Flexible Containment Concepts in Real Application - PowerPoint PPT Presentation
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Flexible Containment Concepts in Real Application
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OC Technical Guidelines - 1994. RBEC Guideline -1998, revised 2001 ... GES, GSS, QA. Major Solid Dosage Sites. Key PSC manufacturing Sites ... – PowerPoint PPT presentation
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Title: Flexible Containment Concepts in Real Application
1
Flexible Containment Concepts in Real Application
- Jon Gast
- Steven Meszaros
- PSG 2009
2
PSC Guideline Presentation Overview
- RBEC History
- Motivation
- Scope
- Strategy
- Expectations
- Gap Analysis RBEC Checklists
- Fixed Containment
- Flexible Containment Solutions
3
PSC Guideline History
- OC Technical Guidelines - 1994
- RBEC Guideline -1998, revised 2001
- RBEC Interpretation Guideline - 2002
- PSC Task Force 2003
- PSC Guideline 2004 EHS Policy 404
- IH Policy 401
- Containment Technology Matrix (CTM) 2009
4
PSC Guideline Motivation
- Regulatory Requirements
- API Product Cross Contamination
- Worker Health Safety
- Environmental Air, Water Waste - PNAEELs
- Third Party Contractual Obligations Liability
- cGMP Harmonization - CS 14-8-4
- OHC, OEGs and RBEC levels
- Aligned with RD TOPS Decision Gates
5
Historical PSC Risk Control Issues
- Pre-RBEC Facility Designs Equipment
- Historical levels gt 1,000 X OEG
- Cross Contamination Potential
- Pharmaceuticals In the Environment
6
Real Risks
7
PSC Guideline Scope
- RD API Manufacturing Handling
- Pharmaceutical Manufacturing
- BioPharmaceutical Manufacturing
- New Products Facilities and Areas
- Renovated Facilities and Areas
- Third Party Manufacturing
- Requires project-specific RBEC Criteria
interpretation - -The key is to design is to meet
our OEG !
8
Rollout Strategy
- Endorsement from TOPS
- and RD senior management
- Stakeholder meetings planned for
- TOPS, RDCPD/PDC
- GES, GSS, QA
- Major Solid Dosage Sites
- Key PSC manufacturing Sites
9
PSC Guideline New Expectations
- Responsibilities Defined
- Timelines for Conformance Specified
- cGMP Cross Contamination Harmonization of
Engineering EHS approaches - GAP Analysis
- Short Term, Long Term Actions
- Conformance Action Plans Site Master Plans
10
RBEC Risk Based Exposure Control
- 4-Tier Banding System
- Aligned to OEG
- Conforms to Pharmaceutical Industry
- Hierarchy of Controls
- Engineering Project Guidance
- RBEC Criteria Tables
- Containment Technology Matrix
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PSC RBEC Criteria Table Gap Checklist
- Facility Design for Containment
- Room Work Surfaces
- HVAC Systems
- Local Exhaust Ventilation
- Process Equipment
- Unit Operations milling, blending, sieving, etc.
- Product Transfers
- Maintenance Cleaning
- Medical Surveillance
- Work Methods SOPs
- PPE Respirators
- Waste Containment Disposal
- cGMP Regulatory conformance
12
PSC GAP Assessment
- Facility Team EHS, Engineering, management, and
Quality Assurance. - RBEC Gap Checklist - For each API by area,
process or unit operations.
RBEC 3 Gap Checklist
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API Dispensing Containment
14
New Technologies Bin Blending
15
Surrogate Testing Protocol Containment Technology
Matrix
- Real conditions
- Assume sub-optimal technique
- Worst case operator shift
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PDC CONTAINMENT PROJECT AN OVERVIEW
17
Facility Airlocks Added
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Facility Expansion of Process Areas
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Flexible Containment Systems Summary
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Flexible Containment Concept Designs
Note Glove-ports in not shown in all concept
sketches. Blender and Mi-Pro SMI system not
shown
21
Transfer Systems
- All the isolator systems provided with a Bag
in/out canister to allow contained transfer in
and out of materials. The canister is 11.73
internal diameter. - This canister also serves a duel purpose of
allowing connection of the In-Process Isolator to
them. Canisters are mounted at standard height to
allow easy connection. - The only isolators that the In-Process isolator
can not connect to directly are the Extruder and
Spheronizer systems (due to height issues.). A
connection can be made using a length continuous
liner if it is required.
22
In-Process Isolator
The In-Process Isolator is a general purpose
piece of equipment designed to allow any number
of tasks to be carried out. It can be used
independently or connected to other flexible
isolator systems as shown.
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Typical Process Flow
24
Typical Process Flow
25
Typical Process Flow
26
Extruder Spheronizer Design Progress
Flange Mock Up
Flanges Installed
Finalized 3D Design Drawing
Enclosure Installed December2008
27
Glatt GPCG1 Design Progress
Ergonomic Flange Mock Up
Finalized 3D Design Drawing
Enclosure Installed December 2008
28
Korsch Design Progress
Finalized 3D Design Drawing
Enclosure Installed December 2008
29
Procept SMI Press
SMI Press Flange Installed
Enclosure Installed December 2008
Procept Final Design
30
Strea Design Progress
Finalized 3D Design Drawing for Flange
Enclosure Installed December 2008
31
Roller Compactor Design Progress
Finalized Design Concept Final Assembly Shipped
to Newbridge December 2008
Gerteis Mini-Pactor
32
Bohle BTS-100 Cone Mill
Finalized 3D Design Drawing
Enclosure Installed December 2008
33
Collette UltimaGral 10 25 Liter
Finalized 3D Design Drawing
Enclosure Installed December 2008
34
Installation Training
Training Carried Out January 2009
