With This Pump, You Increase the Efficiency of Insulin Production

In this way, the global demand for insulin can also be covered in the future

The need for insulin is steadily increasing worldwide. This demand can only be met in the future through increased production efficiency. But the challenges, as well as the demands on the systems and pumps for the production of insulin, are significant.

NETZSCH Pumps & Systems, the global specialist in complex fluid management, offers you innovative solutions for the medical and pharmaceutical industries. We will show you how to use a NEMO® progressing cavity pump to significantly increase your efficiency in insulin production while reducing your maintenance and servicing costs.

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Insulin, NETZSCH, Pumps, Systems

Challenge: The demand for insulin will be this high in the next few years

About 285 million people worldwide have diabetes, according to estimates by the International Diabetes Federation (IDF). According to projections, this figure will rise to 438 million by 2030. Since the first insulin analogues at the end of the 1990s, the number of preparations for diabetes therapy has grown steadily. Attempts are being made to make the mode of action more and more similar to that of natural insulin. They are mainly produced biotechnologically from recombinant DNA in various yeasts or bacteria. Numerous auxiliary substances are used here, including zinc chloride, hydrochloric acid and sodium hydroxide, which demand everything from the pumps and systems used for delivery due to their properties. In addition to the highest hygiene requirements, long service life and robustness also play a crucial role.

What to consider when choosing a pump for insulin production

For the production processes, the form of synthesis poses an enormous challenge. On the one hand, the measurement of all substances used in insulin production must be precisely adhered to achieve the desired results. On the other hand, the cell cultures used are compassionate; shear forces during the show can quickly destroy them and thus render entire batches unusable. On top of this, there are the high hygiene standards in the medical and pharmaceutical industry, which must be adhered to in every production step in the manufacture of insulin. The frequent and lengthy cleaning cycles required for this restrict productivity. Thanks to the innovative pumps and systems from NETZSCH, nothing stands in the way of gentle conveying in compliance with the strictest hygiene guidelines in insulin production.


million people suffer from diabetes 

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The NEMO® BH hygienic pump in compact block design is used for hygienic applications in the food, pharmaceutical, cosmetic and chemical/biochemical industries. 

How to sustainably increase the efficiency of insulin production

One of the leading suppliers of insulin analogues has been using unique progressing cavity pumps from NETZSCH for several years to feed the plate filters and convey cell mass and folding suspension. Regarding cleaning, the innovative pumps for insulin production were designed with a conveying chamber without dead space as far as possible. This makes the pumps easy to clean (CIP - " Cleaning-In-Place-Process") and can even be kept sterile (SIP - "Sterilisation-in-Place-Process") without having to remove them from the system. This saves you time and money.

Depending on the degree of hygiene requirements, you can choose from two different versions: One with a flexible rod for conveying the gradient to the filters and one with a particular hygienic joint for transporting the cell cultures. The design of this pin joint is open so that the medium flows around it. This saves external lubrication. In addition, an accumulation of residual material at the joint is prevented. On the other hand, the flexible rod transmits the rotary movement of the drive without any moving parts and, because it is gap-free, meets even higher demands for cleanability and sterility. In addition, this design is practically maintenance-free. The first NEMO® conveyor systems were installed in insulin production in 2002; since then, additional pumps have been added several times to increase capacity. The maintenance intervals are five years until a stator needs to be replaced; the rotors even need to be replaced after ten years. Increase the efficiency of your plant with a NEMO® progressing cavity pump and help to ensure that the global demand for insulin can continue to be met in the future.

NEMO® SH Plus hygienic pump with a bearing housing

  • Medium: Insulin
  • Pressure: Max. 24 bar
  • Capacity: Max. 120 m³/h
  • Speed: 800 rpm
NEMO® SH Plus Hygienic Pump With Bearing Block, NETZSCH, Pumps, Systems