Our blood collection stoppers are custom-engineered to fit the wide variety of the individual designs and applications.
Blood collection products require high quality production standards to ensure safe utilization.
When it comes to healthcare, high quality and safety are of utmost importance. Products must achieve a flawless performance and ensure the following:
- Safety for the healthcare professionals during blood collection;
- Closed container during transport of the blood sample;
- Enabling lab equipment to properly take and evaluate the blood sample;
- No impact on the blood samples through extraction of ingredients from the blood tube stopper.
Product solutions for patient safety.
Needle sleeves of natural rubber or polyisoprene.
With more than four decades of experience and proven knowledge in the business of blood-collection systems, we at Datwyler are the partners of choice to develop ideal solutions that match individual requirements.
With our unrivaled expertise in compound development, prototyping, and project management, we develop a precise solution that is guaranteed to meet all the requirements of our customers' specific application.
In the field of blood collection systems, we provide needle sleeves made of natural rubber or polyisoprene that offer excellent resealing properties and elasticity.
We develop individual needle sleeve solutions with customized designs and finalize them with a chlorination and siliconization after-treatment, if desired. All our needle sleeves comply to USP/EP Type 1 and are produced in the Datwyler manufacturing level Essential.
Material knowledge is in our DNA.
Datwyler stands out due to its engineering and material science know-how. This is why we guarantee chemically clean compounds: We produce our blood collection stoppers from bromobutyl, which is superior to all tested marketed competition compounds and provides all features that are relevant for a safe blood collection, including low permeability of air and moisture, low metal extraction, low penetration force, fragmentation behavior, and outstanding resealing properties.