Single-Use Final Fill: Benefits and Considerations

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Single-Use Final Fill: Benefits and Considerations TENDÊNCIAS DE TECNOLOGIAS DE FABRICAÇÃO E ASSÉPTICA DE MEDICAMENTOS Ana Luísa Lampert Cadore Sales Specialist SU & Aseptic Process Solutions ana.cadore@merckgroup.com 27 28 Novembro, 2017

Agenda 1. Benefits of single-use 2. Single-use final fill overview 3. Considerations for implementation 4. Questions

What is a Single-Use Assembly? Prequalified, preassembled, pre-sterilized and ready-to-use Self-contained and preassembled plastic fluid path Combination of pre-qualified components: Bags, tubing, connectors, filters, mixers, fittings, sampling containers rapid transfer ports, pumps, and filling needles Gamma irradiated & ready-to-use Customized to meet defined user requirements

Stainless Steel Carry's Challenges in Today s Market Large capital investment and long implementation timeline CIP and SIP required Significant set-up & break-down time Limited product changeover flexibility Multiple connections and potential leak points Complex operations Restricted Access Barrier (RAB) with stainless steel hard piping

Single-Use Technology Benefits Flexibility Economics Ease of use, reduced change-over for multi-product and small batches Benefit for clinical phase (many different products, only a few that will go in commercial production) Production optimized with a flexible facility layout No CIP/SIP necessary, no cleaning validation Reduced utilities Reduced time-to-market = reduced time to patient Reduced downtimes = more batches Safety Operator protection from: cleaning chemicals, steam, high potent drugs Minimized risk of cross contamination

Single-Use Vs. Multi-Use? Time and cost calculation of cleaning and steaming Customer data Multi-Use Single-Use Equipment cost $500,000 -- Equipment set-up 2 hours 45 min BioProcess International 12(4)s April 2014 CIP & SIP cycles SIP cool down cycle Equipment break down Post-use CIP 40 + 75 min 75 min -- (ready to use) -- (ready to go) 1 hour 15 min 40 min -- (throw it away) Summary 7 hours and $500,000 1 hour and cost of assembly Pharmaceutical Technology Bioprocessing & sterile Manufacturing 2014

Agenda 1. Evolution and benefits of single-use 2. Single-use final fill overview 3. Considerations for implementation 4. Questions

What does the process look like? Formulation Filtration Filling Vent Bag Bulk Fluid Bag Or Formulation Vessel Sampling Pump Filter Capsule (Single/Redundant) Sterile connector Sterile disconnect Flush Bag or Barrier Filter Sampling Header Bag (Surge) Pump Filling Needle(s)

What does the single-use final fill process look like? Formulation Filtration Filling

Design Considerations Single-Use Filtration Assemblies Flushing flush bag or filter Filter integrity testing pre-use testing Number of filters in system single, dual, redundant Product recovery downstream blow down Filters in or out of isolator Vent Bag Filtration Filter Capsule (Single/Redundant) Flush Bag or Barrier Filter

Final Filling Header Bag Filling 2-D and 3-D bag options Alternative designs to enable: Better drainage and/or higher product recovery without manipulation Recirculation for suspension products Batch vs. continuous processing Number of filling needles Sampling Header Bag (Surge) Pump Filling Needle(s)

Final Filling Tubing Manifold Filling Overmolded technology Minimizes tubing/fitting connections Decreases air entrainment in lines Provides uniform flow distribution to all filling needles for fill volume accuracy and repeatability Available in a range of tubing sizes (ID/OD), lengths and durometers Improved product recovery from header bag Sampling Header Bag (Surge) Pump Filling Needle(s)

Final Filling Tubing Manifold Filling Dosing accuracy is a function of tubing and needle type Filling needles options are available to meet the equipment manufacturer s requirements SU filling needles available in different formats Sampling Header Bag (Surge) Pump Filling Needle(s)

Ability to interface with an isolator while maintaining sterility Isolator Interface with Getinge DPTE Beta Bag Sterile transfer of fill lines and needles Sterility validation Integrity tested

Typical Final Fill Assembly

Agenda 1. Evolution and benefits of single-use 2. Single-use final fill overview 3. Considerations for implementation 4. Questions

Single-Use Implementation Considerations & Best Practices Considerations Assembly design Product compatibility Extractables, leachables and toxicity Particulates System integrity System sterility Packaging How do you mitigate the risk? Supplier / End-user partnership Key decision areas for a SUS manufacturing strategy PDA Technical Report 66: Application of SUS in Pharmaceutical Manufacturing «Adopter accepts to transfer critical control parameters like sterility or cleanliness to a third party» «The V&Q Control strategy followed by the end user will then shift to a process of building partnership with the supplier to gain assurance and set measurable performances.»

Extractables and leachables Requirements for Final Filling Operations Operations downstream of Purification and Final Filling is generally considered greatest risk to patient Must demonstrate that patient is not at risk Must demonstrate product purity, efficacy, stability When possible, leachables should be evaluated when the final step in the production process is sterile filtration prior to filling. PDA Technical report N 26, 2008

Risk-Based Approach to Particulates Raw materials and components Film and tube cutting Assembly testing Packaging, shipping and transportation of finished assemblies Handling and transport of raw materials and components Subassembly and assembly creation Gamma irradiation Use Risk Assessment All stages of assembly manufacture and use including raw materials, sub-assemblies, assemblies, and final product.

Integrity Assurance Collaboration Between Supplier and End-User Design Risk Mitigation Failure Modes Supplier & Customer Supplier Leak or Integrity Test Shelf Life Packaging & Shipping Validation (ISTA 2A) Best Practices for Handling Optional: Point of Use Leak Test End User

Bringing it all together Do your homework Assess product compatibility Define user requirements and process specifications Find the right partner Strong single-use technical support, knowledge and capabilities Quality systems are adequate and able to meet requirements Testing Collaboration between enduser, filling manufacturer and single-use supplier Fit testing, factory acceptance testing (FAT), wet testing, engineering runs and validation Training SOPs, standard work documents in place Operators receiving, unpackaging, handling and installing assemblies are properly trained

Questions? Thank you!

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