In this podcast, we spoke with Nainesh Shah, Senior Application Engineer at Asahi Kasei Bioprocess about buffer management including the benefits of inline buffer formulation, and single use inline buffer formulation systems.  
Buffer Management 
We started the podcast by talking about how critical buffer management is to bioprocessing. Mr. Shah discussed how buffers are required in large quantities during the biomanufacturing process and that traditionally buffers were made in large tanks, stored, and used as needed. However, now real estate in the bioprocessing industry is at a premium and companies are looking to utilize new technologies that can reduce facility footprint. For buffer management, it makes sense to create buffer on demand to reduce the footprint dedicated to buffer production in the past.  

Inline buffer formulation is a hot topic with companies who require a large quantity of buffer because it provides a way to create buffer on demand in a much smaller footprint. The interesting thing is that it is now also a hot topic among small R&D scale buffer users as well. Inline buffer formulation systems are ideal for users who need 200 to 500 liters of buffer at a time. The system takes the concentrate and adds clean water to provide just the right amount of buffer on demand. Another benefit of inline buffer formulation is that you can achieve a quick process changeover and move on to the next buffer formulation without spending valuable time cleaning the tank, taking samples, and readjusting the critical parameters.  

Recently, any new manufacturer, whether it's a large scale or small scale tends to move into this field of buffer management and operates one or two Inline Buffer Formulation (IBF) systems like the MOTIV. They then use these systems to make all sorts of buffers needed for their various processes. 
The MOTIV Family of Inline Buffer Formulation Systems
Next, I asked Nainesh if he could talk a bit more about the MOTIV family of inline buffer formulation and fluid management systems that Asahi Kasei Bioprocess America (AKBA) offers. He explained how the award-winning MOTIV family has evolved into a series of inline buffer formulation systems designed to help companies move past downstream bottlenecks by driving buffer productivity. The product family includes 3-pump, 5-pump, and custom IBF configurations that can fit most any space, cost, or performance requirements. The MOTIV is a leader in buffer production with a range of scale from 4,500 liters per hour to 10 liters per minute to fit an entire range of volume requirements. 

He went on to say that they have added a new feature where MOTIV can fill up bags with buffer and monitor the quantity in the bag to make buffer on demand even easier.  
MOTIV SU
Then we talked about the new MOTIV SU, a single use inline buffer formulation system, built to produce complex buffers on-demand effectively and efficiently, all from one pump head, and without the need for CIP/SIP procedures between batches. The innovative design modulates flow through control valves while simultaneously integrating buffer solutions and mixing. As with all the MOTIV systems, OCELOT System Control ensures precise blends every time, controlled by pH and conductivity feedback or flow. 

The MOTIV SU is perfect for a biomanufacturer who does not want to spend time with cleaning and validation. It is great for one time use as it does not require time spent in cleaning, validation, and making sure that it is free of all the contaminants and all the buffers which may be harmful for the next process. Another benefit would be if a biomanufacturer used a buffer which had a chemical or ingredient which would be problematic for other processes, and they wanted to eliminate any risk of contamination.  

Since the MOTIV SU has replaceable parts, which come as a pre-built unit,

In this podcast, we spoke with Emanuel Krobath, Biopurification Specialist and Chiara Pacini, Bioprocess Specialist both with Pall Corporation about gene therapy process development including challenges and resources that are available for support.  

I began the discussion by asking Emanuel and Chiara to tell listeners a little bit more about their jobs and how they support gene therapy developers on the bench. Emanuel started by saying that as a bioprocess product specialist, he performs customer bench case studies at the customer site, specifically for the downstream process including vaccines, recombinant proteins, monoclonal antibodies and gene therapy products. He shared that the customers he works with are usually in preclinical or Phase I studies and he supports them from clarification to the final sterilizing grade filtration. This scale up, optimization, and technical support is offered free of charge to help customers succeed in their process development. He said that he also finds new technologies and ideas for the Pall R&D team during these visits.

Chiara shared that she supports customers from bench scale studies through the manufacturing process on downstream starting from  clarification to sterile filtration. She spends most of her time traveling to her customers’ laboratories or manufacturing sites to provide general support, conduct optimization studies and technical support training to find the best practice or membrane selection for their process.

I then asked if they could share what are the most common questions that they get from their customers. Emanuel said that what size filter do they need for a specific product and what is the best material to use is one of the most common. Chiara said that for her it is how to intensify a process or make it more robust for clarification, TFF, chromatography, and membrane filtration.

We also talked about a series of videos on Pall’s website and how these were created to help translational academics who work in gene therapy. Emanuel explained that they wanted to support academia specifically in their scale up and small-scale process development, because often in academia, the user will take the first filter that is available at their site. It is important that they understand and have the support to select the correct filter for their product, so that the process is optimized at manufacturing scale. Chiara agreed that the videos were designed to show we can support the development process not just for manufacturing scale, but also for initial bench scale studies. This and the initial optimization study that Pall performs with the customer ensures scalability to large scale processes and identifies the critical process parameters needed to reach high yield and product productivity.

Next, we discussed what they like most about the work that they do. Chiara described how being a bioprocess specialist gives her the opportunity to meet the people in both large and small companies who are working on these therapeutics. She enjoys supporting the development of different molecules and gene therapies and is always updated on the latest techniques used for gene and cell therapy. Emanuel said that he enjoys traveling, which is important because visiting customers in person is a big part of his job. He added that it never gets boring since he is supporting customers as they deal with very diverse processes and challenging problems. His favorite part of the job is that basically they are doing scientific work at the frontline, and he saw this to an even larger extent during the COVID pandemic as they were involved in nearly every vaccine process development.

I followed up by asking which projects that they were most proud of. Emanuel said that with the exponential growth of plasmid DNA demand, as it is either used as a template for mRNA vaccines or the molecular function for DNA vaccin...

In this podcast we spoke with Derrick Alig, North American Western Regional Sales Manager for PSG Dover Biotech, Chris Couper, President and Founder of Liquidyne Process Technologies, and Phil Sanders Biotech Chief Innovation Officer at Agilitech about current supply chain challenges, possible solutions, what the future holds, and ways to navigate supply chain shortages to ensure manufacturers meet their timelines.
Supply Chain Shortages
I began the discussion by asking our panel members if they could discuss challenges that their customers are currently having with sourcing single use consumables and technologies.
Derek began by discussing the lack of raw materials to make these products, whether it is polymer-based components where lead times have been extended due to lack of raw materials, or other areas such as chips. As a result, customers are having to purchase larger quantities of product in advance, which ultimately leads to even longer lead times.

Chris added that from a distribution perspective and an integrator perspective, many of their primary suppliers have had issues. They have also seen that many manufacturers have been able to ramp up their production with plants that were put in place in 2019-2020. However, it takes one to three years depending upon the complexity and the scope work to create additional manufacturing facilities and production lines. In addition, many manufacturers are using alternate materials. While they may have qualified one product in the past, now they are qualifying additional supply chains, so they have a primary supply chain and also secondary and tertiary chains.

Phil discussed bringing an agnostic approach to managing supply chain shortages to alleviate some of the issues of having a single source. He also pointed out that sometimes the focus is on single use supply chain issues, but there are companies using reusable equipment that are having some of the same supply chain issues, especially when it comes to these things like chips and control systems.
Supply Chain Solutions
Next, I asked the panel how their individual companies are approaching these challenges, specifically how they are working with customers to provide solutions for these challenges.
Derek explained that at PSG Dover they are committed to providing quality products to customers in the biotech market. They focus on delivery times for customers by adding more shifts to keep up with demand and in late 2021, they added a second validated cleanroom to provide additional production capacities. They have also acquired companies to provide additional capacity.

Chris added that the situation could have been much worse if manufacturers had not stepped up and added capacity like PSG Dover and that they have seen improvements in lead times. He added that for Liquidyne they have a minimum of three supply chains for virtually every component that they offer. They let their customers know that they need to qualify the three components so they can be used interchangeably to meet timelines.

Phil added that maintaining flexibility is critical. For example, maybe the entire amount of inventory that is needed isn’t available now, but there is enough to get started while orders are placed for the rest of the material. Instead of trying to provide a customer with inventory for an entire year, provide three months' worth, then another three, and so on.
Supply Chain in the Future
I followed up by asking what they thought the future looks like for the supply chain over the next three to five years. Does this resolve itself or does it shift to another potential supply chain shortage?
Derek said that he thinks that customers will continue to require multiple supply chain solutions an...

In this podcast, we spoke to Tom Watson, Group Leader, Product Management – Biotech Division, Gregor Kalinowski, Manager SLS Purification Consultants Europe, and Aude Iwaniec, R&D Bioprocessing Team Leader, all from Pall Corporation, about why high concentration mAbs are an increasingly important part of the biotech landscape, current manufacturing challenges and solutions, and future trends.
High concentration drugs offer benefits for patients
I began the discussion by asking why high concentration mAbs are an important topic in today’s biotech landscape. Tom explained that high concentration drugs are an important innovation because when a biotech drug can be prepared at high concentration that is administrable, it is usually self-administered in a subcutaneous mode. This method of delivery brings lifestyle benefits to patients and reduces health care costs because it negates the need for an intravenous treatment. Subcutaneous biotech drugs have been available for a while, but recently more companies are developing new drugs or formulating existing ones at high concentration.
High concentration mAb manufacturing vs. more traditional mAb production
I followed up by asking what some of the differences in terms of manufacturing high concentration mAbs versus more traditional mAb production are. Tom described that a mAb or recombinant protein for subcutaneous delivery is going to be prepared at a high concentration. Starting with the final concentration steps, it is common to have a highly viscous fluid of 10 to 30 centipoise, with a concentration of greater than 100 grams per liter and often higher than 250 grams per liter.

He went on to say that the concentration step reduces the volume of the fluid processed across the subsequent unit operations that are typical of a biotech process. What happens then is a reduction in the dosage volume, since you only need 1 to 2 milliliters of a highly concentrated biotech drug for therapeutic effect. So, typically there are small dosage volumes, or in some cases dosage volumes can be several milliliters to permit a slightly longer-term infusion of a subcutaneous drug.

However, viscosity makes processing the fluid more challenging across the unit operations including the concentration step itself, but also through filtration, mixing, freeze/thaw, formulation, and dispensing. In addition, the smaller batch volumes that correspond with the increased concentration of the drug raises the cost of the Active Pharmaceutical Ingredient (API) per unit volume and this results in more significant impact with any product loss.
Manufacturing challenges with high concentration drugs
Next, we discussed some of the main challenges that exist in manufacturing workflows for high concentration mAbs. Tom said that he repeatedly hears from customers about challenges relating to product loss in hold up volume, aggregation of the molecules, limitations with analytical equipment and sampling procedures, and destabilization of filtered fluid due to the stripping out of formulation components.

Achieving high product concentrations

I then asked Gregor about the specific challenges to achieving high product concentrations. He explained that product viscosity is increasing with increasing product concentration. So, for a given crossflow, the pressures are also increasing with increasing product concentration. He went on to say that the permeate flux is decreasing with increasing product concentrations and therefore the processing times become longer, and the number of pump passes are much higher compared to low concentration processes. This combination of extended recirculation time and the increased concentration carries a significant risk of shear related damage that may impact the product quality. Finally, the high viscosity of the final retentate pools typically results in a poor recovery from TFF systems be...

In this podcast, we interviewed Katie Keller, Director of Quality and Safety at Asahi Kasei Bioprocess America, about the importance of quality management and how to achieve the best possible results. Topics included the most critical elements of quality management, how to ensure the purchase of high-quality equipment, and future trends.

I started the conversation by asking Katie what she thought were the most critical elements of quality management. Katie replied by saying that a holistic approach to quality is best for any organization. It used to be that the quality unit was considered responsible for product quality, making all the decisions, and driving all the improvements and that's not really the case today. She feels the most successful approach is that since quality is so important, everyone should be responsible for it. She went on to say that when all employees understand how they contribute to product and service quality and therefore customer satisfaction, there is more buy in throughout the organization. People are empowered to take responsibility for the improvement of the processes they manage, and this total quality management is achieved by clearly defining the interaction of each process to another, ensuring employees understand that, and then setting the expectation that quality is achieved from every level of the organization with everyone playing a part.

I then asked Katie what should bioprocess equipment customers be looking for to ensure that they are purchasing high quality equipment? She told me that across industries, it's common for customers to search for suppliers with robust quality management systems. As a supplier, Asahi Kasei Bioprocess America (AKBA) can minimally prove this by achieving and advertising certification to ISO 9001. This shows that Asahi Kasei meets the minimum expectations for a manufacturing company to provide those quality products and services, but it really doesn't stop there. If they can show their customers that they have well designed, thorough processes that are continually improving, this naturally leads to better quality products and customers gain confidence in their ability to meet ongoing needs.

I continued the discussion by asking if she could talk a bit about ISO certification and why it's an important part of their quality management system. Katie explained that ISO 9001 really is the minimum. Their customers in the pharmaceutical industry might stop and look when they see the ISO certification, but what really brings them confidence and satisfaction are the ways Asahi Kasei goes above and beyond this. For AKBA, ISO certification is not just words on a page, there is a reason why every requirement in that standard exists. Katie shared that she believes it is her job to interpret this in a way that means something to her organization, so they can not only live it but improve upon it and take the next step. She elaborated on her point by saying that it is how you build upon those minimum criteria that truly shows a customer who you are and what is important to you as an organization. This is how a company can start to build that quality culture where the employees believe in the message that customer satisfaction, both internal and external, comes first.

I asked her about how these quality management systems affect the design and build of their equipment and how they have an impact beyond the quality management systems. Katie said that having ISO as a guideline is helpful for this, especially if they need to create or revamp a process. Asahi Kasei Bioprocess starts by asking what ISO requires to get a baseline and then looks at what their customers’ expectations for safety, quality, and productivity are. She explained that by keeping both these things in mind, they can create robust processes with controls or checkpoints to ensure they are satisfying all the requirements.

However,

In this podcast we spoke with Klaus Kienle, Global Product Manager for the Mixing portfolio at Pall Corporation about the latest mixing technologies including single-use solutions, the need for increased flexibility, and a more standard vendor agnostic approach.
The Role of Mixing in Biomanufacturing
I started the conversation by asking Klaus if he could talk about the role that mixing plays in biomanufacturing and current challenges in this area. Klaus explained that mixing is an omnipresent process. It starts with upstream buffer media and ends in fill and finish. It is an important part of manufacturing across several modalities, including monoclonal antibodies, mRNA based vaccines, gene therapies and various other processes. Across these various applications, flexibility is key, and it is also the primary challenge for the future. He continued by saying that Pall customers have expressed that they want increased flexibility, better lead times, and less supplier dependency in the future.
Advancements in Mixing
Next, I asked about the latest technological advancements in mixing. Klaus stated that the latest advancements are moving towards tackling the flexibility challenge, which means supplying solutions that are available with shorter lead times and are more vendor agnostic, so they fit with other vendors’ manifolds and full sets. This is consistent with the recent launch of the Allegro Ready Standard Solutions from Pall, which is not only limited to mixers, but also includes storage transfer sets and other segments. Pall has launched this new standard set ranging from a 30 liter mixer up to a 3000 liter mixer.

I continued the discussion by asking if he could talk a little bit more about some of the additional advantages of this set of new standards. He described how these standards are ready to go, so if a customer is asking for a manifold, there is no time required to generate a drawing or waiting for pricing back, resulting in a short lead time. Pall is working towards having these standards available off the shelf, reducing lead time further with availability in the range of single digit weeks, depending on manufacturing and where the customer is located. He shared that Pall has invested $1.5 billion to increase capacity and reduce lead times.
Single Use Mixing
I then asked him about some of the remaining challenges that exist with single use technologies. Klaus explained that one of the main challenges that the remains in single use is sustainability, especially since it consists predominantly of plastic components. However, there was a recent publication in New Biotechnology, authored by biopharmaceutical companies, “Streamlined life cycle assessment of single-use technologies in biopharmaceutical manufacture.” It makes the case that single use technology is providing better sustainability in the biopharmaceutical process because single use technology allows customers to use more intensified processes, thereby increasing the efficiency per consumable. Single use technologies also support a closed process and reduced clean room requirements resulting in lower energy requirements.

This is in line with the new standard designs from Pall, where the filtered product line is fully closed and processing ready. For instance, now the powder port on these designs ensures a closed and controlled environment. This then allows bioprocessing companies to lower the cleanroom environment requirements, which translates to significant energy savings.
Modular Mixing Approach
I continued our discussion by asking Klaus about a recent Show more...