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1588883 
Journal Article 
Metabolism of the plasticizer and phthalate substitute diisononyl-cyclohexane-1,2-dicarboxylate (DINCH(®)) in humans after single oral doses 
Koch, HM; Schütze, A; Pälmke, C; Angerer, J; Brüning, T 
2013 
Yes 
Archives of Toxicology
ISSN: 0340-5761
EISSN: 1432-0738 
SPRINGER HEIDELBERG 
HEIDELBERG 
87 
799-806 
English 
23203454 
WOS:000317682700004 
Hexamoll(®) DINCH(®) (diisononyl-cyclohexane-1,2-dicarboxylate) is a new high-molecular-weight plasticizer and a phthalate substitute. In this study, the metabolism of DINCH(®) was investigated by oral dosage of three male volunteers with approximately 50 mg Hexamoll(®) DINCH(®) (resulting in individual doses between 0.552 and 0.606 mg/kg body weight). Their urine samples were consecutively collected over 48 h. In analogy to di-iso-nonylphthalate (DINP) metabolism, we quantified the simple monoester mono-isononyl-cyclohexane-1,2-dicarboxylate (MINCH) and its secondary oxidized metabolites with HPLC-MS/MS via isotope dilution analysis. Additionally, we quantified the unspecific full breakdown product, cyclohexane-1,2-dicarboxylic acid (CHDA), via standard addition. All postulated metabolites were present in all samples analyzed. The unspecific CHDA was identified as the major urinary metabolite representing 23.7 % of the dose as the mean of the three volunteers (range 20.0-26.5 %). 14.8 % (11.3-16.7 %) of the dose was excreted as monoesters with oxidative modifications, in particular OH-MINCH 10.7 % (7.7-12.9 %), oxo-MINCH 2.0 % (1.5-2.6 %) and carboxy-MINCH 2.0 % (1.8-2.3 %). Less than 1 % was excreted as the simple monoester MINCH. In sum, 39.2 % (35.9-42.4 %) of the DINCH(®) dose was excreted as these metabolites in urine within 48 h. Over 90 % of the metabolites investigated were excreted within 24 h after application. The secondary oxidized metabolites, with elimination half-times between 10 and 18 h, proved to be apt and specific biomarkers to determine DINCH(®) exposure. With this study, we provide reliable urinary excretion factors to calculate DINCH(®) intakes based on these metabolites in environmental and occupational studies. 
DINCH; Phthalate substitute; Human metabolism; Urinary metabolites; Excretion fractions; Human biomonitoring 
• Diisononyl Phthalate (DINP)
     Literature Search
          LitSearch May 2013
               PubMed
          DINP Jan 2014 update
               Pubmed
               Web of Science
     Excluded: No Primary Data on Health Effects
          Not chemical specific
• Phthalates – Targeted Search for Epidemiological Studies
     Source – all searches
          Pubmed
          WOS
     Excluded
     Source – no date limit through June 2013 (Private)
          Pubmed
          WOS
     Source - Dec 2013 Update (Private)
          WOS
     Source - Jun 2014 Update (Private)
          WOS