Simplyfeye at ISPE Boston Product Show (October 7, 2015)

 Easy | Intuitive | Collaborative | Part11 Compliant 

Visit our booth at the upcoming ISPE Boston Product Show and know more about our product ProcessPad.

Event Details:
Booth # 2214
ISPE Product Show XXIV
Wednesday October 7, 2015
Gillette Stadium Clubhouse
Foxborough, MA

More Details about the event at: http://productshow.ispeboston.org/

Statistical Process Control (SPC) and Continuous Process Verification (CPV)

Simplyfeye team is recently involved in a major project with a multinational pharma company where we are helping the company setup a process monitoring program of all its commercial manufacturing processes using our product ProcessPad.

We all know SPC is an important ingredient of CPV and a process control chart (as shown below) forms the central piece of the puzzle for SPC and any process monitoring program.

Figure 1: Process Control Chart

Here is how we help setup a Process Monitoring program.

Step 1: What to SPC?

Figure 2: Selecting parameters for routine monitoring

Step 2: What limits to apply?

Figure 3: Controlling the process within limits

Step 3: How to estimate control limits?

Figure 4: Statistical rules to estimate control limits

Step 4: How to identify a trend?

Step 5: How it all ends up in ProcessPad?

Figure 5: Outcome of Steps 1 through 4 in real life

Step 5 above shows how ProcessPad platform provides a tool set for rapidly deploying a process monitoring program for your continuous process verification efforts that can be easily validated in GMP environments with minimal efforts.

For more information contact us at: info@simplyfeye.com

© Simplyfeye       |        info@simplyfeye.com         |         http://www.simplyfeye.com

Simplyfeye presenting at Windshire Seminar in Cambridge, MA

Getting the Most Out of Your Process Data: 

Techniques for Data Acquisition and Analysis and  

Why It is Important

The Windshire Group, LLC and Ops2Data, LLC proudly invite you to a symposium featuring presentations from two prominent industry experts (see profiles below) speaking on Process Data Analytics and Ongoing Process Verification, followed by a roundtable discussion.

Attendees also will benefit from networking with their peers.

A complimentary Continental breakfast and will be included with your free registration.

When:       Thursday, June 25, 2015

Where:      The Seminar Room

Athenaeum Center

215 First Street

Cambridge, MA 02142

8:00 a.m.                       Continental Breakfast / Networking

8:30-11:00 a.m.           Seminar and Roundtable Discussion

How:         RSVP  by info@windshire.org or 1-844-686-5750, ext. 102

                   with number of people attending

Presentations by: 

James Blackwell, Ph.D., M.B.A.

President, The Windshire Group, LLC

Biopharmaceutical, Medical Device, & Cell Therapy

Comprehensive CMC Consulting^tm Services

A prominent industry consultant with broad technical and quality experience encompassing early process development to commercial operations for pharmaceutical and biopharmaceutical including monoclonal antibodies, parenterals, vaccines, recombinant proteins, oral dosage forms, peptides, antibiotics, medical devices, and cell therapy products. Dr. Blackwell is a member of ISPE, RAPS, PDA, and AAPS and has graduate training in chemical engineering, microbiology, and business and technology management.

For more information about The Windshire Group please go to our website at

http://www.windshire.org

Anshuman Bansal

Founder, Simplyfeye 

Mr. Bansal is a leading expert on process analytics. Simplyfeye provides manufacturing intelligence solutions for bioprocess scientists and engineers and empower them with contextual information for making better, faster data driven decisions.

For more information about Simplyfeye please visit their website at http://www.simplyfeye.com/

© Simplyfeye       |        info@simplyfeye.com         |         http://www.simplyfeye.com

Non-conformance Triages: Analytical Results Assay Background Data

In the biopharmaceutical production world we are always surrounded by all kinds of quality impacting non-conformances. Typically a site triage team investigate these non-conformances that involves folks from Production, QA and QC (and sometimes people from Process Development or Manufacturing Sciences) to meet periodically to track, resolve, assign root cause and identify corrective and preventative actions. This cross-functional team needs information from variety of cross-functional data sources quickly to resolve issues. Typical information sources that are scraped during an investigation are shown in image below as the basic building blocks of an investigation process. Instant access to the data from these building blocks (in the context of the non-conformance) is very essential so that the group can resolve these on the fly while having discussion during the meeting itself.

Most often in investigations assay background data like system suitability, calibration curve details (that help in assessment of assay fitness) are difficult to access and may get overlooked from the information platter due to hastiness in getting to an assignable cause and CAPA. If the assay background data is available instantly the team can readily answer questions related to

• sources of variability in assay results

• re-evaluate assay suitability criteria and variability in system suitability itself

• variability in calibration curves and assessment of its limits criteria

• variability in internal reference standards

• and much more….

ProcessPad(TM) now has the capability of bringing the test results’ background assay data along with other investigation building blocks on the same single access window. This will help triage team get instant access to all relevant data and readily get answers to their investigation related queries right there during the triage meeting. A typical trend outcome (via ProcessPad) for an assay system suitability is shown below

About ProcessPad(TM)

ProcessPad(TM) is bio+pharma process management software to manage process data in development and commercial manufacturing of biopharmaceuticals.

© Simplyfeye Softwares Pvt Ltd, Hyderabad, India      |      info@simplyfeye.com       |      http://www.simplyfeye.com

Simplyfeye among best product poster presented at IKMC 2013

Simplyfeye team recently attended a poster conference (http://www.ikmc2013.com/ikmc/index.html) organized by IKP Knowledge Park at Hyderabad,India. This conference is an annual event organized by IKP to showcase innovative product development in the country and is attended by industry veterans , government representatives and angel investors / venture capitalists. More than 100 innovators and start-up companies presented their ideas in the form of posters. Our poster titled "Bioprocess Monitoring" based on our innovative product ProcessPad was very well appreciated. We are excited to inform that we were adjudged second best poster in the conference. This recognition boost our confidence and gives Simplyfeye team encouragement to continue our journey of building quality products and solutions for the bio/pharmaceutical drug manufacturing industry. We thank IKP team for inviting us and giving us chance to present our ideas. Sharing below is the poster that we presented.

Additional note on Bioreactor Contamination Control: Some Simple Strategies to Consider

Further to my earlier post on using process data for troubleshooting and control of bioreactor contaminations, I recently came across a wonderful article in Pharmaceutical Engineering for simple strategies to keep a check on contamination events published by Ryan Schad and his team (from Eli Lilly & Co.) back in June 2010 issue of the magazine.

I especially liked the following checklist provided in this article.

The article elegantly describes the following considerations in good detail:

• handling of steam and condensate
• air removal
• cold spots
• equipment drains
• piping slopes
• elastomers
• methods of data collection from reactor for monitoring
• offline monitoring: sterile sampling techniques
• online monitoring: reactor probes and its sterility
• valves and dead lags
• agitator shaft seals

In addition to these I also recommend considering these:

• Incorporating a Helium Leak Test: Since helium can penetrate very small cracks and crevices, filling the bioreactor with helium prior to a batch and snooping for leaks is very quick and easy way to identify potential leaks especially in deteriorated elastomers. Most of the leak testing methods that are usually employed are bubble test or pressure decay. Helium can be a good alternative if you find any of the current methods that you employ are not effective.  
• Using inexpensive Tempilstik temperature crayons: If your plant is old or there is no way to install additional temperature sensors on your valves to check for effectiveness of your SIPs, you may consider good old temperature sticks to confirm the effectiveness of sterilizations each time and record the checks in your SIP batch records. (Note: This process is laborious but can be an easy cost effective solution for contamination check and also historizing SIP data for future troubleshooting)

If you think you already have incorporated these checks and still are having problem in controlling your contamination events its high time you take help of external consultants as they will help provide a third eye to the investigation. Most of the time taking the help of consultants who have already solved similar problems in various contexts earlier can help you overcome your own organizations' blind spots, internal politics or lack of expertise (internal transfers, attrition etc.).

Simplyfeye team can be one such resource to you that you can rely and can utilize our years of experience in solving such problems. Our team will help you implement effective CAPAs (and data systems) for future checks on such events.

Mixing and Blending Effects: Troubleshooting with process data

Those of us involved in biomanufacturing know the crucial role that buffers (or media) prep/hold tanks or product intermediate holding tanks play in any biopharmaceutical operations. We cannot imagine any biomanufacturing activity without these hold/blending tanks. In large scale operations (any thing above 1000L scale) most of these tanks are stainless steel.  Figure below shows a schematic of such a tank. There can be large variation in the size and design of these tanks within the facility.

Lack of knowledge or consideration of these design variations in operations leads to inconsistent buffer (or product intermediate) preparations leading to incorrect product estimations which in turn leads to incorrect product loading on the next unit operation. Some of the key areas that we should keep in mind are

• estimating appropriate mixing/blending time with factor of safety and incorporating those in relevant SOPs (standard operating procedures) and BPRs (batch production records).
• understanding the relative positioning of regions 1 through 4 (regions are marked by yellow bubble in the tank schematic figure above). Region 2 is important in estimating the concentration (via offline sampling) while region 3 is important in controlling pH (or conductivity) (via online feedback control) respectively. Region 1 and 4 are important in understanding the design differences and relative concentration gradients of solutions within the tank. 

Achieving homogeneity of liquid in these regions (w.r.t to whole mix) is the key to operations with reduced variability and eliminating troubleshooting headaches. Differences in position, type and size of impellers (as shown in figure below) also considerably affect the blending operations which should also be considered while writing SOPs and BPRs.

If you are observing variability (especially in intermediate step protein or buffer concentrations) in your operations it is highly probable that some of it may be coming from inconsistent blending operations. Most of the time blending is overlooked on scale up and we don't invest much time and effort building good data systems around it, hence, the operating staff is not geared with right tool-set for troubleshooting. Usually most of our focus in operations is getting the main unit operations right. We at Simplyfeye highly recommend investing in some extra sensors for online monitoring and detailed recording of manual blending operations for offline historical analysis.

Let me explain this need for data systems with a small example.

Imagine you have a two consecutive chromatography steps ChromA and ChromB within your protein production process. The eluate from ChromA is pooled into a intermediate tank where the pool is blended (and 20% diluted) with a load buffer to prepare for load onto the next step ChromB as shown below

If you had invested in some extra sensors capturing data from tank, the "Tank Weight" trend for a batch on the "Load Prep Tank" would look something like the chart below

The five phases depicted in the chart above (marked by black bubbles) are showing different operations that happened during the blending operations and this data can be sliced and diced accordingly for process troubleshooting:

• Phase 1: Shows tank weight increasing when the eluate is being transferred to the tank. The slope of this curve will give additionally an estimate of the eluate flow rate.
• Phase 2: Shows the hold/mix/idle time before the buffer is added to the tank
• Phase 3: Shows tank weight increasing when the buffer is being transferred to the tank. The slope of this curve will give additionally an estimate of the buffer addition flow rate.
• Phase 4: Shows the hold/mix/idle time after the buffer is added to the tank and a homogeneous mixture is achieved. If the inconsistency is seen in load concentrations this time can be correlated with concentrations 
• Phase 5: Shows decreasing tank weight when the diluted ChromB load is being loaded onto the chromatography column for step ChromB. The slope of this curve will give additionally an estimate of the load flow rate.

As we can make out from this chart above the offline sampling from the tank for estimating protein concentration should be taken

• towards the end of Phase 2 for estimating ChromA eluate pool concentration and
• towards the end of Phase 4 for estimating ChromB load pool concentration

If you have had this information easily available, you could then easily correlate sampling times with the timings of end of Phase 2 and Phase 4 to understand the variability in your ChromA eluate pool or ChromB load pool concentrations respectively. This would help confirm if time of sampling are set properly in the SOPs or BPRs and if not set properly necessary CAPA (corrective and preventive action) can be assigned based on the actual data.

You can also sometime observe a trend where load pool concentration is either getting over estimated or under estimated (as shown in the batch trend chart below), the root cause of which can sometimes be attributed to mixing/blending operations. 

The concentration can be over or under estimated if

• sampling is taken without giving sufficient mixing time
• pH or conductivity control range is too wide
• target concentration calculation is always rounded on the higher (or lower) side of the target
• over/under transfer of buffer due to faulty load scale on either buffer or blending tanks
• line losses in transfer operations
• buffer confounding causing test method error

This explains the need for having an efficient data system that can not only capture but also aggregate the process events, manual operations and machine data efficiently. Otherwise troubleshooting of such problems becomes a nightmare for scientists and engineers working on the floor.

This is just a small example, however, there can be similar other operational effects that are often overlooked giving severe headaches to operations folks in nailing down the variability in their processes. Investing in proper data acquisition and data management tools is worth the money that can save million of dollars in wasted efforts, resources and precious drug product going down the drain. ProcessPad from Simplyfeye is one such platform/solution that can bring some sanity to your process troubleshooting efforts. Write to us if you are solving similar issues in your operations. Our team of experts can help you solve your riddles and also help in setting up efficient data systems.