RIVM will calculate temporary background value for PFAS in soil In the coming weeks, RIVM will derive a temporary background value for PFAS in Dutch soil. This will be done based on measurement data from the provinces in the Netherlands.
A guide for the safe reuse of diaper and incontinence materials RIVM has developed a step-by-step plan for the safe reuse of diapers and incontinence material. This plan provides recyclers and licensing authorities with tools to carry out a risk assessment.
Graphit rain poses health risk An assessment of potential health risks shows that graphite rain contains heavy metals and PAHs.
Emphasising safety and sustainability in circular design A stronger focus on safety, health and sustainability is needed in designing circular products. When basic resources are re-used in new products, health risks should be avoided.
iGEM meetup for teams and supervisors The best synbio projects, including iGEM teams, have one thing in common: cutting edge science in the light of carefully considered societal needs.
Collaboration is key to 2017 State of Zoonotic Diseases report De jaarlijkse Staat van Zoönosen focust zich dit jaar op een One Health-aanpak van zoönosen.
New method for toxicological assessment of perfluoro mixtures Perfluoro (PFAS) is a group of substances that contains PFOS, PFOA and GenX. Perfluoro substances often occur as pollution in ground water and drinking water.
Disease burden and cost-of-illness of food-related pathogens in the Netherlands Each year, RIVM presents an update on the number of illnesses caused by 14 enteric pathogens (such as Salmonella, Campylobacter or Listeria) that can be transmitted by food into the human body.
Animal-free innovations in safety assessment of chemicals How can the process of validation, acceptance and use of animal-free innovative approaches to assess the safety of chemicals be facilitated?
RIVM measures much higher levels of tar, nicotine and carbon monoxide in cigarettes Tar, nicotine and carbon monoxide (TNCO) levels measured in accordance with the Canadian Intense (CI) method are at least twice as high as the levels measured in accordance with the prescribed ISO