Medikamentenentsorgung in privaten Haushalten: Ein Faktor bei der Gewässerbelastung mit Arzneimittelwirkstoffen?

Background

Residues of pharmaceuticals are meanwhile detected widely in the aquatic environment. Waste water treatment plants are the main route of entry: after intake the agents or their metabolites are excreted predominantly via urine into the sewage. Largely unknown is, however, if the improper disposal of unused medicines via domestic sanitary devices (toilet or sink) contributes to the measured concentrations in the environment. Aim of this investigation was to clarify to what extent consumers in Germany dispose of unused medicines directly via domestic sewage. In July and August 2006 a representative survey of the population with 2.000 interviewees was performed for this purpose.

Results

The analysis of the survey shows that the disposal of unused medicines via domestic sewage takes place on relevant scales: approx. 16% of the population dispose at least occasionally of unused or expired tablets in the toilet whereas 43% proceed alike with liquid drugs (toilet or sink).

Discussion

A possible reason for this disposal behaviour is the widely inconsistent waste disposal communication by the municipalities and the federal states. The resulting uncertainty about the correct way to dispose of unused medicines gains in importance in the context of the high recycling willingness of the (German) population: appropriate disposal options for drug residues (tablets or liquids) arising from waste separation are often not realised.

Conclusions

Quantitative assessments on the basis of the collected data demonstrate that the established frequency of direct disposal of unused medicines via domestic sewage can partly contribute significantly to the occurrence of pharmaceuticals in the aquatic environment. Crucial parameters are here the excretion rate of the active pharmaceutical ingredient considered and the actual amount of medication waste.

Recommendations

Based on the inquiry results, measures that lead to a more adequate handling of pharmaceutical waste disposal are demanded. The establishment of a consistent and binding disposal standard for unused medicines via return in pharmacies is recommended. This measure needs to be accompanied by a simplification of the established take back systems which partly cause high time and effort for pharmacies.     

Remediation capacity of Cd and Pb ions by mycelia of Imleria badia,Laetiporus sulphureus,and Agaricus bisporus in vitro cultures

The goal of this study was to evaluate cadmium and lead accumulation ability of in vitro cultures biomass containing selected edible mushroom species derived from the environment (Laetiporus sulphureus, Imleria badia) and those of commercial origin (Agaricus bisporus). Atomic absorption spectrometry was used to evaluate the content of Cd(II) and Pb(II) on the medium supplemented with Cd(II) or Pb(II), each of them at the same concentration of 5·10^?5 M. The highest concentration of Cd(II) ions was determined in the biomass from L. sulphureus in vitro cultures, while the highest concentration of Pb(II) ions was found in the biomass from A. bisporus in vitro cultures. The greatest Cd(II) and Pb(II) accumulation ability in mycelium per dry weight was shown for L. sulphureus. Among the test species, biomass of A. bisporus showed the lowest ability for the bioaccumulation of Cd(II); however, comparable ability for the remediation of Pb(II) was provided by the biomasses from A. bisporus and I. badia in vitro cultures. The results confirm the possibility of using these mushroom species for remediation and indicate the relationship between bioaccumulation of heavy metals and the test species.     

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