: Connecting Technology, Culture, and Strategy to Support Success

Case Study #2: Focusing on the Facility – Structure, Digitalization, Processes

Case Study #3: Harnessing Data and Digital Technologies to Accelerate Manufacturing Efficiencies


OCTOBER 19, 2023

CONTINUOUS BIOPROCESSING

With competition heating up, companies are now looking at cost savings. Process intensification and optimization via continuous processing fills this urgent need. However, despite the promise of increased productivity, the industry is still slow to adopt continuous processing at clinical or manufacturing scale. Our experts share their personal experiences and insight to help your anticipate challenges and implement better continuous/optimization strategies to accelerate success.

Case Study #1: Why a Truly Continuous Downstream Process Has Been so Elusive

Case Study #2: The Path to Continuous Starts with an Intensification Strategy

Case Study #3: Labor Challenges and Considerations When Implementing a Continuous Process


NOVEMBER 16, 2023

ACCELERATING ANALYTICAL DEVELOPMENT: OPTIMIZING BIOTHERAPEUTIC DEVELOPMENT EFFICIENCY

Today’s analytical groups are facing increased pressure to deliver key studies faster than ever before – and at lower costs. Scientists must evaluate best practices, exchange ideas, integrate new technologies to improve and accelerate existing analytical methods to support business goals. Our experts share their personal experiences and insight to help you overcome existing challenges and implement better strategies.

Case Study #1: How to Reduce Analytical Lifecycle Steps to Improve Product Development

Case Study #2: Implementing PAT Advances to Transition to Digital Manufacturing

Case Study #3: Identifying Opportunities and Challenges in Analytical Method Lifecycle Management


DECEMBER 14, 2023

CELL THERAPY MANUFACTURING: AUTOLOGOUS VS. ALLOGENEIC STRATEGIES

While related, scaling autologous and allogeneic cell therapies require vastly different manufacturing approaches, equipment, and technologies. Regardless of the platform chosen, implementing the right strategy early is the key to success. Our experts share their personal experiences and insight to help you anticipate challenges and implement better cell therapy strategies.

Case Study #1: Selecting the Right Technologies and Equipment to Support Your Cell Therapy Strategy

Case Study #2: Identifying Cost Savings to Improve Autologous Manufacturing Efficiency

Case Study #3: Keys to Implementing the Right Manufacturing Strategy


TBA

GENE THERAPY MANUFACTURING: IDENTIFYING THE RIGHT COMMERICIAL STRATEGY

As a next-gen therapeutic, today’s gene therapy manufacturers often adopt existing platforms, strategies, and technologies to support production goals. However, to be successful, the industry must establish and implement next-gen tools and systems to better support and economically deliver product at commercial scale. Our experts share their personal experiences and insight to help your anticipate challenges and implement better commercial strategies to accelerate success.

Case Study #1: Identifying and Implementing Next-Gen Manufacturing Platforms

Case Study #2: Challenges and Lessons Learned Scaling an AAV Production Process

Case Study #3: Addressing AAV Manufacturing Challenges for Rare Diseases


TBA

CELL LINE OPTIMIZATION: LEVERAGING TECHNOLOGY TO IMPROVE SPEED, QUALITY, COST

Developing and engineering recombinant protein expression platforms are not for the faint of heart. Many variables must be considered during the development process. When cell line challenges arise, scientists must engineer solutions to overcome. Our experts share their personal experiences and insight to help you identify and overcome today’s cell line challenges.

Case Study #1: Identifying CLD Process Improvements to Decrease Timelines and Increase Throughput

Case Study #2: Leveraging Technology to Improve Cell Line Stability and Development

Case Study #3: Considering Alternative Hosts to Improve Speed, Quality, Costs

Case Study #4: Implementing Novel Approaches to Support Next-Gen Cell Line Development


TBA

PURIFICATION: NEW TECHNOLOGIES AND STRATEGIES TO SUPPORT COMPLEX MOLECULES

Newer and more complex molecules often complicate existing downstream processes. New, innovative technologies are necessary to ensure safe, efficient, and effective capture and purification of emerging modalities. Our experts share their personal experiences and insight to help anticipate challenges and chose appropriate technologies to support your downstream strategies.

Case Study #1: Purification Strategies to Support New Therapeutic Modalities

Case Study #2: Optimizing Purifications of Challenging Drug Targets

Case Study #3: Re-evaluating Downstream Strategies to Accommodate Large Increases in Vector

Case Study #4: Leveraging Transformative Technologies to Overcome Downstream Challenges