Benefits of Inkjet Printing for Pharmaceutical Printing Services

Benefits of Inkjet Printing for Pharmaceutical Printing Services There are many benefits of using inkjet printing for pharmaceutical printing services. They include precision spatial control, flexibility and cost-effectiveness. In addition, the technology helps prevent counterfeit drugs and can increase the security of packaging materials. The pharmaceutical industry uses the technology to print a wide range of products, including medication packages and barcodes. These products must meet strict regulatory requirements. It is also essential that the information is accurate and legible. Failure to meet these regulations can lead to costly recalls. To stay compliant, manufacturers must use equipment that is capable of delivering the information at high volume and in high quality. Pharmaceutical printing is a critical part of the manufacturing chain. It includes the design of the package, the printing of product information, the use of barcodes, and the use of warning labels. Because of its versatility, inkjet printing is an ideal technology for this purpose. Inkjet printing has also been used in the biomedical field, with researchers developing new applications. For example, Montenegro-Nicolini and colleagues developed a method for printing small biological molecules on a surface. However, this technique is still in development. One of the main challenges in this area is how to ensure that the ink formulation will work with printers and maintain the efficacy of the drug formula. Other important factors are the colour consistency and the viscosity of the ink. Using the wrong ink can affect the print quality, waste, and the cost of the printing process. If the ink is not viscous enough, it can cause clogging, picking, and sticking. Adding a thinner to the ink during the printing process can help to overcome these problems. Another benefit of inkjet printing for pharmaceutical printing services is the ability to print biologics. This can allow manufacturers to create customized dosage forms, such as inkjet-printed polymers that can be dissolved by water. Using this technology can also address the limitations of solid oral dosage forms. Printed drugs on orodispersible films can be more environmentally friendly, and can be attractive for patients with swallowing issues. As a result of increased understanding of human diseases, the ability to create personalized medications is becoming possible. To meet this need, many countries have created intellectual property rights to physical characteristics of a product. Increasing knowledge of genomics has also opened the door to personalized medicine. A number of technologies have been developed to enable the manufacture of print-on-demand medicinal products. Researchers at the Research Center for Pharmaceutical Engineering (RCPE) are leading the way in developing printing technologies that can produce these products. Their aim is to develop a GMP certified process for the production of printed medicines. Compared with conventional drug dosage forms, inkjet printed drugs have the potential to reduce the amount of waste and energy. However, the translation of this technology into industrial practice remains challenging. Nevertheless, the potential is promising.