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The Advantages of Pharmaceutical Box Printing

by nacyluis
The Advantages of Pharmaceutical Box Printing

There are many advantages to flexographic printing, and pharmaceutical box printing is no different. Flexography printing is long-lasting, cost-effective, and allows for higher resolution and complex prints. Its rapid setup time, easy registration, and reduced waste make it an excellent choice for pharmaceutical packaging. Here are some of the most important advantages of flexography printing for pharmaceutical packaging. Read on for more details. Then, get your next project started!

Flexographic Printing

In flexographic pharmaceutical box printing, the ink is applied to the substrate in a uniform thickness with the aid of an anilox roll. The anilox roller is made up of cells with finely engraved patterns and specific ink capacity. These cells are then scraped off with a doctor blade, which transfers the ink to the printing plate. The substrate moves through a series of printing decks. Each printing deck is designed to apply a different colour of ink. A drying unit ensures that each colour of ink is thoroughly dried. The drying unit can be equipped with an ultraviolet light source and hot air to achieve this result.

The process of flexographic pharmaceutical box printing is highly versatile and can accommodate a variety of materials and substrates. Its precision and consistency make it suitable for printing numerous ruling products. The flexographic process can accommodate a wide range of materials, such as corrugated cardboard, carton board, and liner board. Because of its versatility, it is also suitable for pharmaceutical packaging and is compatible with both oil-based and water-based inks.

Individual Components

Inks used for flexographic printing must meet certain fundamental specifications. These include physical, chemical, and environmental properties. They must be compatible with a wide variety of substrates. Each of the individual components in the ink is designed to perform a special function, and the composition of the inks will vary depending on the type of substrate. Flexographic printing inks must have a high degree of compatibility with various materials.

Despite the high-volume printing of packaging materials, flexographic printing processes are also flexible and easy to learn. They use water-based inks and solvent-based inks. Whether you need to produce packaging for pharmaceutical products or plastic shopping bags, flexographic printing is the right choice. With so many advantages, flexographic printing has become the standard for pharmaceutical packaging. The process of printing pharmaceutical boxes has become more affordable and reliable.

The versatility of flexographic printing means that you can use virtually any substrate you need to cover with a high-quality print. The versatility of this printing service technique also allows you to print on a wide variety of materials, including flexible packaging and brown corrugated boxes. Flexible packaging, such as retail bags and milk cartons, is an excellent choice for flexo printing. If you need a large-scale, continuous print job, you will be pleased with the results.

Inkjet Printing

Pharmaceutical box printing is an important part of drug production. Pharmacopeia laws require accurate labeling, including product identification. The FDA enforces laws that protect the public from counterfeit drugs. FDA-compliant packaging is essential to preventing counterfeit drugs from contaminating the environment and compromising patient health. In addition to ensuring the quality of drugs, pharmaceutical packaging requires high-speed, durable printing systems. Inkjet printing systems provide the reliability, performance, and flexibility pharmaceutical companies need to succeed in the industry. Since inkjet printing processes do not require a fixed printing plate, inkjet pharmaceutical box printing requires special equipment and processes.

Reiner handheld inkjet printers make the process of printing on vitamin and pharmaceutical packaging easy and convenient. These printers add versatility to manufacturers, retailers, hospitals, and pharmacies. They can print on plastic and glass bottles, foil pouches, and more. The printers are compatible with the industry’s most common standards and specifications. They also deliver exceptional print quality. For further security, these printers also produce security codes for product tracing.

Continuous Inkjet printers use solvent-based inks that are high-fluid. The printers spray the ink at high-frequency intervals, allowing the ink to flow freely. Different currents can deflect ink droplets, and they can reuse ink over again. This method is especially beneficial when inkjet printing on plastic. The unused ink is fed back into the closed circuit, allowing for endless use.

Inkjet printing allows you to incorporate variable and fixed alphanumeric information onto your packaging. Besides, these printers can also print machine-readable codes, such as barcodes, Data Matrix ECC 200, QR codes, and GS1 DM codes. Moreover, these printers work with different materials, including glossy and coated cardboard. It is also possible to print on textiles and plastic film.


Labeling pharmaceutical products is a crucial step to prevent product contamination and ensure a safe supply chain. Moreover, the labeling of pharmaceutical products is required to adhere to numerous government regulations. In addition, printing is an important part of pharmaceutical packaging because it impacts quality requirements and inspection processes. One such regulatory change is a new requirement for pharmaceutical serialization. This regulation requires pharmaceutical manufacturers to provide a unique identifier for each pharmaceutical product. Pharmaceutical manufacturers have until February 9, 2019, to update their labels in compliance with this new regulation.

Extended content labels, also known as leaflet or booklet, have a vital role in the pharmaceutical industry. These labelling materials ensure compliance with the requirements of the Food and Drug Administration (FDA). Furthermore, these printing solutions can be used in various packaging types. Peel and read labels, for example, offer additional space on the package without compromising the visual appeal and shelf impact. Aside from pharmaceutical labeling, pharmaceutical packaging also features packaging that is easy to clean.

Moreover, the latest innovations in smart technology have also made their way into the packaging industry. Pharma companies are increasingly turning to smart barcodes and random serialization, which ensure accurate tracking of pharmaceutical products. These new approaches are also helping manufacturers to streamline the shipping process and protect their supply chains. Besides smart barcodes, many companies are also incorporating covet images and verification strategies in their labels. Such details are not only attractive, but also complement tamper-proof labels.

Compatibility Testing

Drug packaging is a major part of the pharmaceutical industry and has become an integral part of drug business circulation. The process of pharmaceutical packaging design involves five stages: drug compatibility testing, design of the structure and size of the package, content and print, and confirmation of protection performance.

Drug manufacturers must understand the chemical, physical, and functional compatibility of packaging components with the pharmaceutical products they are manufacturing. If not, the drug or packaging component may become compromised. Interactions can result in loss of potency or efficacy from absorption, degradation of the active drug substance, precipitation, or changes in pH. These interactions can also result in discoloration of the pharmaceutical product or packaging component, or increased brittleness of the container.

When submitting information for a pharmaceutical product, firms should consider compatibility with the intended route of administration, the dosage form, and the closure system. In addition to these elements, they should consider any unique handling or treatment that may affect the safety of the packaging. The firm should also use quality control procedures for the packaging to ensure that future production batches are safe. These factors may include water vapor, reactive gases, microbial contamination, and filth.

Drugs that interact with the packaging must provide evidence of safety and compatibility. The drug product itself should undergo extraction/toxicological evaluation studies to assess the safety of the packaging. The results of these tests are important for the safety and effectiveness of the pharmaceutical product. Other tests can also be used to assess the compatibility of packaging with drug products. For example, a manufacturer can use appropriate reference to the indirect food additive regulations.

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