Prof. Dr. med. Jörg Kalff
Department of Surgery
kalff@uni-bonn.de View member: Prof. Dr. med. Jörg Kalff
Zentralblatt fur Chirurgie
The German healthcare sector is responsible for 5.2% of the country's greenhouse gas emissions. One contributing factor is the enormous amount of waste generated daily in German hospitals, making them the fifth largest waste producer in Germany. Despite the potential for recycling, a significant portion of hospital waste is incinerated, as mandated by current regulations. This results in high levels of noxious CO emissions and the loss of valuable resources. The goal of this project was to demonstrate the feasibility of recycling complex, contaminated disposable surgical instruments.The study included frequently used disposable surgical instruments that could potentially be recycled as electronic waste. The instruments were wipe-disinfected and sterilised internally within the hospital. After sterilisation, the devices could be classified as electronic waste in consultation with the environmental authorities and then machine-recycled externally by a waste disposal company. Sorting machines shredded and separated the instruments into individual fractions of cables, plastics, different metals, and circuit boards, which were further processed into secondary raw materials.In the first six months (09/2022-03/2023), 239 kg of material were recycled instead of being incinerated. This resulted in a reduction of 545 kg COe. The metal content was estimated as 50% of the total weight; 30% were recyclable plastics, resulting in an 80% recycling rate. The ongoing recycling costs were 1.90 €/kg after deducting revenues. Thus, recycling in this model was approximately 3.9 times as expensive as incineration. A survey of the operating theatre personnel found high satisfaction with the recycling project and a minimal additional workload of less than five minutes.We demonstrated that recycling of contaminated disposable surgical instruments is possible in coordination with government authorities. This approach avoids waste incineration and leads to a reduction in CO-equivalent emissions. However, the higher costs of recycling and the requirement for in-house decontamination pose limitations on the implementation of such projects. To address this, it is necessary for lawmakers to reconsider current regulations and involve manufacturers in recycling costs to fully exploit the enormous recycling potential.
Thieme. All rights reserved.
PMID: 37562394
Department of Surgery
kalff@uni-bonn.de View member: Prof. Dr. med. Jörg Kalff