We have just finished a new video production for RNA Automation – The Recipharm MK360 intended for pharmaceutical automation. This video production follows the automation process of high-speed inspection of inhaler ferrules.

Most of the filming was done on straight and curved sliders to eliminate camera shake at all costs. Footage filmed with Sony cameras in SLOG3 and graded to show the machine in the best light.

Pharmaceutical Automation

Pharmaceutical automation refers to the use of technology and automated systems to optimise the manufacturing, distribution, and delivery of medications. This approach to pharmaceutical production has been on the rise in recent years due to its ability to improve efficiency, reduce errors, and increase overall quality control.

One of the primary benefits of pharmaceutical automation is the ability to improve production efficiency. Automation technology can be used to streamline production processes, reducing the time and labor required to produce medications. By automating repetitive tasks, such as filling and labeling, pharmaceutical manufacturers can reduce the risk of human error and improve overall production speed.

Another advantage of pharmaceutical automation is the ability to improve quality control. Automated systems can be used to monitor production processes in real-time, allowing manufacturers to identify any issues that arise and correct them immediately. This level of monitoring helps to ensure that medications are produced to the highest possible standards and that they are consistent in terms of dosage, strength, and purity.

Pharmaceutical automation can also be used to improve the distribution and delivery of medications. Automated systems can be used to track medications as they move through the supply chain, from manufacturing facilities to warehouses and finally to retail locations or healthcare providers. This level of tracking helps to ensure that medications are delivered to the right place at the right time, reducing the risk of delays or errors.

Additionally, automated systems can help to improve medication adherence among patients. Electronic prescription systems can be used to send prescription orders directly from healthcare providers to pharmacies, reducing the risk of errors that can occur when prescriptions are written by hand. Automated reminders can also be sent to patients to remind them to take their medications on time, increasing the likelihood that they will adhere to their treatment plans.

Despite the many benefits of pharmaceutical automation, there are some potential downsides to consider. One potential issue is the high cost of implementing automated systems. These systems can be expensive to install and maintain, which can be a barrier for smaller pharmaceutical companies. Additionally, there is a risk of job loss associated with the automation of production processes, which can have a negative impact on local economies.

In conclusion, pharmaceutical automation has the potential to revolutionise the production, distribution, and delivery of medications. By using automated systems to streamline production processes, improve quality control, and increase medication adherence, pharmaceutical companies can improve patient outcomes and reduce healthcare costs. While there are some potential downsides to consider, the benefits of pharmaceutical automation are significant and are likely to drive continued investment in this area in the years to come.