Abstract
BACKGROUND: Putrefaction is the microbial metabolism/degradation of autolysis end products like amino acids. The aim of this study was to identify and investigate amino acids and their bacterial degradation products/metabolites by LC-HRMS as possible markers of putrefaction. METHODS: Pig eyes (n = 60) were stored in conical centrifuge tubes and petri dishes within a climate chamber at 25°C, 65% humidity over four days. Each day, eyes were macroscopically examined and vitreous humour was drawn from up to six eyes. Twenty-one amino acids/metabolites (lysine, histidine, arginine, N(2)-acetyllysine, N(2)-acetylarginine, N(6)-acetyllysine, N-acetylcadaverine, tyrosine, N-acetylagmatine, tyramine, phenylalanine, N(2,6)-diacetyllysine, 2-phenylethylamine, tryptophan, kynurenic acid, N-acetyltyrosine, N-acetyltyramine, N-acetylphenylalanine, N-acetyltryptophan, N-acetyl-2-phenylethylamine, N-acetyltryptamine) were monitored by LC-HRMS. RESULTS: Opacification was observed and eyes stored on petri dishes dried out faster and turned dark compared to eyes stored in centrifuge tubes. Amino acids were universally present and showed a significant increase by up to 46-fold from day 0 to 4, except for arginine (no trend observed). Amino acid metabolites were first detected on day 2 with exception of N(2)-acetyllysine, N(2)-acetylarginine, and N(6)-acetyllysine (detected on day 0). All analytes showed a marked increase by days 3 and 4, especially kynurenic acid and N-acetylated compounds. Among the six eyes of each storage condition/day high variability was observed, between centrifuge tube and petri dish storage few variability was found. CONCLUSION: LC-HRMS analysis of amino acids and their metabolites in vitreous humour could be a promising tool to evaluate the putrefaction status. However, further studies are required to better understand inter-individual metabolic differences and influencing environmental factors.