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2 Day Online Course on Aseptic Processing in the Manufacture of Pharmaceutical and Biotech Products (February 2-3, 2023)

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Dublin, Dec. 30, 2022 (GLOBE NEWSWIRE) -- The "2 Day Course on Aseptic Processing in the Manufacture of Pharmaceutical and Biotech Products 22" training has been added to's offering.

Aseptic Processing is identified as a process to manufacture Medicinal and Biotechnical products course impartial is to discover the character of aseptic filling to guarantee that industrial production will recall the bareness pledge level prescribed by GMPs

Disinfected products may be largely divided into two major divisions. These divisions depend on the mode of their production. The process includes pasteurization following the satisfying and closing of the ampule and those that are aseptically sterilized. Aseptic Dispensation plays a grave character with large particles that cannot be pasteurized. The confirmation of the procedure to harvest sterile products is gauged through the demo of numerous media fill process imitations. These simulations vary in both numbers and size of the containers and also on the volumes filled over a definite period.

Aseptic Processing contains jeopardy valuation in a continuous manner because of the characteristic risks due to penalties of organization and procedure disappointment and tests within the discovery, separation, control, and organization of creation pollution. Within sterile dispensation, the harshness of the penalties of a failure can be critical to the end user while uncovering barrenness challenges remains rather imperfect because of the trivial number of final products verified.

With sheath separation, it is vital to start satisfactory levels of bacteriological pollution to guarantee both produce security and acquiescence. Additionally, aseptic processes are related to endotoxin control, so it gets managed to satisfactory levels.

A diversity of variable quantities can influence the barrenness pledge and the supplementary endotoxin level. These things always contain personnel, procedure, apparatus, mechanisms, cleansing, dehydrogenation along with facilitates that leave some impact on the organization and dispensation of the ultimate products.Issues that need to be careful include the monitoring of ecological areas and workers, water sources, media, media fills, growing, and cleansing.

Products that have been aseptically occupied have trusted the use of USP <71> Sterility Tests to prove barrenness. Nevertheless, since as many as 20 containers are tested per media (TSB and FTM) regardless of the manufacturer's lot size, the usage of barrenness tests does not deliver a high degree of sterility assurance (SAL). Therefore, media fills are used and applied to simulate the real fills and to prove at least a 10-3 sterility pledge level of no pollution. If the ability uses RABS or isolators to encounter their filling requirements, a SAL of 10-5 to 10-6 is likely since the connections with personnel and the environment decrease markedly.

Objectives of Learning

By the end of the Seminar, the participants will be able to do the following:

  • Decrease inspectional observations

  • Get the right knowledge about the basic ideas or principles and skills that are mandatory for conducting Aseptic Dispensation of Sterile Drug Products while maintaining minimum risks

  • Avoid Cautionary Letters and Agreement Rulings

  • Obtain the skills essential for controlling the procedure setting

  • Diminish media fill failures to license manufacture throughput

  • Examine subjects affecting Aseptic Processing to contain the situation, workers, gowning, and cleansing

  • Learn the best repetition techniques for decisive media fill sizes

  • Understand the "critical factors" required to maintain compliance

  • Determine how to develop media fill simulations to include the "worst case" scenarios

Who Should Attend:

  • Manufacturing professionals

  • Project Management

  • Process Chemistry

  • Analytical Chemistry

  • Quality Control professionals

  • Aseptic Processing

  • Regulatory Compliance

  • Reformulation and Formulation Development

  • Validation

  • Microbiology

  • Analytical Chemistry

  • Quality Assurance

  • Scale-up and Technology Transfer

Key Topics Covered:

Join the conversation 7:45 -8:00 AM

Time of commencement of the Seminar: 8:00 AM

Aseptic Processing - Introduction

  • The Disinfected Quantity Form

  • Conservation and control of serious surroundings

  • Expansion of procedures for process, standardization, Preventive Maintenance, CAPA, etc.

  • Exercise of workers to include gowning

  • Certification and assessment of variations

Break 9:45 - 10:00 AM

Adulteration Sources in Sterile Manufacturing

  • Subdivision Content Controls, Cross Pollution Hazards

  • Cleaning Process and Agents for Sterile Production

Questions-Answer Session: 11:15 AM

End of Seminar 11:30 AM

Day 2

Join the conversation 7:45 - 8:00 AM

Time of Commencement of the Seminar: 8:00 AM

Developing Media Fill Requirements in An Aseptic Environment

  • Form FDA 483s

  • Equipment set up

  • Sterilization process

Break 9:45 AM. - 10:00 AM

  • Media fills

  • Smoke studies and their emphasis in Aseptic Production (ISO Class 5 facilities)

  • Endotoxin sources

Answering Questions: 11:15

End of Seminar 11:30 AM

Key Topics Covered:

Barry A. Friedman, Ph.D
Cambrex Bio Sciences

Dr. Friedman possesses over 30 years of industrial managerial experience in various aspects of biopharmaceuticals and medical devices to include regulatory compliance, expert witness testimony, GLP/GMP, quality control, auditing, sterility assurance, microbiological/analytical validations and fermentation technology.

Prior to becoming an independent consultant, Dr. Friedman was associated with Cambrex Bio Sciences, a contract manufacturer of GMP bulk biopharmaceuticals located in Baltimore, Maryland. As the Director of Quality Control, he managed a multi-shift Department of thirty one individuals involved in client management, the receipt and testing of raw materials, environmental monitoring and microbiology, analytical chemistry and QC compliance for the production of Phase 1, 2, 3 and commercial products manufactured from bacteria, yeast and mammalian cells. In this capacity, Dr Friedman enjoyed many client and regulatory interactions, both domestic and international.

Prior to 2000, Dr. Friedman was the Laboratory Director for Chesapeake Biological Laboratories, a contract Aseptic Fill n' Finish manufacturer located in Baltimore, Maryland. In addition to the professional history listed above, other associations have included W.R. Grace, Sigma Chemical Co., Sherwood Medical, Becton Dickinson, American Cyanamid and Union Carbide.

Dr. Friedman received his B.S. degree in Microbiology from Ohio State University, his M.S. from Michigan State University in Microbial Genetics, and his PhD from Ohio State University in Microbiology.

For more information about this training visit

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