Learn about process parameters and growth results of bone marrow-derived hMSCs cultured in Stemline® XF MSC Medium in a 3 L stirred tank bioreactor-microcarrier platform.
Risk Mitigation in Cell Line Development: Regulatory Considerations and Impac...Merck Life Sciences
In this webinar, you will learn about:
- Risk assessment approaches in upstream process development
- How early cell line development stage is linked to subsequent steps in the bioprocess to assure the quality of the final product
- Benefits of having a completely chemically defined cell line development process
Detailed description:
Chinese Hamster Ovary (CHO) cells are the preferred host for producing biotherapeutics where cell line development (CLD) is the foundation of the bioprocess. CLD processes are expected to be robust while meeting a myriad of regulatory requirements. The choice of production cell line, culture conditions, and having a chemically defined (CD) CLD process by using CD cloning media can impact the subsequent measures for the CMC (Chemistry, manufacturing, and controls).
In this presentation, we will discuss these choices and their impacts on subsequent bioprocess and CMC testing required by regulations and the benefits of incorporating CD cloning media into the CHOZN® expression platform.
Developing a Scalable Upstream Bioreactor Process for Lentiviral Vector Produ...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/3b3Jc77
Gene therapies hold the promise to change lives. As your path to patients accelerates, how can you assure the robust process design, intensification and scalability that meets your evolving manufacturing needs? What benefits can a templated process bring to your commercial success?
As gene therapy progresses toward broader clinical and commercial success, the industry is shifting from treating rare conditions to those of larger populations. This requires scalable solutions for process intensification. In this webinar, we’ll discuss scale-up development for a common viral vector in gene therapy, lentivirus, using the VirusExpress™ Lentiviral Production Platform in Mobius® single-use bioreactors. We will highlight critical considerations when moving from bench-scale to clinical scale process design with manufacturability in mind to ensure commercial readiness. Finally, we’ll review the significant benefits of implementing a templated manufacturing process.
In this webinar you will learn:
• Scale-up development of a suspension-based lentivirus production process
• Designing a process that is manufacturing-friendly and supports commercialization
• The benefits of having a templated manufacturing process
Cell Line Development: Reducing timelines and increasing titres fujifilmdiosynth
Cell line development: Reducing timelines and increasing titres by identification of host cell lines with improved characteristics. To develop a mammalian expression platform which rapidly leads to efficient, robust and high quality biomanufacturing processes
Does your cell line have a secret? Avoid surprises with characterizationMerck Life Sciences
Watch the recording of this webinar here: https://bit.ly/2Y05bV4
The first step to avoiding an unpleasant and costly contamination event is characterization of your cell banks.
Regardless of the biotech product, careful characterization of the cell banks used in its production is the first step in mitigating the risk of a contamination event. In fact, cell line characterization is an important component of the overall viral safety strategy for the product. We will describe the testing necessary to ensure cell banks are free from infectious and other adverse agents and that meets current regulatory expectations. Different levels of testing are performed for master, working, and end of production cell banks, and the differences in testing for each of these types of banks will be discussed.
In this webinar, you will learn:
• The types of tests that are needed to fully characterize your cell banks
• The best tests to use for your particular cell line
• Reasons why a viral contaminant may be missed
Risk Mitigation in Cell Line Development: Regulatory Considerations and Impac...Merck Life Sciences
In this webinar, you will learn about:
- Risk assessment approaches in upstream process development
- How early cell line development stage is linked to subsequent steps in the bioprocess to assure the quality of the final product
- Benefits of having a completely chemically defined cell line development process
Detailed description:
Chinese Hamster Ovary (CHO) cells are the preferred host for producing biotherapeutics where cell line development (CLD) is the foundation of the bioprocess. CLD processes are expected to be robust while meeting a myriad of regulatory requirements. The choice of production cell line, culture conditions, and having a chemically defined (CD) CLD process by using CD cloning media can impact the subsequent measures for the CMC (Chemistry, manufacturing, and controls).
In this presentation, we will discuss these choices and their impacts on subsequent bioprocess and CMC testing required by regulations and the benefits of incorporating CD cloning media into the CHOZN® expression platform.
Developing a Scalable Upstream Bioreactor Process for Lentiviral Vector Produ...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/3b3Jc77
Gene therapies hold the promise to change lives. As your path to patients accelerates, how can you assure the robust process design, intensification and scalability that meets your evolving manufacturing needs? What benefits can a templated process bring to your commercial success?
As gene therapy progresses toward broader clinical and commercial success, the industry is shifting from treating rare conditions to those of larger populations. This requires scalable solutions for process intensification. In this webinar, we’ll discuss scale-up development for a common viral vector in gene therapy, lentivirus, using the VirusExpress™ Lentiviral Production Platform in Mobius® single-use bioreactors. We will highlight critical considerations when moving from bench-scale to clinical scale process design with manufacturability in mind to ensure commercial readiness. Finally, we’ll review the significant benefits of implementing a templated manufacturing process.
In this webinar you will learn:
• Scale-up development of a suspension-based lentivirus production process
• Designing a process that is manufacturing-friendly and supports commercialization
• The benefits of having a templated manufacturing process
Cell Line Development: Reducing timelines and increasing titres fujifilmdiosynth
Cell line development: Reducing timelines and increasing titres by identification of host cell lines with improved characteristics. To develop a mammalian expression platform which rapidly leads to efficient, robust and high quality biomanufacturing processes
Does your cell line have a secret? Avoid surprises with characterizationMerck Life Sciences
Watch the recording of this webinar here: https://bit.ly/2Y05bV4
The first step to avoiding an unpleasant and costly contamination event is characterization of your cell banks.
Regardless of the biotech product, careful characterization of the cell banks used in its production is the first step in mitigating the risk of a contamination event. In fact, cell line characterization is an important component of the overall viral safety strategy for the product. We will describe the testing necessary to ensure cell banks are free from infectious and other adverse agents and that meets current regulatory expectations. Different levels of testing are performed for master, working, and end of production cell banks, and the differences in testing for each of these types of banks will be discussed.
In this webinar, you will learn:
• The types of tests that are needed to fully characterize your cell banks
• The best tests to use for your particular cell line
• Reasons why a viral contaminant may be missed
Improved vector design eases cell line development workflow in the CHOZN GS-/...Merck Life Sciences
This poster was presented at ESACT meeting in 2017 in Lausanne, Switzerland. Cell line development for production of monoclonal antibody therapeutics requires an expression vector encoding both the heavy and light chains of the antibody. When expression of the heavy and lights chains is driven by the same promoter, the sequence redundancy can be problematic for verifying the vector sequence, copy number and insertion site in the host cell genome. This poster describes the work done to identify an expression vector that maintains a high level of antibody expression but lacks the sequence similarities, easing the cell line development workflow.
Achieving High Yields in Scalable Xeno Free Culture Formats with Mesenchymal ...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/3ryE5ST
Optimize your mesenchymal stem cell growth. Join our webinar to learn more about our GMP-compliant xeno free media formulation that supports high performance expansions and compatibility with scalable xeno free manufacturing conditions.
Optimizing ex vivo cell expansion processes in preparation for clinical use is a critical step in cell therapy manufacturing. Given the curative and lifesaving impacts these therapies can have on patients, overcoming roadblocks with scalability and supply chain, using high quality raw materials are essential for therapeutic access.
The GMP-compliant Stemline® XF MSC Medium and cocktail promotes expansion of human mesenchymal stromal/stem cells (hMSCs) to high densities while maintaining cell identity and quality. This product was designed for derivation and expansion of MSCs using xeno free conditions in planar and microcarrier-based culture platforms, easing the transfer between research, clinical, and manufacturing scale cultures.
In this webinar, you will:
• Explore the current landscape and future trends of cell culture media for adult mesenchymal stem cells
• Discover ways to derive MSC's from Bone Marrow in Xeno Free conditions from static to microcarrier-based suspension culture platforms.
• Learn how Stemline® XF MSC Media provides robust performance and reduces scalability roadblocks
Presented by: Kathleen Ongena, Ph.D., Head of Customer Applications and Mark Ventresco, Cell Therapy Product Manager
Delivering More Efficient Therapeutic Protein Expression Systems Through Cell...MilliporeSigma
Historically cell line performance has been enhanced through media, feed and process optimization, primarily through trying to meet the basic nutritional requirements of the cells so that they can sustain high growth and productivity throughout the production runs.
However, the omics (genomics, transciptomics and metabolomics) era, sequencing of the CHO genome and enhancements in genome editing technologies over the past several years have enabled scientists to take a more direct route in cell line optimization through the modification of specific genes that have direct implications on cell culture performance, protein quality attributes and upstream and downstream manufacturing processes. These targets include but are not limited to genes that may be involved in cell cycle regulation, cellular metabolism, cellular transcription and translation, the secretory pathway and protein glycosylation or other post-translational modifications.
In this webinar we will discuss specific genetic modifications that have been made to CHO cell lines and how these modifications can lead to more efficient expression systems.
Generation of Clonal CRISPR/Cas9-edited Human iPSC Derived Cellular Models an...Thermo Fisher Scientific
Reprogramming permits the derivation of hiPSCs from diseased patients, and allows us to model diseases in vitro. Furthermore, with the advent of CRISPR mediated genome editing, we can now mimic disease mutations in control hiPSC lines to study the biological effect of just those mutations. hiPSCs can then be differentiated into specified cell types such as neurons which can be used to develop assays for drug safety screening or can be used to model disease phenotypes in a dish to discover new drugs.
Investing in Process Development for Increased MSC Production in Stirred Tank...MilliporeSigma
Interested in developing a robust cell therapy manufacturing platform? In this webinar we will share information in the form of case studies that highlight strategies to optimize your cell therapy production process.
Industry trends in regenerative medicine highlight a critical need for closed cell culture systems that support scalable manufacturing of adherent cell therapies. Typical static in vitro culture methods, however, are often too cumbersome and inefficient to support commercial scale production of mesenchymal stem/stromal cells (MSCs). Single-use stirred tank bioreactor systems are a platform that can address this limitation and have been proven effective for microcarrier-based production of adherent cell therapies. Implementation of optimized process control strategies for parameters such as dissolved oxygen (DO) and agitation rate are key to making an efficient transition from planar culture to stirred tank bioreactors. Herein, a stepwise approach to process development for MSC expansion in a small-scale single-use bioreactor is presented. Case studies focus on strategies to optimize DO control and agitation rates for bone marrow derived MSCs in microcarrier culture, highlighting improvements in process efficiency. In the first case study, the impact different gassing methods have on DO control and whether hypoxic growth conditions affect MSC function are examined. The second case study demonstrates the application of Zwietering’s equation for suspension of solids to overcome scaling challenges often associated with microcarrier culture in stirred tanks. Strategies to further improve the seeding process for bioreactor culture will also be reviewed. Identifying optimal seeding and process control strategies for microcarrier-based bioreactor expansion of adherent cells is paramount for the development of robust cell therapy manufacturing platforms.
In this webinar, you will learn about:
· Process development approaches for production scale-up of mesenchymal stem cells (MSCs)
· Implementing single-use, closed systems for manufacturing cell therapies
· Case studies focusing on strategies to optimize DO control and agitation rates for microcarrier-based cultures
Use of rapid quality control test methods as alternatives to traditional meth...Merck Life Sciences
Abstract:
As the market for advanced therapy medicinal products (ATMP) matures the complexities of these molecules are evident and challenging when routine standard quality control (QC) testing is applied. Short shelf life from the point of manufacture to administration to the patient results in relatively low volumes for small scale clinical trials or small patient populations. Within a limited time period and with this low product volume, it is necessary to complete required regulatory QC testing, be that for early or late phase clinical trials, or for licensed drug product in a reduced timescale. So, the challenges with QC testing of cell and gene therapies using traditional test methods is time to results, due to short shelf-life, and availability of sufficient sample, due to low production volumes. Over the past years the application of rapid testing of short-life cell and gene therapies that may also help conserve limited product availability have been utilised. Regulatory expectations for using rapid test methods in place of classical or compendial test methods have been defined and this presentation will provide examples and data from our own experience of a range of alternate methods for application to ATMP products.
Releasing Your AAV Therapy with Confidence: Regulatory Considerations and Key...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/3icKkbZ
Ensuring the safety and quality of your AAV vector is of the utmost importance. Join this webinar for a high-level overview of the regulatory requirements for AAV testing throughout the manufacturing process, as well as a more detailed look at rcAAV and infectious titer assays.
Adeno-associated virus (AAV) vectors possess a number of advantages for use in human therapy including: high titer preparations, low immunogenicity, capacity to infect a wide range of cell types, and replication deficiency. Even with these advantages, there are biosafety concerns to consider when using AAV vectors.
This webinar will discuss key regulatory considerations across the manufacturing process, from the helper/packaging plasmids through to lot release testing. We will highlight critical assays that are required and delve into specifics on replication competent AAV testing and infectious titer determination by TCID50.
In this webinar, you will learn:
• Critical biosafety considerations for AAV vectors based on the latest regulatory guidance
• How replication competent AAV testing fits into your bulk and final release testing package
• The benefits of routine and platform assays over custom assay development
Presented by:
Steven McDade, Senior Technical Specialist, Field Technology Management
Alfonso Lavorgna, Ph.D., Operations Manager, Virology Services
Exploring Intensified Seed Train Through Advancements in Perfusion Processing...Merck Life Sciences
This poster explores key elements of bioreactor design and automation strategies that enable successful implementation of seed train intensification via perfusion:
- Sparger performance characterization
- Cell retention device connection
- Evaluation of the Hamiltion® Incyte viable cell density (or permittivity) sensor
- Cell culture case studies
To learn more about this topic or collaborate with our technical experts, schedule an in-person or remote visit at our M Lab™ Collaboration Centers: www.merckmillipore.com/mlab
Setting up for successful lot release testing by Edmund AngMilliporeSigma
Is your lot release testing strategy ready for global commercialization?
In this webinar, you will learn:
• CMC testing requirements with CHO production platform for global commercialization
• Lot release testing of product intermediates and final product
• Product-specific qualification study
• Alternative rapid testing methods to advance lot release testing
CHO cells continue to serve as a key cell substrate for the manufacturing of recombinant proteins that span beyond therapeutic monoclonal antibodies and including subunit vaccines.
In this presentation, we will cover the CMC testing requirements with CHO production platform for global commercialization, Lot release testing of product intermediates and final product, product-specific qualification study and highlight the application of new testing methods and the benefits they bring to advance Lot Release Testing.
Biosafety in Gene Therapy: Applying the latest regulatory guidance for RCL te...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/33WUiqE
Ensuring the safety and quality of your lentiviral vector is of the utmost importance. Attend this webinar to learn about testing strategies to monitor replication competent lentivirus. You will also hear about recent changes in regulatory guidance with regards to sample types and volumes tested.
The use of lentivirus vectors to produce groundbreaking gene therapies is on the rise. Ensuring the biosafety and quality of these vectors is achieved through a multi-tiered testing approach.
For lentivirus-based therapies, generation of replication competent particles is a potential risk. While improvements in design and manufacturing have decreased the probability of producing replication competent viruses, regulatory agencies provide guidelines to test for their presence at multiple stages in production. This webinar reviews the strategies for monitoring replication competent lentiviruses. We describe current methods and address: Sample types, testing volumes, and expected results.
In this webinar, you will learn about:
• The latest FDA regulatory guidelines on replication competent lentivirus (RCL) testing
• Methods used to monitor RCL
• Considerations on sample type and volume requirements
Viral Risk Mitigation Strategies: Key Considerations in the Prevention and De...MilliporeSigma
Regulatory guidelines have defined industry best practices around adventitious virus contamination and risk mitigation in terms of patient safety.
Today, the industry is taking a closer look at minimizing the business risk associated with viral contamination and is taking a more directed view of risk mitigation. This approach includes virus prevention and detection, in addition to removal.
From cell culture seed train to final fill vial, this presentation will describe:
-Potential risks associated with different areas of biotech processes
-What can be done to minimize adventitious virus risk in those areas.
The overarching strategy of risk mitigation will include evaluation of raw materials, modified expression systems, environmental controls, upstream and downstream processing, as well as testing and regulatory considerations.
High Content Screening of automated wound healing and cytotoxicity assays in ...HCS Pharma
To find anti-cancer drugs, different cellular modifications can be looked at: cell death effect on proliferating cells either in 2D culture or on spheroids (3D culture), anti-mitotic, anti-migration/invasion, anti-angiogenesis effects… Different assays can be performed to follow these different effects. High content screening is a multi-parametric technology allowing searching for poly-effects drugs.
In this poster, several well known compounds were tested in 3 different assays: cytotoxicity in 2D culture, cytotoxicity in spheroids (3D culture) and scratch assay (also named wound healing). These 3 models were automated in 96-well plates.
Neuromics base presentation 2020 with Virus Transport MediaPete Shuster
Neuromics' is a leader in providing Biopharmas, Academic and Government with CFR compliant 2 and 3-D human primary cell assays, media and supplements for discovery. We also provide antibodies, proteins/growth factors, apoptosis kits and genetic engineering/manipulation tools. We now have FDA registered Virus Transport Media (VTM).
Discovery of novel immunotherapy represents a main and intense focus of reseach in oncology. Proof of concept studies in animal represent a challenge and require a well characterized and appropriate animal models with most of the time customized approaches. Some recent developments and data generated for immune checkpoint modulators, adoptive cell transfer therapy, vaccines and bispecific T cell engagers will be presented.
Achieving High Yields in Scalable Xeno Free Culture Formats with Mesenchymal ...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3ryE5ST
Optimize your mesenchymal stem cell growth. Join our webinar to learn more about our GMP-compliant xeno free media formulation that supports high performance expansions and compatibility with scalable xeno free manufacturing conditions.
Optimizing ex vivo cell expansion processes in preparation for clinical use is a critical step in cell therapy manufacturing. Given the curative and lifesaving impacts these therapies can have on patients, overcoming roadblocks with scalability and supply chain, using high quality raw materials are essential for therapeutic access.
The GMP-compliant Stemline® XF MSC Medium and cocktail promotes expansion of human mesenchymal stromal/stem cells (hMSCs) to high densities while maintaining cell identity and quality. This product was designed for derivation and expansion of MSCs using xeno free conditions in planar and microcarrier-based culture platforms, easing the transfer between research, clinical, and manufacturing scale cultures.
In this webinar, you will:
• Explore the current landscape and future trends of cell culture media for adult mesenchymal stem cells
• Discover ways to derive MSC's from Bone Marrow in Xeno Free conditions from static to microcarrier-based suspension culture platforms.
• Learn how Stemline® XF MSC Media provides robust performance and reduces scalability roadblocks
Presented by: Kathleen Ongena, Ph.D., Head of Customer Applications and Mark Ventresco, Cell Therapy Product Manager
Improved vector design eases cell line development workflow in the CHOZN GS-/...Merck Life Sciences
This poster was presented at ESACT meeting in 2017 in Lausanne, Switzerland. Cell line development for production of monoclonal antibody therapeutics requires an expression vector encoding both the heavy and light chains of the antibody. When expression of the heavy and lights chains is driven by the same promoter, the sequence redundancy can be problematic for verifying the vector sequence, copy number and insertion site in the host cell genome. This poster describes the work done to identify an expression vector that maintains a high level of antibody expression but lacks the sequence similarities, easing the cell line development workflow.
Achieving High Yields in Scalable Xeno Free Culture Formats with Mesenchymal ...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/3ryE5ST
Optimize your mesenchymal stem cell growth. Join our webinar to learn more about our GMP-compliant xeno free media formulation that supports high performance expansions and compatibility with scalable xeno free manufacturing conditions.
Optimizing ex vivo cell expansion processes in preparation for clinical use is a critical step in cell therapy manufacturing. Given the curative and lifesaving impacts these therapies can have on patients, overcoming roadblocks with scalability and supply chain, using high quality raw materials are essential for therapeutic access.
The GMP-compliant Stemline® XF MSC Medium and cocktail promotes expansion of human mesenchymal stromal/stem cells (hMSCs) to high densities while maintaining cell identity and quality. This product was designed for derivation and expansion of MSCs using xeno free conditions in planar and microcarrier-based culture platforms, easing the transfer between research, clinical, and manufacturing scale cultures.
In this webinar, you will:
• Explore the current landscape and future trends of cell culture media for adult mesenchymal stem cells
• Discover ways to derive MSC's from Bone Marrow in Xeno Free conditions from static to microcarrier-based suspension culture platforms.
• Learn how Stemline® XF MSC Media provides robust performance and reduces scalability roadblocks
Presented by: Kathleen Ongena, Ph.D., Head of Customer Applications and Mark Ventresco, Cell Therapy Product Manager
Delivering More Efficient Therapeutic Protein Expression Systems Through Cell...MilliporeSigma
Historically cell line performance has been enhanced through media, feed and process optimization, primarily through trying to meet the basic nutritional requirements of the cells so that they can sustain high growth and productivity throughout the production runs.
However, the omics (genomics, transciptomics and metabolomics) era, sequencing of the CHO genome and enhancements in genome editing technologies over the past several years have enabled scientists to take a more direct route in cell line optimization through the modification of specific genes that have direct implications on cell culture performance, protein quality attributes and upstream and downstream manufacturing processes. These targets include but are not limited to genes that may be involved in cell cycle regulation, cellular metabolism, cellular transcription and translation, the secretory pathway and protein glycosylation or other post-translational modifications.
In this webinar we will discuss specific genetic modifications that have been made to CHO cell lines and how these modifications can lead to more efficient expression systems.
Generation of Clonal CRISPR/Cas9-edited Human iPSC Derived Cellular Models an...Thermo Fisher Scientific
Reprogramming permits the derivation of hiPSCs from diseased patients, and allows us to model diseases in vitro. Furthermore, with the advent of CRISPR mediated genome editing, we can now mimic disease mutations in control hiPSC lines to study the biological effect of just those mutations. hiPSCs can then be differentiated into specified cell types such as neurons which can be used to develop assays for drug safety screening or can be used to model disease phenotypes in a dish to discover new drugs.
Investing in Process Development for Increased MSC Production in Stirred Tank...MilliporeSigma
Interested in developing a robust cell therapy manufacturing platform? In this webinar we will share information in the form of case studies that highlight strategies to optimize your cell therapy production process.
Industry trends in regenerative medicine highlight a critical need for closed cell culture systems that support scalable manufacturing of adherent cell therapies. Typical static in vitro culture methods, however, are often too cumbersome and inefficient to support commercial scale production of mesenchymal stem/stromal cells (MSCs). Single-use stirred tank bioreactor systems are a platform that can address this limitation and have been proven effective for microcarrier-based production of adherent cell therapies. Implementation of optimized process control strategies for parameters such as dissolved oxygen (DO) and agitation rate are key to making an efficient transition from planar culture to stirred tank bioreactors. Herein, a stepwise approach to process development for MSC expansion in a small-scale single-use bioreactor is presented. Case studies focus on strategies to optimize DO control and agitation rates for bone marrow derived MSCs in microcarrier culture, highlighting improvements in process efficiency. In the first case study, the impact different gassing methods have on DO control and whether hypoxic growth conditions affect MSC function are examined. The second case study demonstrates the application of Zwietering’s equation for suspension of solids to overcome scaling challenges often associated with microcarrier culture in stirred tanks. Strategies to further improve the seeding process for bioreactor culture will also be reviewed. Identifying optimal seeding and process control strategies for microcarrier-based bioreactor expansion of adherent cells is paramount for the development of robust cell therapy manufacturing platforms.
In this webinar, you will learn about:
· Process development approaches for production scale-up of mesenchymal stem cells (MSCs)
· Implementing single-use, closed systems for manufacturing cell therapies
· Case studies focusing on strategies to optimize DO control and agitation rates for microcarrier-based cultures
Use of rapid quality control test methods as alternatives to traditional meth...Merck Life Sciences
Abstract:
As the market for advanced therapy medicinal products (ATMP) matures the complexities of these molecules are evident and challenging when routine standard quality control (QC) testing is applied. Short shelf life from the point of manufacture to administration to the patient results in relatively low volumes for small scale clinical trials or small patient populations. Within a limited time period and with this low product volume, it is necessary to complete required regulatory QC testing, be that for early or late phase clinical trials, or for licensed drug product in a reduced timescale. So, the challenges with QC testing of cell and gene therapies using traditional test methods is time to results, due to short shelf-life, and availability of sufficient sample, due to low production volumes. Over the past years the application of rapid testing of short-life cell and gene therapies that may also help conserve limited product availability have been utilised. Regulatory expectations for using rapid test methods in place of classical or compendial test methods have been defined and this presentation will provide examples and data from our own experience of a range of alternate methods for application to ATMP products.
Releasing Your AAV Therapy with Confidence: Regulatory Considerations and Key...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/3icKkbZ
Ensuring the safety and quality of your AAV vector is of the utmost importance. Join this webinar for a high-level overview of the regulatory requirements for AAV testing throughout the manufacturing process, as well as a more detailed look at rcAAV and infectious titer assays.
Adeno-associated virus (AAV) vectors possess a number of advantages for use in human therapy including: high titer preparations, low immunogenicity, capacity to infect a wide range of cell types, and replication deficiency. Even with these advantages, there are biosafety concerns to consider when using AAV vectors.
This webinar will discuss key regulatory considerations across the manufacturing process, from the helper/packaging plasmids through to lot release testing. We will highlight critical assays that are required and delve into specifics on replication competent AAV testing and infectious titer determination by TCID50.
In this webinar, you will learn:
• Critical biosafety considerations for AAV vectors based on the latest regulatory guidance
• How replication competent AAV testing fits into your bulk and final release testing package
• The benefits of routine and platform assays over custom assay development
Presented by:
Steven McDade, Senior Technical Specialist, Field Technology Management
Alfonso Lavorgna, Ph.D., Operations Manager, Virology Services
Exploring Intensified Seed Train Through Advancements in Perfusion Processing...Merck Life Sciences
This poster explores key elements of bioreactor design and automation strategies that enable successful implementation of seed train intensification via perfusion:
- Sparger performance characterization
- Cell retention device connection
- Evaluation of the Hamiltion® Incyte viable cell density (or permittivity) sensor
- Cell culture case studies
To learn more about this topic or collaborate with our technical experts, schedule an in-person or remote visit at our M Lab™ Collaboration Centers: www.merckmillipore.com/mlab
Setting up for successful lot release testing by Edmund AngMilliporeSigma
Is your lot release testing strategy ready for global commercialization?
In this webinar, you will learn:
• CMC testing requirements with CHO production platform for global commercialization
• Lot release testing of product intermediates and final product
• Product-specific qualification study
• Alternative rapid testing methods to advance lot release testing
CHO cells continue to serve as a key cell substrate for the manufacturing of recombinant proteins that span beyond therapeutic monoclonal antibodies and including subunit vaccines.
In this presentation, we will cover the CMC testing requirements with CHO production platform for global commercialization, Lot release testing of product intermediates and final product, product-specific qualification study and highlight the application of new testing methods and the benefits they bring to advance Lot Release Testing.
Biosafety in Gene Therapy: Applying the latest regulatory guidance for RCL te...Merck Life Sciences
Watch the presentation of this webinar here: https://bit.ly/33WUiqE
Ensuring the safety and quality of your lentiviral vector is of the utmost importance. Attend this webinar to learn about testing strategies to monitor replication competent lentivirus. You will also hear about recent changes in regulatory guidance with regards to sample types and volumes tested.
The use of lentivirus vectors to produce groundbreaking gene therapies is on the rise. Ensuring the biosafety and quality of these vectors is achieved through a multi-tiered testing approach.
For lentivirus-based therapies, generation of replication competent particles is a potential risk. While improvements in design and manufacturing have decreased the probability of producing replication competent viruses, regulatory agencies provide guidelines to test for their presence at multiple stages in production. This webinar reviews the strategies for monitoring replication competent lentiviruses. We describe current methods and address: Sample types, testing volumes, and expected results.
In this webinar, you will learn about:
• The latest FDA regulatory guidelines on replication competent lentivirus (RCL) testing
• Methods used to monitor RCL
• Considerations on sample type and volume requirements
Viral Risk Mitigation Strategies: Key Considerations in the Prevention and De...MilliporeSigma
Regulatory guidelines have defined industry best practices around adventitious virus contamination and risk mitigation in terms of patient safety.
Today, the industry is taking a closer look at minimizing the business risk associated with viral contamination and is taking a more directed view of risk mitigation. This approach includes virus prevention and detection, in addition to removal.
From cell culture seed train to final fill vial, this presentation will describe:
-Potential risks associated with different areas of biotech processes
-What can be done to minimize adventitious virus risk in those areas.
The overarching strategy of risk mitigation will include evaluation of raw materials, modified expression systems, environmental controls, upstream and downstream processing, as well as testing and regulatory considerations.
High Content Screening of automated wound healing and cytotoxicity assays in ...HCS Pharma
To find anti-cancer drugs, different cellular modifications can be looked at: cell death effect on proliferating cells either in 2D culture or on spheroids (3D culture), anti-mitotic, anti-migration/invasion, anti-angiogenesis effects… Different assays can be performed to follow these different effects. High content screening is a multi-parametric technology allowing searching for poly-effects drugs.
In this poster, several well known compounds were tested in 3 different assays: cytotoxicity in 2D culture, cytotoxicity in spheroids (3D culture) and scratch assay (also named wound healing). These 3 models were automated in 96-well plates.
Neuromics base presentation 2020 with Virus Transport MediaPete Shuster
Neuromics' is a leader in providing Biopharmas, Academic and Government with CFR compliant 2 and 3-D human primary cell assays, media and supplements for discovery. We also provide antibodies, proteins/growth factors, apoptosis kits and genetic engineering/manipulation tools. We now have FDA registered Virus Transport Media (VTM).
Discovery of novel immunotherapy represents a main and intense focus of reseach in oncology. Proof of concept studies in animal represent a challenge and require a well characterized and appropriate animal models with most of the time customized approaches. Some recent developments and data generated for immune checkpoint modulators, adoptive cell transfer therapy, vaccines and bispecific T cell engagers will be presented.
Achieving High Yields in Scalable Xeno Free Culture Formats with Mesenchymal ...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3ryE5ST
Optimize your mesenchymal stem cell growth. Join our webinar to learn more about our GMP-compliant xeno free media formulation that supports high performance expansions and compatibility with scalable xeno free manufacturing conditions.
Optimizing ex vivo cell expansion processes in preparation for clinical use is a critical step in cell therapy manufacturing. Given the curative and lifesaving impacts these therapies can have on patients, overcoming roadblocks with scalability and supply chain, using high quality raw materials are essential for therapeutic access.
The GMP-compliant Stemline® XF MSC Medium and cocktail promotes expansion of human mesenchymal stromal/stem cells (hMSCs) to high densities while maintaining cell identity and quality. This product was designed for derivation and expansion of MSCs using xeno free conditions in planar and microcarrier-based culture platforms, easing the transfer between research, clinical, and manufacturing scale cultures.
In this webinar, you will:
• Explore the current landscape and future trends of cell culture media for adult mesenchymal stem cells
• Discover ways to derive MSC's from Bone Marrow in Xeno Free conditions from static to microcarrier-based suspension culture platforms.
• Learn how Stemline® XF MSC Media provides robust performance and reduces scalability roadblocks
Presented by: Kathleen Ongena, Ph.D., Head of Customer Applications and Mark Ventresco, Cell Therapy Product Manager
Normal tissues and tumors arise from a population of cells termed stem cells. In vivo experiments have provided evidence of the presence of stem cells throughout the mouse mammary gland. Premalignant mammary outgrowths that faithfully recapitulate the mammary epithelial cell lineage upon transplantation contain cells with tumor-forming potential. Cell sorting techniques have identified putative mouse mammary stem cell surface markers and human breast cancer stem cell surface markers. These markers do not identify only stem cells but in fact distinguish a mixed population of cells containing stem cell activity. Previous studies have demonstrated that clones arising from single cells in vitro can be categorized into three types based on the clone morphology. Here, we report the characterization, both in vitro and in vivo, of clonogenic cells from a non-tumorigenic mammary epithelial population and those from an erbB2-induced mammary tumor. We found that clones arising from normal mammary cells expressed different patterns of stem and developmental marker between the clone types and compared to the expression patterns observed on clones that developed from tumorigenic mammary cells.
Cloning and Extracellular Expression of Recombinant Tissue Plasminogen Activa...bioejjournal
Tissue plasminogen activator (tPA) has noteworthy application in treatment of acute myocardial
infarctions. This study focuses on expression of rt-PA using microbial systems in order to reduce cost
without compromising on quality as an alternative to commercial (rt-PA)produced by using mammalian
host systems. In the present study, Pichia pastoris X-33strain was used as a host with pICZαA expression
vector to obtain extracellular expression of full length tPA gene. Specific primers were designed in such a
way to get native tPA protein sequence in subsequent purification steps. Further, construct pICZαA-tPA
was developed and electroporated into host to achieve stablert-PA gene by achieving genome integration.
The transformants were screened for phenotypic characters.Mut+
phenotypic colony named Pichia tPA-3
showed expression of rt-PA at 66 kDa on SDS PAGE. Size Exclusion Chromatography (SEC) was
performed, resulting in product peak at same RT as reference standard. (alteplase).Cloning and expression
of rt-PA was successfully achieved in microbial system. Further process optimization at larger scales will
surely provide cost effective alternative to mammalian system forrt-PA production.
CLONING AND EXTRACELLULAR EXPRESSION OF RECOMBINANT TISSUE PLASMINOGEN ACTIVA...bioejjournal
Tissue plasminogen activator (tPA) has noteworthy application in treatment of acute myocardial infarctions. This study focuses on expression of rt-PA using microbial systems in order to reduce cost
without compromising on quality as an alternative to commercial (rt-PA)produced by using mammalian host systems. In the present study, Pichia pastoris X-33strain was used as a host with pICZαA expression vector to obtain extracellular expression of full length tPA gene. Specific primers were designed in such a way to get native tPA protein sequence in subsequent purification steps
Cloning and extracellular expression of recombinant tissue plasminogen activa...bioejjournal
Tissue plasminogen activator (tPA) has noteworthy application in treatment of acute myocardial
infarctions. This study focuses on expression of rt-PA using microbial systems in order to reduce cost
without compromising on quality as an alternative to commercial (rt-PA)produced by using mammalian
host systems. In the present study, Pichia pastoris X-33strain was used as a host with pICZαA expression
vector to obtain extracellular expression of full length tPA gene. Specific primers were designed in such a
way to get native tPA protein sequence in subsequent purification steps. Further, construct pICZαA-tPA
was developed and electroporated into host to achieve stablert-PA gene by achieving genome integration. The transformants were screened for phenotypic characters.Mut+
phenotypic colony named Pichia tPA-3
showed expression of rt-PA at 66 kDa on SDS PAGE. Size Exclusion Chromatography (SEC) was
performed, resulting in product peak at same RT as reference standard. (alteplase).Cloning and expression
of rt-PA was successfully achieved in microbial system. Further process optimization at larger scales will surely provide cost effective alternative to mammalian system forrt-PA production
Cloning and extracellular expression of recombinant tissue plasminogen activa...bioejjournal
Tissue plasminogen activator (tPA) has noteworthy application in treatment of acute myocardial
infarctions. This study focuses on expression of rt-PA using microbial systems in order to reduce cost
without compromising on quality as an alternative to commercial (rt-PA)produced by using mammalian
host systems. In the present study, Pichia pastoris X-33strain was used as a host with pICZA expression
vector to obtain extracellular expression of full length tPA gene. Specific primers were designed in such a
way to get native tPA protein sequence in subsequent purification steps. Further, construct pICZA-tPA
was developed and electroporated into host to achieve stablert-PA gene by achieving genome integration.
The transformants were screened for phenotypic characters.Mut+phenotypic colony named Pichia tPA-3
showed expression of rt-PA at 66 kDa on SDS PAGE. Size Exclusion Chromatography (SEC) was
performed, resulting in product peak at same RT as reference standard. (alteplase).Cloning and expression
of rt-PA was successfully achieved in microbial system. Further process optimization at larger scales will
surely provide cost effective alternative to mammalian system forrt-PA production.
Cloning and Extracellular Expression of Recombinant Tissue Plasminogen Activa...bioejjournal
Tissue plasminogen activator (tPA) has noteworthy application in treatment of acute myocardial
infarctions. This study focuses on expression of rt-PA using microbial systems in order to reduce cost
without compromising on quality as an alternative to commercial (rt-PA)produced by using mammalian
host systems. In the present study, Pichia pastoris X-33strain was used as a host with pICZαA expression
vector to obtain extracellular expression of full length tPA gene. Specific primers were designed in such a
way to get native tPA protein sequence in subsequent purification steps. Further, construct pICZαA-tPA
was developed and electroporated into host to achieve stablert-PA gene by achieving genome integration.
The transformants were screened for phenotypic characters.Mut+
phenotypic colony named Pichia tPA-3
showed expression of rt-PA at 66 kDa on SDS PAGE. Size Exclusion Chromatography (SEC) was
performed, resulting in product peak at same RT as reference standard. (alteplase).Cloning and expression
of rt-PA was successfully achieved in microbial system. Further process optimization at larger scales will
surely provide cost effective alternative to mammalian system forrt-PA production.
HDAC4 and HDAC7 Promote Breast and Ovarian Cancer Cell Migration by Regulatin...CrimsonpublishersCancer
Breast and ovarian cancer have been remained as a highly malignant tumor among women, posing a serious threat to women health worldwide. In this study, we were aimed to investigate the underlying mechanism of breast and ovarian cancer cell migration. Wound healing assay showed that MDA-MB-231and C13* have higher migration potential compare with MCF-7 and OV2078 cells, as well as regulated epithelial-mesenchymal transition (EMT) marker. We found that HDAC4 and HADC7 mRNA are up regulated in MDA-MB-231 and C13* cells. Moreover, target HDAC4 and HDAC7 by TSA or shRNA block MDA-MB-231and C13* migration. These results reveal a new link between HDACs and EMT in the regulation of breast and ovarian cancer migration.
Similar to Stemline® XF MSC Medium has High Yield and Functionality in the 3 L Mobius® Stirred Tank Bioreactor (20)
The Viscosity Reduction Platform: Viscosity-reducing excipients for improveme...MilliporeSigma
Protein viscosity is a major challenge in preparing highly concentrated protein formulations suitable for subcutaneous injection. Recently, the Viscosity Reduction Platform (VRP) was introduced and its technical key features and benefits for formulations were discussed. However, highly viscous solutions do not only pose a challenge when administering a drug to a patient, they can also impose technical limitations in the manufacturing process.
This white paper evaluates the effect of the excipients in the Viscosity Reduction Platform on ultrafiltration processes used to produce a highly concentrated formulation of a monoclonal antibody (mAb). Two filtration methods are demonstrated in this work.
Find more information about the Viscosity Reduction Platform on our website: https://www.sigmaaldrich.com/products/pharma-and-biopharma-manufacturing/formulation/viscosity-reduction-platform
Use of Excipients in Downstream Processing to Improve Protein PurificationMilliporeSigma
Excipients are used to improve the stability of protein-based therapeutics by protecting the protein against a range of stress conditions such as temperature changes, pH changes, or agitation. Similar stresses are applied to proteins during downstream purification. Shifts in pH during Protein A chromatography, subsequent incubations at low pH for virus inactivation, and changes in conductivity in ion exchange chromatography can lead to aggregation, fragmentation, or other chemical modifications of the therapeutic protein. Given the potential impact on the protein’s structural integrity, there is a need for approaches to reduce the risk presented by the conditions during downstream processing. For example, integration of a solution to prevent aggregation of proteins would be a more efficient strategy than implementing steps to remove multimeric forms.
This white paper highlights the results from a recent paper by Stange et. al., in which protein stabilizing excipients such as polyols, sugars, and polyethylene glycol (PEG4000) were used as buffer system additives. Effect of the excipients on elution patterns, stabilization of the monomer antibody, host-cell protein removal, virus inactivation rates and binding capacity of cation exchange chromatography were explored.
Exploring the protein stabilizing capability of surfactants against agitation...MilliporeSigma
Agitation of therapeutic protein solutions during manufacturing, shipping and handling is one of the major initiators for protein aggregation and particle formation during the life history of a protein drug. Adsorption of protein molecules to liquid-air interfaces leads to the formation of highly concentrated protein surface films. The rupture of these protein films due to various mechanical processes can then result in the appearance of protein aggregates and particles in the bulk solution phase.
One technique to stabilize proteins against stress induced by liquid-air interfaces is the use of non-ionic surfactants. About 91% of antibody formulations commercially available in 2021 contained a surfactant. Polysorbate 20 and 80, composed of a hydrophilic polyoxyethylene sorbitan and hydrophobic fatty acid esters, made up the largest part being employed in 87% of said formulations.
Despite their frequent use in parenteral drug products, concerns have been raised for decades about the application of polysorbates as surfactants in biopharmaceutical formulations. Autoxidation of polysorbate, caused by residual peroxides in polysorbates, can damage the proteins and can further drive the oxidative degradation of polysorbate. Chemical and enzymatic hydrolysis of polysorbate may lead to the formation of free fatty acid particles, which may become visible; and both mechanisms eventually lead to the reduction in polysorbate concentration. Therefore, the purpose of the current study was to compare various molecules for their capabilities to reduced agitation-induced protein aggregation and particle formation; and furthermore, investigate their underlying protein stabilizing mechanisms.
The Viscosity Reduction Platform: Viscosity Reducing Excipients for Protein F...MilliporeSigma
Protein viscosity is one of the major obstacles in preparing highly concentrated protein formulations suitable for subcutaneous injection.
This whitepaper examines how combining an amino acid with a second viscosity-reducing excipient circumvents adverse effects on protein stability and improves viscosity-reducing capacity.
To find more information about the Viscosity Reduction Platform, please visit our website: https://sigmaaldrich.com/products/pharma-and-biopharma-manufacturing/formulation/viscosity-reduction-platform
Characterization of monoclonal antibodies and Antibody drug conjugates by Sur...MilliporeSigma
Watch the presentation of this webinar: https://bit.ly/3Pjpjvr
Highlights of this webinar:
- Surface plasmon resonance as a powerful tool for biologic characterization including mAbs and ADCs.
- SPR allows rapid binding analysis in real time without using labels for SARS-CoV-2 receptor binding domain mutations.
- Kinetic data is indicative of possible neutralizing activity allowed assessment of neutralizing ability of therapeutic monoclonal antibodies.
- The application can provide preliminarily efficacy information and facilitated mAbs/ACDs candidate selection process
Detailed description:
Characterization of therapeutic monoclonal antibodies (mAbs) or Antibody drug conjugates (ADCs) is challenging due to their ability to bind to a variety of proteins via their Fc and Fab domains, giving rise to diverse biological functions associated with each domain. The Fc domain of mAbs interacts with Fc receptors with varying affinities, which can influence biological processes such as Complement-dependent cytotoxicity (CDC) and Antibody-dependent cellular cytotoxicity (ADCC), transcytosis, phagocytosis, and/or serum half-life.
An important characteristic of an antibody is its Fc effector function. Antibodies can be engineered to obtain desired binding of the Fc region to Fc receptors expressed on effector cells. Hence, it is crucial to evaluate the binding interaction of mAbs/ADC with Fc receptors in the early phase of drug development to understand the potential biological activity of the product in vivo.
Surface Plasmon Resonance (SPR) is a powerful technique to establish binding kinetics in real-time, label free, and high sensitivity with low sample consumption. Along with target antigen binding, it is crucial to evaluate the binding interaction of antibodies and ADCs with Fc receptors. Our SPR case studies investigated the impact on binding kinetics of ADCs with different linkers and the binding interactions of SARS-CoV-2 spike protein variants and evaluated the neutralizing ability of therapeutic mAbs. SPR characterisation can be facilitated in all stages of the product life cycle to ensure the quality and safety of mAbs and ADCs.
The Role of BioPhorum Extractables Data in the Effective Adoption of Single-U...MilliporeSigma
Regulatory expectation does require patient safety evaluations with supporting data for manufacturing components that directly come into contact with drug manufacturing process streams. Readily available extractables data can help manufacturers using singleuse technology to accelerate product qualifications, risk assessments and process optimization
This white paper guides you on how to save time and resources with supplier-provided single-use system extractables data and gives you an overview about the overall strategy for Extractables & Leachables. At the end you will find a case study.
Find more information about filters and single-use components on our website: https://www.sigmaaldrich.com/DE/en/services/product-services/emprove-program/emprove-filter-and-single-use-component-portfolio
The Future of Pharma- and Biopharmaceutical AuditsMilliporeSigma
Watch the recording of this presentation here: https://bit.ly/3zTOpe4
Detailed description:
SARS-CoV-2 showed us that technology supports us during our inspection activity even if on-site visits are not possible. Travel restrictions of various kinds will remain a risk in the future. The use of new technologies has shown that inspections and audits can be carried out despite these restrictions. We will focus on what possibilities the new technologies offer and take a look at the future of inspections and audits.
In this webinar, you will learn:
• Regulatory overview of remote audits
• The technologies needed to support the audit process
• What types of inspections are possible with the use of these technologies
• How audits may look in the future
Presented by:
Daniel Buescher, Product Manager - Digital Solutions
Moving your Gene Therapy from R&D to IND: How to navigate the Regulatory Land...MilliporeSigma
Watch the recording of this presentation here: https://bit.ly/3SqOsoP
Novel therapies, including cell and gene therapies, continue to be central to innovation in healthcare and represent the fastest growing area of therapeutic medicine. As a consequence, the number of gene therapies undergoing clinical trials has increased significantly in the last five years.
Manufacturing processes for these novel therapeutics are very complex with a high risk of contamination. Regulatory agencies world-wide have responded by issuing guidance to outline their expectations for development and manufacture of cell and gene therapies. Currently, regulatory guidance is not harmonized globally and can often lead to confusion within industry and increased risk of non-compliance.
In this webinar, we'll answer:
• Which regulatory guidelines do you need to comply for your INDs?
• When do you start implementing GMPs and validated assays?
• How do you get your QC testing strategy ‘right the first time’?
• How do you ensure testing is not your rate limiting step for the IND submission?
Presented by:
Manjula Aysola, Senior Regulatory Consultant
Dr. Alison Armstrong, Sr. Director, Technical and Scientific Solutions
Identity testing by NGS as a means of risk mitigation for viral gene therapiesMilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3RijkHC
Detailed description:
Imagine you’ve just completed a manufacturing run for your viral vector. Identity testing is performed to confirm the vector sequence. But when the results come back the data reveals unexpected sequence variants! With an appropriate risk mitigation testing strategy, this situation can be prevented.
The situation described above is not hypothetical, and happens more that you think, costing valuable time and resources.
Investigatory testing has shown that sequence variants present in starting materials (e.g. plasmids) are likely to make their way to the final product. Adequate identification of low-level variants with an appropriately sensitive method is critical in ensuring the quality of the final product. A risk-based testing strategy, in the context of identity, for viral vector manufacturing will be presented, focusing on key testing points. NGS assays for identity and variant detection will be highlighted due to their extremely sensitive nature compared to traditional approaches.
In this webinar, we'll explore:
• Regulatory requirements for identity testing
• NGS applications for identity testing as compared to traditional methods
• A case study on the impact of not establishing a proper risk-based testing strategy
Presented by: Bradley Hasson, Director of Lab Operations for NGS Services
Latest advancements of melt based 3D printing technologies for oral drug deli...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3A2WcH4
The application of polymer excipients in 3D printing manufacturing is usually limited due to the concerns of filament strength, high processing temperature and large scale manufacturing.
Latest technology developments are targeting a direct melt deposition to simplify the process and enable a constant and efficient process. Two different processing approaches will be presented:
The advanced melt drop deposition, where individual three dimensional geometries can be created by depostition of polymer droplets and the MED® 3D printing technology which allows by precise layer-by-layer deposition to produce objects with well-designed geometric structures.
In this webinar, you will learn:
• Latest advancements of melt based 3D printing approaches
• Application examples for the individual technologies
• Deep dive in the MED® 3D printing technology to design dedicated drug release profiles
Presented by:
Dr. Thomas Kipping, Head of Drug Carriers
Dr. Xianghao Zuo, Deputy Director of R&D, Triastek
CAR-T Manufacturing Innovations that Work - Automating Low Volume Processes a...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3NDNIKe
Automated, fit-for-purpose tools are essential in CAR-T processing to support sustainable manufacturing of clinical and market-approved cell therapy products. This webinar will discuss how the ekko™ Acoustic Cell Processing System uses acoustic technology as a touchless approach to manipulate cells, enabling a modular tool across the CAR-T manufacturing workflow. Typical performance of templated ekko™ System processes for DMSO washout of leukapheresis material, low volume and high cell concentrate for electroporation preparation, and harvest of expanded T cells will be reviewed.
This webinar will also give an early glimpse at the ekko™ Select System for unmatched T cell selection.
In this webinar, you will:
• Uncover how the ekko™ System supports the broad industrialization of cell therapy, with particular focus on how to achieve low volume, high concentrate cell product for critical transduction and transfection steps
• Discover how ekko™ System for wash and concentrate processes throughout the cell therapy workflow achieve high cell recovery, viability, and effective residual removal
• Preview to ekko™ Select, our cell therapy selection platform, to achieve unmatched ease-of-use with direct processing from leukopaks reducing the need for preparation steps
Presented by:
Benjamin Ross-Johnsrud, Acoustic Technology Expert
Robert Scott, Mechanical Engineer III
How does the ICH Q5A revision impact viral safety strategies for biologics?MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3t7X9tg
How does the ICH Q5A revision impact viral safety strategies for biologics?
Biologics continue to grow at a fast pace. Manufactured using cell lines of human or animal origin, these are at risk of viral contamination making safety strategies critical. A comprehensive risk mitigation strategy using multiple orthogonal measures is a regulatory expectation. ICH Q5A, the globally-harmonized guideline outlines the expectations. ICH Q5A is currently being revised to address recent scientific advancements including novel therapeutic modalities, new manufacturing paradigms, updates in viral clearance applications, and alternate detection technologies. We’ll discuss the expected changes and potential impact on viral safety strategies with case studies and examples.
In this webinar, you will learn about:
• The Importance of virus testing in biologics products
• Regulatory landscape, expectations for the Q5A revision
• What's new and changing
• Examples of alternate testing schedules, impact on viral clearance
Presented by:
Manjula Aysola, Senior Regulatory Consultant
Alison Armstrong, PhD, Sr. Director, Technical and Scientific Solutions
Improve Operational Efficiency by Over 30% with Product, Process, & Systems A...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3adaxWh
When implementing new automation systems, organizations must consider things like deployment time, user adoption, and costs.
They must also consider the cost of doing nothing – that is, what competitive advantage is lost in standing still? What time and quality is lost in repetitive, manual tasks rather than an automated, digital workflow? What operational efficiencies are lost?
In this webinar we examine how a product, process, and system agnostic automation platform can be deployed faster than traditional system specific software while bringing greater operational efficiencies (in many cases over 30% improvement).
To remain competitive in the market, biopharma manufacturers must adopt automation and digital technologies, but most plants still have island of automation consisting of independently functioning, standalone unit operations. This results in operational inefficiency, regulatory concerns, and a poor understanding of the process and product life cycle.
Taking the first, right step must include considering risks, costs, timelines, and technology alternatives. Traditional automation approaches tied to specific systems, processes, and products are, by their nature, limited; while an agnostic platform will address current biomanufacturing business challenges and ensure future readiness. With the right platform, a phased automation implementation can yield operational efficiency gains of up to 30% and improved product quality and regulatory compliance.
In this webinar, let's explore:
• Challenges of automation and digital technology adoption
• What a product, process, and system agnostic platform entails
• Applications and benefits of a process orchestration platform
• Ensuring future readiness with process orchestration
Presented by:
Braj Nandan Thakur, Global Product Manager - Automation
Insights from a Global Collaboration Accelerating Vaccine Development with an...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3Nbb5ug
Get insights and best practices from a multinational team establishing a platform for vaccine production. See how a long-term collaboration on a bench-scale process used to produce a Virus Like Particle (VLP) vaccine for SARS-CoV-2 was successfully converted to a robust GMP-compatible, scalable process.
The COVID-19 pandemic further emphasized the need for collaboration in the development of urgently needed vaccines and therapeutics. In this webinar, we take you behind the scenes of our collaboration with Technovax and Innovative Biotech in which a scalable VLP vaccine platform was optimized for use in a production facility in Nigeria in response to the need for local production of SARS-CoV-2 vaccines. The flexibility and robustness of the platform will enable its rapid deployment to support the West African pandemic readiness program. Initial development of the VLP process began in late 2019 and by March 2020, was already adapted for production of a SARS-CoV-2 vaccine.
In this webinar, you will learn:
• About building a priceless collaborative network with integrated solutions
• Virus-Like Particle Vaccines
• Process Development Overview and Challenges
• Pre-clinical Results and Next Steps
Presented by:
Jose M. Galarza, PhD,
President and Founder of TechnoVax
Naomi Baer,
Business development consultant, Emerging Biotech, BioProcess division
Youssef Gaabouri, Eng. ,
Associate Director, Head of Sales Middle East & Africa, BioProcess division
Risk-Based Qualification of X-Ray Sterilization for Single-Use SystemsMilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3vQf0qv
In the single-use bioprocess industry, X-ray irradiation warrants consideration as an alternate sterilization technology. Using a risk-based qualification testing strategy is important when evaluating and implementing equivalent ionizing irradiation sterilization methods.
The urgent need for life-saving therapies as a result of the global pandemic has reinforced the criticality of flexibility in pharmaceutical manufacturing, including sterilization. The single-use bioprocess industry traditionally has employed gamma irradiation sterilization. X-ray irradiation is being considered as an additional sterilization technology for business and supply continuity. We will share a risk-based qualification testing strategy including Extractables and data generated to support comparability of gamma irradiation and X-ray irradiation as equivalent ionizing irradiation sterilization methods.
In this webinar, you will learn about:
• The comparison of gamma and X-ray irradiation sterilization
• A risk-based qualification test strategy
• Data evaluation of gamma versus X-ray sterilized single-use components
Presented by:
Monica Cardona,
Global Senior Program Manager
Paul Killian, Ph.D.,
R&D Director, Analytical Technologies
Rapid Replication Competent Adenovirus (rRCA) Detection: Accelerate your Lot ...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3MJ4u9V
Testing for presence of replication competent adenovirus (RCA) is a key component to ensure patient safety and a requirement for all biologicals manufactured using adenoviral vectors. For many adenoviral-based products, the RCA assay is a rate-limiting assay for lot release.
Join this webinar to learn about a rapid RCA detection assay currently in development, which combines a 7-day culture assay with a highly sensitive molecular endpoint specific for RCA. The method can detect presence of as little as 1 RCA in adenoviral vector material at an approximate concentration of 5x107 - 2x108 vector particles (VP)/mL, making it a suitable method to meet regulatory requirements while accelerating your lot release timelines.
In this webinar, you will learn about:
• Regulatory framework for adenoviral vector products
• Considerations for lot release testing of adenoviral-based therapies
• Advantages of a rapid method for RCA testing on production lot material
Presented by:
Axel Fun, Ph.D.,
Principal Scientist
Alberto Santana, MBA,
Product Manager, Biologics Biosafety Testing
The High Intensity Sweeteners Neotame and Sucralose: 2 Ways to ace the Patien...MilliporeSigma
Watch the presentation of this webinar here: https://bit.ly/3vQyN7K
Bitter medicines are an important issue, especially for pediatric applications. As several APIs have bitter tasting components, high intensity sweeteners for taste optimization are of great interest. Join our webinar to discover our new sweetener toolbox enabling safe and stable formulations.
Mask bitter aftertaste for a sweeter pill to swallow! Patients’ compliance and the therapeutic benefit are supported by a pleasant taste of pharmaceutical formulations. With the high intensity sweeteners Neotame and Sucralose, you have efficient tools at hand which are superior to other sweeteners in many aspects:
• excellent sugar-like taste profile
• outstanding sweetness factors
• use effectiveness
• enhanced stability
We will present our new toolbox of two high performance sweeteners and focus on aspects of stability, safety, the application in various dosage forms, and market perception.
In this webinar, you will learn:
• How to optimize the patients' taste experience of your pharmaceuticals
• How sweeteners can be differentiated by their sensory profiles and features
• How our new product offering Neotame can be effectively used in your targeted formulations
Presented by:
Almut von der Brelie,
Senior Manager Strategic Marketing, Excipients for Solid Applications
The Developability Classification System (DCS): Enabling an Optimized Approac...MilliporeSigma
This whitepaper by Dr. Daniel Joseph Price outlines how poorly soluble drug formulations can be designed using the developability classification system (DCS).
The DCS identifies the root cause of low solubility and enables lean, cost-effective and effective formulations to be developed.
#solubility #pharmaceuticalmanufacturing #oralsoliddosage #drugdevelopment
How to Accelerate and Enhance ADC TherapiesMilliporeSigma
In this webinar, you will learn about:
The advantages of using advanced intermediates to develop ADC therapies
How to increase ADC solubility and efficiency
Fast, small-scale ADC library generation
Seamless supply chain with reduced complexity and regulatory support
The ADCore product line offers versatile intermediates that simplify the synthesis of common ADC payloads (dolastatins, maytansinoids, and PBDs) by greatly reducing the number of synthetic steps. This translates to savings in development and manufacturing costs and shorter timelines to the clinic. To address the poor solubility of many ADC payloads, ChetoSensar™ was developed to significantly increase the hydrophilicity of the drug linker, which has been shown to also substantially increase the efficacy of ADCs and broaden the therapeutic window.
Lastly, the ADC Express™ service leverages conjugation chemistry and analytical expertise to help design and quickly synthesize sets of potential ADC therapies suitable for screening to simplify candidate selection and get ADC therapies to market faster.
Defecation
Normal defecation begins with movement in the left colon, moving stool toward the anus. When stool reaches the rectum, the distention causes relaxation of the internal sphincter and an awareness of the need to defecate. At the time of defecation, the external sphincter relaxes, and abdominal muscles contract, increasing intrarectal pressure and forcing the stool out
The Valsalva maneuver exerts pressure to expel faeces through a voluntary contraction of the abdominal muscles while maintaining forced expiration against a closed airway. Patients with cardiovascular disease, glaucoma, increased intracranial pressure, or a new surgical wound are at greater risk for cardiac dysrhythmias and elevated blood pressure with the Valsalva maneuver and need to avoid straining to pass the stool.
Normal defecation is painless, resulting in passage of soft, formed stool
CONSTIPATION
Constipation is a symptom, not a disease. Improper diet, reduced fluid intake, lack of exercise, and certain medications can cause constipation. For example, patients receiving opiates for pain after surgery often require a stool softener or laxative to prevent constipation. The signs of constipation include infrequent bowel movements (less than every 3 days), difficulty passing stools, excessive straining, inability to defecate at will, and hard feaces
IMPACTION
Fecal impaction results from unrelieved constipation. It is a collection of hardened feces wedged in the rectum that a person cannot expel. In cases of severe impaction the mass extends up into the sigmoid colon.
DIARRHEA
Diarrhea is an increase in the number of stools and the passage of liquid, unformed feces. It is associated with disorders affecting digestion, absorption, and secretion in the GI tract. Intestinal contents pass through the small and large intestine too quickly to allow for the usual absorption of fluid and nutrients. Irritation within the colon results in increased mucus secretion. As a result, feces become watery, and the patient is unable to control the urge to defecate. Normally an anal bag is safe and effective in long-term treatment of patients with fecal incontinence at home, in hospice, or in the hospital. Fecal incontinence is expensive and a potentially dangerous condition in terms of contamination and risk of skin ulceration
HEMORRHOIDS
Hemorrhoids are dilated, engorged veins in the lining of the rectum. They are either external or internal.
FLATULENCE
As gas accumulates in the lumen of the intestines, the bowel wall stretches and distends (flatulence). It is a common cause of abdominal fullness, pain, and cramping. Normally intestinal gas escapes through the mouth (belching) or the anus (passing of flatus)
FECAL INCONTINENCE
Fecal incontinence is the inability to control passage of feces and gas from the anus. Incontinence harms a patient’s body image
PREPARATION AND GIVING OF LAXATIVESACCORDING TO POTTER AND PERRY,
An enema is the instillation of a solution into the rectum and sig
CRISPR-Cas9, a revolutionary gene-editing tool, holds immense potential to reshape medicine, agriculture, and our understanding of life. But like any powerful tool, it comes with ethical considerations.
Unveiling CRISPR: This naturally occurring bacterial defense system (crRNA & Cas9 protein) fights viruses. Scientists repurposed it for precise gene editing (correction, deletion, insertion) by targeting specific DNA sequences.
The Promise: CRISPR offers exciting possibilities:
Gene Therapy: Correcting genetic diseases like cystic fibrosis.
Agriculture: Engineering crops resistant to pests and harsh environments.
Research: Studying gene function to unlock new knowledge.
The Peril: Ethical concerns demand attention:
Off-target Effects: Unintended DNA edits can have unforeseen consequences.
Eugenics: Misusing CRISPR for designer babies raises social and ethical questions.
Equity: High costs could limit access to this potentially life-saving technology.
The Path Forward: Responsible development is crucial:
International Collaboration: Clear guidelines are needed for research and human trials.
Public Education: Open discussions ensure informed decisions about CRISPR.
Prioritize Safety and Ethics: Safety and ethical principles must be paramount.
CRISPR offers a powerful tool for a better future, but responsible development and addressing ethical concerns are essential. By prioritizing safety, fostering open dialogue, and ensuring equitable access, we can harness CRISPR's power for the benefit of all. (2998 characters)
How many patients does case series should have In comparison to case reports.pdfpubrica101
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Growing Prevalence of Lifestyle Diseases
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ACCORDING TO apic.org,
Antimicrobial stewardship is a coordinated program that promotes the appropriate use of antimicrobials (including antibiotics), improves patient outcomes, reduces microbial resistance, and decreases the spread of infections caused by multidrug-resistant organisms.
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In 1996, John McGowan and Dale Gerding first applied the term antimicrobial stewardship, where they suggested a causal association between antimicrobial agent use and resistance. They also focused on the urgency of large-scale controlled trials of antimicrobial-use regulation employing sophisticated epidemiologic methods, molecular typing, and precise resistance mechanism analysis.
Antimicrobial Stewardship(AMS) refers to the optimal selection, dosing, and duration of antimicrobial treatment resulting in the best clinical outcome with minimal side effects to the patients and minimal impact on subsequent resistance.
According to the 2019 report, in the US, more than 2.8 million antibiotic-resistant infections occur each year, and more than 35000 people die. In addition to this, it also mentioned that 223,900 cases of Clostridoides difficile occurred in 2017, of which 12800 people died. The report did not include viruses or parasites
VISION
Being proactive
Supporting optimal animal and human health
Exploring ways to reduce overall use of antimicrobials
Using the drugs that prevent and treat disease by killing microscopic organisms in a responsible way
GOAL
to prevent the generation and spread of antimicrobial resistance (AMR). Doing so will preserve the effectiveness of these drugs in animals and humans for years to come.
being to preserve human and animal health and the effectiveness of antimicrobial medications.
to implement a multidisciplinary approach in assembling a stewardship team to include an infectious disease physician, a clinical pharmacist with infectious diseases training, infection preventionist, and a close collaboration with the staff in the clinical microbiology laboratory
to prevent antimicrobial overuse, misuse and abuse.
to minimize the developme
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Stemline® XF MSC Medium has High Yield and Functionality in the 3 L Mobius® Stirred Tank Bioreactor
1. Technical Note
Stemline®
XF MSC Medium has High Yield
and Functionality in the 3 L Mobius®
Stirred
Tank Bioreactor
Abstract
Optimizing ex vivo cell expansion processes in
preparation for clinical use is a critical step in cell
therapy manufacturing. Given the curative and
lifesaving impacts these therapies can have on
patients, performance and quality are essential
outputs of any expansion process. Here, we discuss
the performance of Stemline®
XF MSC Medium, which
promotes expansion of human mesenchymal stromal/
stem cells (hMSCs) to high densities while maintaining
cell identity and quality. This product was designed
for efficient expansion in planar and microcarrier-
based culture platforms, easing the transfer between
research, clinical, and manufacturing scale culture. We
describe the ex vivo expansion of bone marrow-derived
hMSCs cultured in Stemline®
XF MSC Medium in a 3 L
stirred tank bioreactor-microcarrier platform.
Introduction
The long-term outlook for stem cell therapy predicts a
shift toward more defined media and high-quality raw
materials. Currently, fetal bovine serum (FBS) is still
used in the majority of MSC products being developed
for clinical use. For many reasons, cell therapy
developers are being encouraged to move away from the
use of serum at earlier stages of product development1
.
Alternative formulations include solutions often
categorized as “serum free,” “xeno free,” or “defined.”
Developing a well-defined, scalable bioprocess is also
important to produce robust and safe cell therapies2
.
To support that vision, there is an increased need for
cell therapy reagents compatible with microcarrier-
based suspension culture platforms. This would allow
for both small-scale studies and large-scale therapeutic
manufacturing, without the need to redefine critical
reagents when entering a new phase of the therapy
development process.
Pre-clinical and clinical level data will be essential in
determining the safety and therapeutic effects for
different disease indications for hMSC therapies3
.
Thus, it is extremely beneficial to investigate serum-
alternative media formulations that support high
performance expansion and are compatible with
scalable manufacturing processes. Here we detail the
process parameters and growth results of bone marrow-
derived hMSCs cultured in Stemline®
XF MSC Medium in
a 3 L stirred tank bioreactor-microcarrier platform.
Methods
Stemline®
XF MSC Medium, consisting of Stemline®
XF
MSC Basal Medium (Cat. No. 14371C) and Stemline®
XF MSC Supplement (Cat. No. 14372C), was used
in our 3 L Mobius®
bioreactor system with minimal
process modifications.
Bone marrow-derived hMSCs were scaled up in either
Stemline®
XF MSC medium, alpha-MEM supplemented
with 5% human platelet lysate (hPL), or a commercially
available xeno-free competitor medium. Each medium
was supplemented with L-glutamine at a final
concentration of 2 mM. Shear protectants were added
to each medium. Collagen Type I-coated microcarriers
were chosen for hMSC expansion.
Over the duration of the run, dissolved oxygen (DO) and
pH were continuously monitored and controlled at 50%
and 7.4 respectively. Nutrient and metabolite levels were
measured daily (BioProfile®
FLEX2, Nova Biomedical).
If the L-glutamine or glucose levels fell below half the
recommended concentration, they were spiked back up
to the recommended level. Total cells were determined
by manual sampling and counted in triplicate (Technical
note No. 0221 Rev.1.2, Chemometec).
The hMSCs were harvested on day 8 of the bioreactor
culture. Expression of the surface markers CD44, CD73,
CD90, CD105, CD11b, CD14, CD19, CD34, CD45,
CD79a, CD106, CD274 and HLA-DR was assessed by
flow cytometry. Potency of the cells expanded in the
Stemline®
XF MSC medium was also determined. After
bioreactor expansion, the hMSCs were re-plated in tissue
culture flasks and activated (licensed) by supplementing
the media with 25 ng/mL (final) of tumor necrosis
factor (TNF)-α and interferon (IFN)-γ. After three days,
the expression of the immune potency-related surface
The life science business of Merck KGaA,
Darmstadt, Germany operates as
MilliporeSigma in the U.S. and Canada.
2. 2
markers CD274, CD54, HLA-DR, CD80, CD40, and CD86
was determined by flow cytometry. The indoleamine
2,3-dioxygenase (IDO) activity of the activated hMSCs
was also assessed by measuring the concentrations
of L-tryptophan and L-kynurenine in the cell culture
supernatant. Trilineage differentiation capability was
tested using AdipoMAX Differentiation Medium (Cat.
No. SCM122-1KT), ChondroMAX Differentiation Medium
(Cat. No. SCM123) and OsteoMAX-XF Differentiation
Medium (Cat. No. SCM121).
Summary: Run Parameters
Cell Bank Bone marrow-derived hMSC bank
Process/volume 2.4 L fed-batch (1 L + 1.4 L)
Duration 8 days
Seed density 3 x 103
cells/cm2
Microcarriers Collagen-coated polystyrene, 15 g/L (360 cm2
/g)
Media Stemline®
XF MSC medium
Alpha-MEM + 5% hPL
Xeno-free competitor
Temperature 37 °C
pH 7.4 (0.05 dead band) via CO2/base
DO 50% via air/O2/N2 overlay
Agitation rate 35 rpm (day 0 – feed), 61 rpm onwards
Results
Overall, hMSCs expanded in the Stemline®
XF MSC
medium showed superior growth performance
(Figure 1). After an eight-day culture, a yield of
8.3 E+08 total viable cells was attained with the
Stemline®
XF MSC medium, followed by 5.25 E+08
cells with AMEM + hPL, and 3 E+08 with the xeno-
free competitor medium. The cumulative population
doublings were 5.6 with the Stemline®
XF MSC
medium, 5.0 with AMEM + hPL, and 4.2 with the
competitor xeno-free medium.
0.0E+00
1.0E+08
2.0E+08
3.0E+08
4.0E+08
5.0E+08
6.0E+08
7.0E+08
8.0E+08
9.0E+08
0 1 2 3 4 5 6 7 8 9
Total
cells
Time (days)
Stemline XF MSC
AMEM + hPL
Xeno-free Competitor
Figure 1. Comparison of growth on microcarriers in the Mobius 3
L bioreactor. Total cell counts on Day 8 indicate Stemline®
XF MSC
medium outperformed AMEM + hPL by 58.3% and a commercially
available xeno-free formulation by 178.9%.
pH and DO remained within control constraints with
notable spikes on Day 3 during addition of media and
microcarriers (data not shown). Nutrient depletion and
waste production in Stemline®
XF MSC medium were
increased compared to other media and are consistent
with the higher growth rates (Figure 2).
0
0.5
1
1.5
2
2.5
0 1 2 3 4 5 6 7 8 9
Glucose
(g/L)
Time (days)
Stemline XF MSC
AMEM + hPL
Xeno-free Competitor
a)
b)
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
2
0 1 2 3 4 5 6 7 8 9
Lactate
(g/L)
Time (days)
Stemline XF MSC
AMEM + hPL
Xeno-free Competitor
c)
0
0.5
1
1.5
2
2.5
3
0 1 2 3 4 5 6 7 8 9
L-glutamine
(mM)
Time (days)
Stemline XF MSC
AMEM + hPL
Xeno-free Competitor
d)
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
0 1 2 3 4 5 6 7 8 9
Ammonium
(mM)
Time (days)
Stemline XF MSC
AMEM + hPL
Xeno-free Competitor
Figure 2 (A-D). Comparison of nutrient and metabolite profiles during
expansion in the 3 L bioreactor. The hMSCs consumed more glucose (A)
and produced greater levels of lactate (B) with the Stemline®
XF MSC
medium. Similarly, there was increased glutamine consumption (C) and
ammonium production (D) with Stemline®
.
3. 3
We found that hMSCs expanded in Stemline®
XF MSC
Medium retained typical identity markers and potency
after 3 L bioreactor culture. The cells highly expressed
CD44, CD73, CD90, and CD105, concomitant with
little to no expression of CD11b, CD14, CD19, CD34,
CD45, CD79a, CD106, CD274 and HLA-DR (Figure 3).
The hMSCs successfully differentiated into adipocytes,
chondroblasts, and osteoblasts as shown by positive
stains of lipid vacuoles with Oil Red O, glycoconjugates
with Alcian Blue, and calcium deposits with Alizarin Red
respectively (Figure 4). Several MSC surface markers
related to immune function including CD274, CD54, and
HLA-DR were upregulated after a three-day incubation
with TNF-α and IFN-γ (Figure 5)4
. There was increased
IDO activity with licensed hMSCs which was confirmed
through the significant depletion of L-tryptophan and
production of L-kynurenine (Figure 6).
0
20
40
60
80
100
%
Gated
cells
Surface antigens
Stemline XF MSC
aMEM + hPL
Xeno-free
Competitor
C
D
9
0
C
D
1
0
5
C
D
7
3
C
D
4
4
C
D
1
0
6
C
D
2
7
4
C
D
1
9
C
D
3
4
C
D
1
1
B
C
D
7
9
a
C
D
1
4
H
L
A
-
D
R
C
D
4
5
Figure 3: Comparison of surface marker expression post-expansion
in the 3 L bioreactor. The typical bone marrow-derived hMSC surface
marker phenotype was observed with all three media. There was
positive expression of CD90, CD105, CD73, and CD44, along with
negative expression of CD106, CD274, CD19, CD34, CD11B, CD79a,
CD14, CD45, and HLA-DR.
a) b)
c)
Figure 4: Trilineage differentiation of hMSCs after 3 L bioreactor expansion with Stemline®
XF MSC medium. The cells maintained the ability to
differentiate into adipocytes (A), chondroblasts (B), and osteoblasts (C) with positive tissue stains after respective differentiation procedures.