This section provides an overview for process analytical technologies (pat) as well as their applications and principles. Also, please take a look at the list of 5 process analytical technology (pat) companies and their company rankings. Here are the top-ranked process analytical technology (pat) companies as of October, 2024: 1.Bruker Corporation.
Table of Contents
PAT, an abbreviation for Process Analytical Technology, is a technology employed for monitoring and analyzing products during the manufacturing process to enhance product quality.
To ensure product quality, quality inspections are typically carried out before shipment. However, conducting inspections only at the final stages of the manufacturing process can lead to inefficiencies, as defective materials, time, and resources may be wasted when defects are discovered.
Therefore, by implementing intermediate inspections for each manufacturing process, PAT allows for the early detection and timely addressing of manufacturing defects, enabling efficient production.
PAT serves as a quality management technique utilized in the manufacturing of pharmaceuticals, chemicals, and food products. At each stage of the manufacturing process, various analytical techniques are employed to monitor the quality of intermediate products in real time. In the event of abnormal quality, PAT immediately issues warnings and prompts corrective actions.
PAT is primarily utilized in the manufacturing processes of products such as powders, liquids, and gases. The system monitors the physical, chemical, or biological properties of intermediate products using sensing technologies.
Additionally, PAT systems continuously monitor the values obtained during monitoring. If values exceeding normal parameters are observed, the system issues warnings to operators, prompting appropriate responses, or even automatically halting processes.
For example, in the pharmaceutical manufacturing process, PAT measures physical quantities such as temperature, pressure, and pH to predict the occurrence of defects. In food manufacturing processes, chemical measurements like color and viscosity are taken to predict the quality and detect any abnormalities in taste in the final product. In chemical manufacturing processes, measurements of composition and concentration are taken to evaluate product quality and assess the safety of subsequent processes.
PAT is particularly emphasized in the pharmaceutical manufacturing process within various manufacturing sectors.
PAT operates by coordinating three main functions: sensors that measure physical, chemical, or biological characteristics at each manufacturing process, analytical devices that analyze data obtained from sensors, and quality management functions that judge whether the product's quality is maintained based on the analysis results.
By ensuring that PAT is continually implemented in real-time for each manufacturing process, any issues that arise can be promptly communicated to administrators, allowing for early action and preventing a decline in manufacturing yield.
For instance, when establishing temperature management for a reaction vessel used in a certain manufacturing process, data on the upper and lower limits of temperatures at which products can be manufactured properly are obtained. A management boundary is then set within a stricter range than this, and immediate action can be taken if the process exceeds this limit.
This proactive approach prevents defective products from flowing into subsequent processes.
PAT is a technology used for quality management in manufacturing processes, and the measurement targets, measurement methods, and analysis methods vary. As long as it aligns with the concept of quality management technology, using various sensors and analytical methods qualifies as PAT.
However, industries with high demand, such as pharmaceutical manufacturing, have commercially available PAT analysis devices that combine specific sensors and analytical equipment to fulfill some of PAT's functions.
For example, there are composition analysis devices that use in-situ spectroscopy or chromatography. These devices attach sensors to process equipment, allowing real-time analysis results to be obtained as the process progresses. Additionally, PAT analysis devices that utilize Near-Infrared Spectroscopy (NIR) or Raman Spectroscopy (Raman) are available for pharmaceutical development.
PAT is a comprehensive method for quality management in manufacturing processes, combining various products and technologies. Therefore, the choice of PAT varies depending on the type of products and processes being manufactured.
In fields like pharmaceutical manufacturing, if PAT-related products applicable to the company's manufacturing processes are identified, consulting with the manufacturer or distributor of those products is recommended. Some companies also conduct seminars related to PAT, and participating in such seminars can be effective.
*Including some distributors, etc.
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Bruker, founded in 1960 and based in Billerica, Massachusetts, is a manufacturer and distributor of scientific instruments and analytical and diagnostic solutions. The company's product range includes analyzers, microscopes, and imaging solutions, which have applications in fields such as life science research, cell biology, and microbiology. In 1969, the company developed the world's first FT-NMR spectrometer system, enabling broadband proton decoupling. In 1997, it further expanded its capabilities by acquiring the analytical X-ray division of Siemens AG. The company holds ISO 9001 and ISO 13485 certifications, and its products are available for sale worldwide.
Mettler Toledo was incorporated in 1945 in Toledo, Ohio, and is today headquartered in Greifensee, Switzerland. Mettler Toledo is a manufacturer of various analytical instruments for use in laboratories, industrial and manufacturing, and food retailing applications to customers globally. Mettler Toledo offers many products across product lines for uses such as product inspection, process analytics, jewelry scales, moisture analyzers, and software for laboratory weighing. Mettler Toledo also offers numerous accessories such as density kits, hands-free accessories, weighing tables, and weight accessories.
Thermo Fisher Scientific Inc., established in 2006 and headquartered in Waltham, USA, is a manufacturer and supplier of analytical instruments, laboratory equipment, and related services. The company’s products include antibodies, cell culture media, and essential chemicals. It provides chromatography columns and cartridges for separating and analyzing complex mixtures. It also supplies laboratory plasticware for handling samples and reagents, microplates for high-throughput screening, and genes indispensable for genetic analysis and manipulation. These products are crucial for molecular and cellular research, laboratory cell cultivation, and various analytical and experimental purposes. Thermo Fisher also offers CDMO, clinical trial, instrument, and training services.
Ranking as of October 2024
Derivation MethodRank | Company | Click Share |
---|---|---|
1 | Bruker Corporation |
100.0%
|
Derivation Method
The ranking is calculated based on the click share within the process analytical technology (pat) page as of October 2024. Click share is defined as the total number of clicks for all companies during the period divided by the number of clicks for each company.Number of Employees
Newly Established Company
Company with a History
*Including some distributors, etc.
*Including some distributors, etc.
Country | Number of Companies | Share (%) |
---|---|---|
United States of America | 1 | 33.3% |
Germany | 1 | 33.3% |
Portugal | 1 | 33.3% |