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LA-ICP-MS analysis reveals differences in chemotherapeutic drug distribution in surgically resected pleural mesothelioma
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  • Anna Tisza,
  • Thomas Klikovits,
  • Szilvia Torok,
  • Beata Szeitz,
  • Zsuzsanna Valko,
  • Zsolt Megyesfalvi,
  • Mir Hoda,
  • Balazs Hegedus,
  • Maximilian Bonta,
  • Winfried Nischkauer,
  • Konrad Hoetzenecker,
  • Andreas Limbeck,
  • Karin Schelch,
  • Viktoria Laszlo,
  • Balazs Dome
Anna Tisza
National Koranyi Institute of Pulmonology
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Thomas Klikovits
Medical University of Vienna
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Szilvia Torok
National Korányi Institute of Pulmonology
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Beata Szeitz
Semmelweis University
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Zsuzsanna Valko
Medical University of Vienna
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Zsolt Megyesfalvi
National Koranyi Institute of Pulmonology
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Mir Hoda
Medical University of Vienna
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Balazs Hegedus
University of Duisburg-Essen Faculty of Medicine
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Maximilian Bonta
Technische Universität Wien
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Winfried Nischkauer
Technische Universität Wien
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Konrad Hoetzenecker
Medical University of Vienna
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Andreas Limbeck
Technische Universitat Wien
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Karin Schelch
Medical University of Vienna
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Viktoria Laszlo
National Koranyi Institute of Pulmonology
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Balazs Dome
Medical University of Vienna

Corresponding Author:balazs.dome@meduniwien.ac.at

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Abstract

Background and Purpose: Pleural mesothelioma (PM) is a highly aggressive thoracic tumor with poor prognosis. Although reduced tissue drug accumulation is one of the key features of platinum (Pt) resistance, little is known about Pt distribution in human PM. Experimental Approach: We assessed Pt levels of blood samples and surgically resected specimens from 25 PM patients who had received neoadjuvant Pt-based chemotherapy (CHT). Pt levels and tissue distributions were measured by laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) and correlated with clinicopathological features. Key Results: In surgically resected PM specimens, mean Pt levels were significantly higher in the non-tumorous (fibrotic) areas (vs. tumorous regions, p<0.001). No major heterogeneity of Pt distribution was seen within the tumorous areas. Pt levels correlated neither with microvessel area (MVA) nor with apoptosis rate in the tumorous or in the non-tumorous regions. A significant positive correlation was found between serum and both full tissue section and tumorous area average Pt levels (r=0.415, p=0.039 and r=0.532, p=0.006, respectively). Furthermore, a significant negative correlation was detected between serum Pt concentrations and elapsed time from the last cycle of CHT (r=-0.474, p=0.017). Serum Pt levels correlated negatively with overall survival (OS) (p=0.029). Conclusion and Implications: There are major differences in the drug distribution between tumorous and non-tumorous areas of PM specimens. Serum Pt levels significantly correlate with full section- and tumorous areas average Pt levels, elapsed time from the last CHT cycle, and OS. Further studies investigating clinicopathological factors that modulate tissue Pt concentration and distribution are warranted.