Trends Transforming The Pharmaceutical Manufacturing Industry Outlook

The pharmaceutical manufacturing industry is a vital sector responsible for producing and developing medications, vaccines, and other healthcare products. It encompasses various activities, from research and development of new drugs to mass production and distribution. Pharmaceutical manufacturers employ cutting-edge technologies and rigorous quality control measures to ensure their products’ safety, efficacy, and consistency. They collaborate with regulatory bodies, such as the Food and Drug Administration (FDA), to adhere to strict guidelines and standards. The industry is critical in advancing healthcare by providing essential treatments for various diseases and conditions, improving patient outcomes, and enhancing public health.

1) Big Data Evolves the Pharmaceutical Industry

As the global market increases, pharmaceutical manufacturing will adjust and conform to what is coming in the pipeline. The rapidly new and changing global markets increase data sets in research and development, and the United States encounters new competition. Traditional paper tracking investigations in CAPA processing will accelerate with software solutions in analyzing data with lower costs and better results.

38% of pharmaceutical global industrial respondents expect the greatest technology impact will come from Big Data.

China’s biopharmaceutical sales grew almost 25% annually from USD 9.4 billion from 2012 to 2016. If it continues to grow at the expected rate, the sales volume will be USD 48.8 billion by 2022.

2) AI Partners with Big Data Combining Human Reasoning with Machine Functionality

Humans can reason and innovate, but machines can analyze big data quickly without bias. Human reasoning alone could not solve the mystery of which biochemical pathways of an anti-fungal drug caused liver toxicity. A student at Washington University solved the puzzle by using artificial intelligence.

Pharmaceutical manufacturing is more progressive with new technologies than other areas of the pharmaceutical industry. Robotic technology and artificial intelligence are reducing manufacturing floor downtime and product waste. Single-use disposable solutions replace open-transfer manufacturing techniques for safer storage and drug transport.

AI can identify even the slightest change in air quality or temperature changes on the shop floor 24 hours a day and respond immediately to sterile manufacturing requirements. It is critical to catch any potential problem before it damages a product that may cause a costly shutdown, a massive product recall, or equipment replacement.

Through the Ph.D. programs, the Novartis-MIT Center is piloting new continuous manufacturing research with Industry 4.0 artificial intelligence. They have pledged a ten-year $65 million to the Center using Novartis pharmaceutical products.

3) Expanding Biosimilar Markets Due to Biologic Patent Expirations

As the pharmaceutical regulatory agencies grapple with legal safety and procedural standards for biosimilars and the public clamors for lower drug costs and more access to pharmaceuticals, manufacturing must adapt to new markets. They expect biosimilar drug markets to increase around the world. Latin American countries are an area to watch as they have their research and development for producing and commercializing patent-expired biological drugs.

The FDA expects to review more biosimilar applications in 2022 because 66 biologic U.S. patents expire between 2022 and 2025.

4) Contract Developments, Collaborations, Mergers, and Acquisitions

IQVIA predicts that the pharmaceutical industry’s $1.2 trillion in 2018 value will increase by 2023 to $1.5 trillion. Contract development and manufacturing organizations are consolidating, needing to improve speed, increase efficiencies and expand globally. Mergers and acquisitions are also driven by an aging population with a greater demand for generic drugs combined with patent expirations. Older companies are teaming up with visionary newer investment growth companies. Boehringer Ingelheim’s acquisition of a Swiss biotechnology company will target immune responses in cancer research. The global research collaboration of Gilead and Galapagos promises new innovative drug discoveries. AbbVie has acquired Allergan and will expand its therapeutic focus on inflammatory diseases.

5) Advanced Compressed Air Technology

Due to the confusion surrounding specific regulations, reliable monitoring and quality standards have slipped under the radar in manufacturing risk management. Pharmaceutical manufacturers continue to navigate the ISO 8573-1 internationally approved guidelines to ensure maximum air quality for the process and product they manufacture. Air quality classes identified by the ISO 8573:2010 directives show compressed air creates the purest atmosphere. Compressed air is free from particles, microorganisms, and all forms of water and oil, including liquids, vapors, and aerosols. Monitoring these contaminants in certain sensitive areas and manufacturing processes requires regular testing. Some parts of the pharmaceutical manufacturing process are not required to have that level of air purity. Manufacturers wrestle with identifying which aspects need compressed air purification, separate the areas, and monitor and test the sites using compressed air.

Gases are used in some manufacturing processes, and cleanroom specifications established by the FDA Industry Sterile Drug Products say that air quality should be the same or better than the air into which the gas is introduced after filtration.

A cubic meter of untreated air may contain up to 200 million dirt particles and other substances, according to Nexflow in 2018.

6) Product Manufacturing and Labeling for Cannabis and Other Non-Prescription Formulas

CBC product labeling debates keep manufacturing at bay as they provide additional information and are forced to delay submitting their applications. Manufacturers have been guided to give more details than labeling approved drug facts. They remain on hold as the regulatory agencies resolve the complex legal implications before they can claim the authenticity of a new dietary ingredient.

On May 31, 2019, a public hearing was held to help the FDA evaluate its standards in overseeing cannabis and cannabis compounds. Over 150 interested parties attended the hearing, and the FDA continues to assess the data and information obtained.

The pharmaceutical industry continues its investigation of new marijuana-based therapies, and the manufacturing arm must be ready to enter the competitive market.

The FDA wants to make sound decisions based on science. Recalls related to label issues alone may cost a pharmaceutical company $100 million yearly.

7) Balancing Safety, Regulatory Requirements and Meeting Manufacturing Demands by Modernizing, Digitizing, and Streamlining Applications

The pharmaceutical manufacturing platform or the shop floor operations are finally breaking out of antiquated paper processing applications. The old operational systems are being modernized and replaced with new digitizing software that reduces human errors and accelerates manufacturing processing. They can make smarter decisions in real time, 24 hours a day. New mobile technologies and cloud solutions enable rapid communication from the front office to the workstation on the shop floor. Teams can access needed information immediately to maintain quality and compliance while improving speed and efficiency.

Pharmaceutical manufacturers are finding that the new advanced software is making it easier to ensure compliance with regulations. The old manual platforms may open critical data to human error manipulation and misinterpretation.

A violation found in a factory inspection brings a possible price tag of $10 million. A dreaded warning letter can cost approximately $200 million, and a settlement could cost upwards of $1 billion.

8) Continuous Processing and New Mixing Technology Features

In 2003 the FDA drafted a guide that led to changes favoring continuous processing to produce quality products that were continuously measured and monitored.

Mixing technology with improved data documenting quality, formula accuracy, and increased speed of continuous processing can convert raw materials into the finished product within minutes, thus reducing the need for large storage tanks and batch mixers. Flexible specific controls meet the needs of multiple manufacturers. The mixers are designed for sanitation and easy cleaning to reduce contamination risks in pharmaceutical manufacturing plants.

GEA, global equipment and process technology provider, collaborated with Merck & Co., Inc. to conduct a continuous processing system trial. The 120-hour trial run created more than 15 million tablets. They said that running a typical batch process to produce the same number of pills would require ten separate events employing three operating teams working in three production areas for 5–7 days.

9) Solid Dose Pharmaceuticals Remain Strong

New technologies are not likely to replace oral-dose pharmaceutical products anytime soon. Solid doses that patients are familiar with maintain their high-demand status and will continue to expand. New factual dose formats and improved efficiency are steering the expansion of reliable dose pharmaceutical manufacturing.

According to an article published in Pharma Manufacturing, the preferred solid dosage form will be tablets and an estimated sales of more than $500,000 by the end of 2027. Of the 59 new molecular entities approved in 2018, 24 were solid dose tablets, and seven were in capsule solid dose form. Catalent recently concluded a $1.2 billion gene therapy collaboration with Paragon Bioservices and is now investing $40 million to increase tablet and capsule controlled-release capacity. In 2018 Metrics Contract Services we invested $80 million in a new manufacturing facility in North Carolina to produce oral solid dose pharmaceuticals.

9) Instrument Verification Sensors and Calibration Procedures.

Pharmaceutical companies are getting a better understanding of the manufacturing processes. New manufacturing plants replace traditional manual step batch processing and implement automatic processing with real-time analysis that monitors quality control of all manufacturing processes. Flow measurements, conductivity, temperature, pressure, calibration, and verification sensors save time, and money and increase the safety of pharmaceutical products.

Recent temperature sensor technology makes it possible to eliminate unnecessary lab calibrations and document data. The sensor constantly performs an automatic on-site calibration of a referenced temperature range of 118 to 121 degrees centigrade, and any problem prompts an electrical signal to a comparison calibrator. An alarm or error message is sent immediately.

10) Precision Medicine is Making Waves

How will pharmaceutical manufacturing adapt to meet the demands of precision medicine for a targeted smaller grouping of patients as opposed to the traditional volume demands of one-size-fits-all industrial methods? A new division of the FDA, the Office of Drug Evaluation Science, will be setting the guidelines. Developing genetic-based precision formulas will impact the industry and could begin a major shift.

In the last twenty-five years, adverse reactions have resulted in the withdrawal of more than 450 medicines worldwide. Precision medicine could be a game-changer.